OVERALL CREDIT STRUCTURE AND COURSE SYLLABI FOR

OVERALL CREDIT STRUCTURE AND

COURSE SYLLABI

FOR

UNDER GRADUATE PROGRAM

B.Tech. (Civil Engineering)

OVERALL CREDIT STRUCTURE

Departmental Core (DC)

Course

Code

Course L-T-P

Credit

CEL251

Fluid Mechanics

3-0-0

CEP251

Fluid Mechanics Lab

0-0-2

CEL252

Engineering Geology

2-0-0

CEP252

Engineering Geology Lab

0-0-2

CEL253

Building Materials and Construction

Technology

3-0-0

CEP253

Building Materials Testing Lab

0-0-2

CEL254

Environmental Engineering-I

3-0-0

CEP254

Environmental Engineering-I Lab

0-0-2

CEL255

Transportation Engineering

3-0-0

CEP255

Transportation Engineering Lab

0-0-2

CEL256

Surveying

3-0-0

CEP256

Surveying Lab

0-0-2

CEL257

Strength of Materials

3-2-0

CEL351

Geotechnical Engineering-I

3-0-0

CEP351

Geotechnical Engineering Lab

0-0-2

CEL352

Environmental Engineering-II

3-0-0

CEP352

Environmental Engineering-II Lab

0-0-2

CEL353

Structural Analysis

3-0-0

CEL354

Geotechnical Engineering-II

3-2-0

CEL355

Hydrology and Irrigation Engineering

3-2-0

CEL356

Indeterminate Structural Analysis

3-2-0

CEL357

Design of RCC Structure

3-2-0

CEL358

Design of Steel Structures

3-2-0

CEL359

Railway and Airport Engineering

3-0-0

CEL360

Estimation and Costing

3-0-0

CED351

Minor project

CED451

Major Project

Undergraduate Core(UC)

Undergraduate Elective (UE)

Category

Credit

Category

Credit

23 (minimum)

06 (minimum)

18 (Balance)

0 (03 Courses)

Total

113

Total

Grand Total (UC + UE)

160

Basic Science (BS)

Course

Code

Course

L-T-P

Credit

SCL152

Applied Mathematics-I

3-2-0

SCL153

Applied Mathematics-II

3-2-0

SCL251

Applied Mathematics-III*

3-0-0

SCL154

Applied Physics

3-0-0

SCP154

Applied Physics Lab

0-0-2

SCL155

Applied Chemistry

3-0-0

SCP155

Applied Chemistry Lab

0-0-2

Total

Humanities and Management (Core) (HM)

Course

Code

Course

L-T-P

Credit

HML151

Social Science

2-0-0

HMP152

Technical Communication

2-0-2

Total

Departmental Elective (DE)

Course

Code

Course L-T-P Credit

SCL453

Probability Theory and Statistics

3-0-0

CEL451

Geomatics Engineering

3-0-0

CEP451

Geomatics Engineering Lab

0-0-2

CEL452

Non-Destructive Testing of Materials

3-0-0

CEP452

Non-Destructive Testing of Materials

Lab

0-0-2 1

CEL453

Structural Dynamics

3-0-0

CEP453

Structural Dynamics Lab

0-0-2

CEL454

Design of Hydraulic Structures

3-2-0

CEL455

Rock Engineering

3-0-0

CEL456

Industrial Waste Management

3-0-0

CEL457

Environmental Impact and Risk

Assessment

3-0-0

CEL458

Advanced Concrete Design

3-2-0

CEL459

River Mechanics

3-0-0

CEL460

Traffic Engineering

3-0-0

CEL461

Construction Planning and management

3-0-0

CEL462

Advanced Foundation Engineering

3-0-0

CEL463

Design of Prestressed Concrete

Structures

3-0-0

CEL464

Urban Water and Environmental

Management

3-0-0

CEL465

Advanced Structural Analysis

3-0-0

CEL466

Advanced Highway Engineering

3-0-0

CEL467

Groundwater Engineering

3-0-0

CEL468

Hydraulic and Hydraulic Machines

3-0-0

CEL469

Bridge Engineering

3-0-0

CEL470

Design of Earth Retaining Structures

3-0-0

CEL471

Architectural Planning and Design of

Buildings

2-2-0

CEP481

RCC Structures Detailing Lab

0-0-2

Engineering Arts and Science (ES)

Course

Code

Course

L-T-P

Credit

MEL152

Elementary Mechanical Engineering

3-0-0

EEL151

Elementary Electrical Engineering

3-0-0

EEP151

Elementary Electrical Engineering

Lab

0-0-2

ECL151

Basic Electronics Engineering

3-0-0

ECP151

Basic Electronics Engineering Lab

0-0-2

MEL151

Engineering Drawing

3-0-0

MEP151

Engineering Drawing Lab

0-0-2

CSL151

Computer Programming and

Problem Solving

3-0-0

CSP151

Computer Programming Lab

0-0-2

MEP152

Mechanical Workshop

0-0-2

CEL151

Environmental Science

2-0-0

Total

Non Credit Requirement (UN)

Course

Code

Course

L-T-P

Credit

NCN151

NCC#

NCN152

NSS#

NCN153

NSO#

SPB151

Sports-I#

0-0-4

SPB152

Sports-II#

0-0-4

HMD251

Community Project

CET251

Practical Training

#A student has to opt at least one from NCC, NSS, NSO and

Sports (I & II both).

Course Syllabi (Under Graduate)

Department of Civil Engineering

Course Code: CEL151

Course Title: ENVIRONMENTAL SCIENCE

Structure (L-T-P): 2-0-0

Prerequisite: NIL

Contents: Eco System: Concept, Structure and functions;

Biodiversity and its conservation. Sustainable development: definition,

significant issues in the context of India, Environmental carrying

capacity Environmental Pollution: Air, Water, Land, Noise etc.,

Pollution sources and effects, Pollution Prevention Strategies; Cleaner

Technologies of Production, Principles of waste minimization, Global

warming, greenhouse effect, acid rains. Solid waste management:

Introduction to solid waste management, Sources, quantity and

quality, Classification and components, Physical and chemical

characteristics, Per capita contribution, Sampling and analysis.

Collection and transportation of solid waste, Collection systems,

Equipments used for collection and transportation, Transfer station.

Composting of Waste: Principles of composting, factors affecting

composting and methods of composting used in India. Social issues

and the environment: Urban problems related to energy, Waste lands,

Wetland and its reclamation, Nature, energy and water conservation,

Rain water harvesting. Occupational health and safety: Introduction,

Concept, Philosophy and Psychology of safety, Accident causes and

prevention, Safety management, Risk identification, assessment and

control techniques.

Text Book:

1. Dhameja, S.K., Environmental Engineering and Management,

2nd ed., S.K. Kataria and Sons, 2013.

Reference Books:

1. Nathanson J.A. and Schneider, R.A., Basic Environmental

Technology: Water Supply, Waste Management and Pollution

Control, 6th ed., Pearson Education, 2014.

2. Weiner R.F., Matthews, R.A. and Vesilind, P.A., Environmental

Engineering 4th ed., Butterworth-Heinemann, 2003.

3. Sandhu R.S., Minhas, S.S. and Sandhu, J., Sustainable Human

Settlements: The Asian Experience. Rawat Publication, 2001.

4. Pachauri, R.K., The Message from WSSD, The Energy and

Resources Institute, 2003.

5. Rao, C.S., Envirmental Pollution Control Engineering, 2nd ed.,

New Age International, New Delhi, 2011.

6. Bhide, A.D., Sundaresan, Pollution Control Engineering, New

Age International Pvt Ltd Publishers, 2002.

7. Ramesh R. Lakhe and Kranti P. Dharkar., ISO 45001:2018

Occupational Health & Safety Management System. 2018.

Course Code: CEL251

Course Title: FLUID MECHANICS

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents: Properties of fluids, Hydrostatic forces on

submerged bodies, Fundamentals of fluid flow, principle of

conservation of mass, momentum, energy and corresponding

equations, potential flow, applications of momentum and Bernoulli‗s

equation, laminar and turbulent flow, flow in pipes, pipe networks,

flow measurement devices. Types of open channels, Uniform flow,

critical flow and gradually varied flow in channels, specific energy

concept, hydraulic jump. Forces on immersed bodies, Dimensional

analysis and modeling similitude. Kinematics of flow. Concepts of

boundary layer, flow separation, Circulation, Drag and lift on

immersed bodies.

Text Books:

1. Fox, R.W. and McDonald, A.T., Introduction to Fluid Mechanics,

John Wiley and Sons, 2013.

2. Subramanya, K., Flow in Open Channels, Tata McGraw Hill,

2008.

3. White F. M., Fluid Mechanics,7th edition, Tata McGraw Hill,

2013.

Reference Books:

1. Som, S.K. and Biswas, G., Fluid Mechanics and Fluid

Mechanics, Tata McGraw Hill, 2013.

2. Garde, R.J. and Mirajgaoker, A.G., Engineering Fluid

Mechanics, Nem Chand and Bros, 2002.

3. Srivastava, R., Flow through Open Channels, Oxford University

Press, 2010.

4. Steeter, V.L., Wylie E.B. and Bedford, K.W., Fluid Mechanics,

9th edition., Tata McGraw Hill Education, 2011.

Course Code: CEL252

Course Title: ENGINEERING GEOLOGY

Structure (L-T-P): 2-0-0

Prerequisite: NIL

Contents: Introduction: Earth and its interior, role of

engineering geology in planning, Design construction and post

construction aspects of river valley projects and other civil engineering

objects. Minerals and Rocks: Essential rock forming minerals,

identification of common minerals in hand specimen. Types of rocks,

texture and structures, importance in planning for construction in

hills. Geological structures: Strike and dip of beds, Description and

types of folds, joints, faults and shear zones as well as their

importance in planning for civil structures. Weathering and soil

formation: Types and agents of weathering – Mechanical and

chemical weathering, impact of weathering on strength of slope

materials, different soil types, soil map in India. Geological hazards:

Earthquake and Landslides. River Valley Projects: Engineering

geological considerations in river valley projects. Small hydro-electric

projects. Roads and bridges in hills: Engineering geological

investigations in selection of hill roads alignments, stability of cuts

slopes, types of bridges, slope stability of abutment foundation.

Text Books:

1. Bell, F. G., Fundamentals of Engineering Geology, Elsevier,

2007.

2. Nagarajan,R., Parthasarathy, A. ,and Panchapakesan , V. ,

Engineering Geology 1st Edition

Reference Books:

1. Anbalagam, R., Singh B., Chakarborthy, D. and Kohli,

A., A Field Manual for Landslide Investigation, DST,

Government of India, New Delhi.

2. Singh, P., Engineering and General Geology, S.K. Kataria and

Sons, 2012.

3. Krynine, D.P. and Judd, W.R., Principles of Engineering

Geology and Geotechnics, Tata McGraw Hill, 2001.

Course Code: CEL253

Course Title: BUILDING MATERIALS AND CONSTRUCTION

TECHNOLOGY

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents: Properties of construction materials and their

evaluation (creep, elastic modulus, fatigue, impact, etc.); test

methods and specifications; Cement – chemical composition,

properties such as setting, strength, fineness, hydration; Aggregates –

sources, properties, chemical reactivity; Concrete - constituents,

proportioning, properties in fresh and hardened state, characteristic

strength, quality control (sampling, acceptance, etc.), transportation

and placing, porosity; Admixtures – chemical, mineral; Basics of

concrete mix design. Steel – properties, types of steel, steel in civil

engineering; Bricks – manufacture, properties and classification;

masonry bonds; Brick masonry; bonds, stone masonry, types of walls,

stairs, staircases, lifts and escalators. Shuttering, Scaffolding and

Centering. Expansion and construction joints, sound and fire proof

construction. Introduction to applications of Aluminum, glass and

nano-materials in civil engineering.

Text Books:

1. Gambhir, M.L., Concrete Technology, Tata McGraw Hill, 2013.

2. Kumar, S., Building Construction, Standard Publishers, 2010.

Reference Books:

1. Neville, A.M. and Brooks, J.J., Concrete Technology, ELBS Ed.,

Longman Ltd., 2013.

2. Taylor, G.D., Materials of Construction, Prentice Hall, 2012.

3. Dayaratnam, P., Brick and Reinforced Brick Structures, Oxford

and IBH Publication, 2012.

4. Khanna, P.N., Indian Practical Civil Engineering Handbook,

Engineers Publishers, 1988.

Course Code: CEL254

Course Title: ENVIRONMENTAL ENGINEERING I

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents: Sources of Water, Water Quality, Water

Demand: Types of demand and their contribution, rate of

consumption, population forecasting, variation in demand pattern.

Intakes structures for surface water source. Systems and unit

processes of water Purification: Aeration, sedimentation, Coagulation

and flocculation, filtration, Disinfection, Softening, Introduction to

advanced water treatment methods. Conveyance of water: pipe

materials, corrosion, laying of pipes, pumps for water supply,

distribution system, planning of water supply projects. Rural water

supply.

Text books:

1. Peavy, H.S., Rowe D.R. and Tchobanoglous, G., ―Environmental

Engineering‖, McGraw Hill. 1985.

2. Masters, G.,―Introduction to Environmental Engineering and

Science‖. Prentice Hall. 2004.

Reference books:

1. Davis, M.L. and Cornwell, D.A., ―Introduction to Environmental

Engineering‖, McGraw Hill, 2012.

2. Kenneth, W., Warner, F.C. and Davis, W.T., ―Air Pollution its

Origin and Control‖, Prentice Hall, 1997.

3. S. K Garg.,―Water supply engineering: Environmental

Engineering‖ Volume 1 Khanna Publications.

4. P.N Modi.,―Water supply engineering‖, Volume 1, Standard

Publications.

5. McGhee, T.J., ―Water Supply and Sewerage‖, McGraw Hill,

1991.

Course Code: CEL255

Course Title: TRANSPORTATION ENGINEERING

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents: Transportation modes and comparison, Role of

transportation: Economic, Social, Political, Environmental. Historical

Development, road patterns, master plans, road development plans,

engineering survey for highway projects. Testing of road materials like

soil, aggregates and bitumen. Highway Cross section elements,

camber, super elevation, sight distances, horizontal and vertical

alignment, summit and valley curves. Type of pavements, Flexible

pavements and their design as per IRC 37, review of old methods,

CBR method, equivalent single wheel load factor, rigid pavements,

stress in rigid pavement, IRC 58 design method for rigid pavement.

Construction of various layers, earthwork, WBM, GSB, WMM, various

types of bituminous layers, joints in rigid pavements, Construction of

Rigid Pavements. Traffic characteristics, road user and vehicular

characteristics, traffic studies, introduction to road traffic safety,

traffic operations and traffic control devices; introduction to intelligent

transport systems.

Text Books:

1. Khanna, S.K. and Justo, C.E.G., Highway Engineering, Nem

Chand and Bros, 2011.

2. Kadiyali, L.R., Traffic Engineering and Transportation

Planning, Khanna Publishers, 2012

Reference Books:

1. Sharma, S.K., Principles and Design of Highway Engineering, S.

Chand and Co., 2012.

2. Papacostas, C.S. and Prevedouros, P.D., Transportation

Engineering and Planning, Prentice Hall, 2008.

3. JotinKhisty, C. and Kent Lall, B., Transportation Engineering: An

Introduction, Prentice Hall, 2008.

4. Khanna, S.K. and Justo, C.E.G., Highway Material Pavement

Testing Manual, Nem Chand and Bros., 2013.

5. Roess, R.P., Prassas, E.S. and McShane, W.R., Traffic

Engineering, Pearson, 2013.

Course Code: CEL256

Course Title: SURVEYING

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents: Importance of Surveying to engineering projects,

basic principles; Type of maps, scales and uses, Plotting accuracy,

map sheet numbering, Coordinate and map projection; Surveying

equipment: levels, compass, theodolites, tachometer, EDM, Total

Stations and other instruments; Measurement of angles, directions

and distance; Determination of elevation: Spirit leveling,

trigonometricalleveling, and tachometric surveying, Contouring;

Methods of control establishment,: Traversing, triangulation,

trilateration; Adjustment of survey measurements, computation of

coordinates; Plane table surveys and mapping; Curve layout,

Horizontal, transition and vertical curves. Introduction to

Hydrographic Surveying, Photogrammetry, remote sensing, GIS and

GPS.

Text Books:

1. Arora, K.R., Surveying, Vols. I, II and III, Standard Book House,

2013.

2. Chandra, A.M., Surveying, New Age International Publishers,

2010.

Reference Books:

1. Anderson, J.M. and Mikhail, E.M., Surveying: Theory and

Practice, McGrawHill, 1988.

2. Schofield, W. and Breach M., Engineering Surveying, 6th ed.,

Butterworth- Heineman, 2007.

Course Code: CEL257

Course Title: STRENGTH OF MATERIALS

Structure (L-T-P): 3-2-0

Prerequisite: NIL

Contents: Simple stress and strain relationship: Stress and

strain in two dimensions, principal stresses, stress transformation,

Theories of failure, Mohr‘s circle. Bending moment and shear force

diagrams for beams. Simple bending theory, flexural and shear

stresses, unsymmetrical bending, shear center. Thin walled pressure

vessels, uniform torsion, buckling of column, combined and direct

bending stresses.

Text Books:

1. Popov, E.P., Engineering Mechanics of Solids, 2nd Ed., Prentice

Hall India, 2012.

2. Gere, J.M. and Timoshenko, S.P., Mechanics of Materials, 3rd

ed., CBS Publishers and Distributors Pvt. Ltd., 2012.

Reference Books:

1. Beer, F.P., Johnston, E.R., Dewolf, J.T. and Mazurek, D.F.,

Mechanics of Materials, 5th ed., Tata McGraw Hill, 2011.

2. Shames, I.H., Introduction to Solid Mechanics, 3rd Ed., Prentice

Hall India, 2006.

3. Crandall, S. H., Dahl, N.C., and Lardner. J., An introduction to

the Mechanics of Solids., Tata McGraw Hill, 1978.

Course Code: CEL351

Course Title: GEOTECHNICAL ENGINEERING - I

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents: Origin of soils; soil classification; Three-phase

system: Physical Properties and their interrelationships, mechanical

sieve analysis, consistency of fine grained soils, Atterberg‗s limits,

relative density, Unified soil classification system, Indian system of

classification; Compaction: General principles, tests, factors affecting

compaction, field compaction, compaction techniques; Capillarity and

Permeability: Principles of total, effective and neutral stresses, field

methods of permeability determination, equivalent permeability in

stratified soils; Seepage Analysis: Darcy‗s law, 1-D flow, Laplace‗s

equation, flow nets, seepage, uplift pressure, confined and

unconfined flows, piping, filter criteria; Compressibility and

Consolidation : Fundamentals, 1-D consolidation, normally and over

consolidated clays, pressure - void ratio relationships, compressibility

characteristics, time rate of consolidation, coefficient of consolidation,

curve fitting techniques, settlement, secondary consolidation; Shear

Strength of Soil :Mohr stress circle representation, Mohr-Coulomb

failure criterion, direct shear test, unconfined compression test,

Triaxial compression test: consolidated drained, consolidated

undrained, unconsolidated undrained tests, vane shear test, shear

strength of clays and sands, critical void ratio, pore-pressure

coefficients, sand drains.

Text Books:

1. Ranjan, G. and Rao, A.S.R., Basic and Applied Soil Mechanics,

New Age International Publishers, 2012.

2. Gulhati, Shashi K., and Dutta. M, Geotechnical Engineering,

Mcgraw Hill, 2015.

3. Craig, RF., Craig‗s Soil Mechanics, Taylor and Francis, 2010.

Reference Books:

1. Holtz, R.D. and Kovacs, W.D., An Introduction to Geotechnical

Engineering, Prentice Hall, 2011.

2. Couduto, D.P., Geotechnical Engineering: Principles and

Practices, Prentice Hall of India, 2007.

3. Murthy, V.N.S., Text Book of Soil Mechanics and Foundation

Engineering, CBS Publishers, 2011.

4. Lambe, T.W. and Whitman, R.V., Soil Mechanics, John Wiley

and Sons, 2008

Course Code: CEL352

Course Title: ENVIRONMENTAL ENGINEERING II

Structure (L-T-P): 3-0-0

Prerequisite: CEL254

Contents: Sources of wastewater, Estimation of sanitary

sewage flow, Estimation of storm runoff, Physical Chemical and

Biological characteristics of wastewater and their significance,

Effluent standards. Primary, secondary and tertiary treatment of

wastewater.On-site systems, Sludge digestion, disposal of sludge.

Disposal standards of effluents, self-purification of rivers, Streeter

Phelps model and oxygen sag curve. Air Pollution: Types of

pollutants, their sources and impacts, air pollution meteorology, air

pollution control, air quality standards and limits.

Text Books:

1. Syed R. Qasim., ―Wastewater Treatment Plants: Planning,

Design, and Operation‖, Second Edition CRC press.

2. P.N Modi., ―Sewage disposal and waste water engineering‖, 4th

edition, Standard Publications.

Reference Books:

1. Metcalf., and Eddy., ―Waste Water Engineering: Treatment and

Reuse‖, T.M.H. Publication.

2. Kenneth, W., Warner, F.C. and Davis, W.T., ―Air Pollution its

Origin and Control‖, Prentice Hall, 1997.

3. S. K Garg, ―Sewage disposal and Air pollution engineering‖,

Volume II. Khanna Publications.

4. Masters, G., ―Introduction to Environmental Engineering and

Science‖, Prentice Hall, 2004.

Course Code: CEL 353

Course Title: STRUCTURAL ANALYSIS

Structure (L-T-P): 3-0-0

Prerequisite: CEL257

Contents: Introduction to structures, loading and

idealization. Internal forces in statically determinate structures–

trusses, beams, frames, arches and cables. Deflection of statically

determinate structures moment area method, conjugate beam

method, unit load method. Strain energy method for slopes and

deflections. virtual work method. Static and Kinematic indeterminacy

of structures.Castigliano‘s theorems, theory of least work; Analysis of

rolling loads. Influence lines for statically determinate structures.

Text Book:

1. Hibbeler, R.C., Structural Analysis, Pearson Press, 2013.

Reference Books:

1. William, F. R. et al., Mechanics of Materials, John Wiley and

Sons. 2006.

2. Negi, L. S., and Jangid, R. S., Structural Analysis, Tata Mcgraw

Hill Publication, 2004.

3. Reddy, C.S., Basic Structural Analysis, Tata McGraw Hill,

2012.

4. Norris, C. H., Wilbur, J. B. and Utku, S., Elementary Structural

Analysis, Tata McGraw Hill. 1991.

5. West, H.H., Analysis of Structures, John Wiley and Sons, 2002.

Course Code: CEL354

Course Title: GEOTECHNICAL ENGINEERING-II

Structure (L-T-P): 3-2-0

Prerequisite: CEL351

Contents: Sub-surface investigations- scope, soil boring

techniques, sampling, penetration tests, plate load test. Foundation

types: type, Foundation selection and design requirements; Shallow

Foundations: bearing capacity, effect of shape, size, water table and

other factors, stress distribution, settlement analysis in sands and

clays, plate load test; Deep foundations: pile types, dynamic and

static formulae, load capacity of piles in sands and clays, negative

skin friction, pile group capacity, Methods of Stability of slopes:

infinite slopes, finite slopes, method of slices, Swedish circle method,

Friction circle method; Earth pressure theories, effect of water table,

layered soils; Concept of rock mass; Rocks Mass classification

systems.

Text Books:

1. Murthy, V.N.S., Text Book of Soil Mechanics and Foundation

Engineering, CBS Publishers, 2013.

2. Bowles, J.E., Foundation Analysis and Design, 1997, Tata

McGraw Hill, 2013.

Reference Books:

1. Das, B.M., Principles of Geotechnical Engineering, Thomson,

India, 2007.

2. Som, N.N. and Das, S.C., Theory and Practice of Foundation

Design, Prentice-Hall, 2009.

3. Couduto, Donald P., Geotechnical Engineering: Principles and

Practices, Prentice-Hall, 2007.

4. Peck, R.B., Hanson, W.E. and Thornburn, T.H., Foundation

Engineering, John Wiley, 2012.

Course Code: CEL355

Course Title: HYDROLOGY AND IRRIGATION

ENGINEERING

Structure (L-T-P): 3-2-0

Prerequisite: NIL

Contents: Hydrologic cycle, rainfall: measurement of

precipitation, Interpretation of precipitation data, estimation of

missing data, test for consistency, Depth-Area-Duration analysis,

rainfall estimation, methods of precipitation, abstraction from

precipitation, evaporation, evapo-transpiration, infiltration: factors

affecting infilteration, Horton‘s infiltration curve, phi-index, W-index,

interception and depression storage, stage discharge relationships,

flow-mass curve, flow-duration curve, Hydrographs: Different

methods of drawing base-line for hydrographs, unit hydrograph

concept, derivation of UH, S-curve, construction of UH, derivation of

average UH, flood estimation, reservoir capacity, reservoir and

channel routing. Soil-water-plant relationships, wilting point and field

efficiency, gross command area, irrigation efficiency, Duty, delta,

Crop water requirements, consumptive use of water. Types of

Irrigation system, Irrigation methods.Water logging and drainage,

sodic soils.

Text Books:

1. Ojha, C.S.P., Berndtsson, R. and Bhunya, P., Engineering

Hydrology, Oxford University Press, 2012.

2. Asawa, G.L., Irrigation and Water Resources Engineering, New

Age International Publishers, 2013.

3. Subramanya, K., Engineering Hydrology, Tata McGraw Hill, New

Delhi, 2013.

Reference Books:

1. Mysooru R., Yadupathi Putty, Principles of Hydrology, I K

international publishing house, 2011.

2. Chow, V. T., Maidment, D.R. and Mays, L.W., Applied

Hydrology, Tata McGraw Hill, 2013.

Course Code: CEL356

Course Title: INDETERMINATE STRUCTURAL ANALYSIS

Structure (L-T-P): 3-2-0

Prerequisite: CEL353

Contents: Influence lines for statically indeterminate

structures; Force method of analysis of indeterminate structures;

Displacement approach: basic principles; Slope deflection method;

Moment distribution method: frame with/without sway, use of

symmetry and anti-symmetry; Matrix method: Flexibility and stiffness

approach, Basic principles, Application to planar structures-trusses,

beams and frames. Introduction to the space structures; Plastic

analysis of beams and frames.

Text Books:

1. Pandit, G.,and Gupta, S., Theory of Structures (Vol. I & II),

McGraw Hill, 1999.

2. Wang, C.K., Intermediate Structural Analysis, McGraw Hill,

2012.

Reference Books:

1. Hibbeler, R.C., Structural Analysis, Pearson Press, 2013.

2. William, F. R. et al., Mechanics of Materials, John Wiley and

Sons, 2004.

3. Norris, C.H. et. al., Elementary Structural Analysis, Tata

McGraw Hill, 1991.

4. West, H.H., Analysis of Structures, John Wiley and Sons, 2011.

5. Weaver, W. Jr. and Gere, J.M., Matrix Analysis of Framed

Structures, CBS Publishers,2004.

Course Code: CEL357

Course Title: DESIGN OF RCC STRUCTURES

Structure (L-T-P): 3-2-0

Pre-requisite: CEL257, CEL353, CEL356

Contents: Concrete Technology: properties of concrete,

durability, creep, shrinkage, concrete mix design as per IS: 10262.

Concrete design: basic working stress design concepts, working stress

design for common flexural members; Limit state design of R.C. beam

Sections in flexure, shear, torsion and bond; Design for serviceability;

Design of one way and two-way R.C. Slabs; Cantilever and

Continuous beams and slabs; Design of R.C. short and long columns;

Design of R.C. footings; Design of staircase; Basic elements of

prestressed concrete.

Text Books:

1. Pillai, S.U. and Menon, D., Reinforced Concrete Design, Tata

McGraw Hill, 2013.

2. Jain, A.K., ―Reinforced Concrete‖ Nem Chand and Bros,2012.

Reference Books:

1. Sinha, S.N., Reinforced Concrete Design, Tata McGraw Hill,

2013.

2. Subramanian, N., Design of Reinforced concrete Structures,

Oxford Higher Education, 2014.

3. Shah, V.L. et. al., Limit State Theory and Design of Reinforced

Concrete, Structures Publications, 2007.

4. Varghese, P.C., Limit State Design of Reinforced Concrete,

Prentice-Hall,2011.

5. Park, R. and Pauley, T., Reinforced Concrete Structures, John

Wiley and Sons, 2010.

Course Code: CEL 358

Course Title: DESIGN OF STEEL STRUCTURES

Structure (L-T-P): 3-2-0

Prerequisite: CEL257, CEL353, CEL356

Contents: Introduction, properties of structural steel, I.S.

rolled sections, I.S. specifications. Design approach, elastic method,

limit state design. Connections, simple and moment resistant bolted

and welded connections. Tension members.Compression members,

struts and columns.Built-up columns, beams, stability of flange and

web, built-up sections.Plate-girders including stiffeners, splices and

curtailment of flange plates. Beam column, column bases, slab base,

gusseted base and grillage footings.

Text Books:

1. Duggal, S.K., Limit State Design of Steel Structures, Tata

McGraw-Hill, 2012.

2. Subramanian, N. Design of Steel Structures, Oxford University

Press, 2012.

Reference Books:

1. Arya, A.S. and Ajmani, J.L., Design of Steel Structures, Nem

Chand and Bros, 2007.

2. Gaylord, E. H., Design of Steel Structures, Tata McGraw Hill

India, 2008.

3. Dayaratnam, P., Design of Steel Structures, S. Chand Publisher,

1998.

Course Code: CEL359

Course Title: RAILWAY AND AIRPORT ENGINEERING

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents: History of Indian Railways, universal scenario

and Indian railways, railway track development, component parts,

gauge, wheel and axle arrangement. Various resistances and their

evaluation, hauling capacity, tractive effort, locomotives and their

classification, stresses in the track and its components. Rails and

their requirements, creep and wear in rails, rail joints, long welding

rails and short welded rails, types of sleepers and their merits and

demerits, requirements of ballast, design of ballast section, track

fastenings, check rails and guard rails, railway cross-section, various

types of gradients, design of horizontal curves, transition curves and

vertical curves, existing provisions on IR. Working and design of a

turnout, types of track junctions, design of crossover and diamond

crossing, types of signals and their functions, interlocking, advanced

methods of train control. High speed rails. Scenario of air transport in

India, national and international agencies, aircraft characteristics, site

selection, airport obstructions, imaginary surfaces.Runway

orientation, geometric design of runway, taxiway, exit taxiway, apron,

holding apron, runway configuration, visual aids.

Text Books:

1. Chandra, S. and Agarwal, M.M., Railway Engineering, Oxford

University Press, New Delhi, 2013.

2. Arora, S. P. and Saxena, S.C, A Text book on Railway

Engineering, DhanpatRai Publications Pvt. Ltd., New Delhi,

2006.

3. Saxena, S. C., Airport Engineering: Planning and Design, CBS

Publishers and Distributors Pvt. Ltd., New Delhi, 2008.

Reference Books:

1. Mundrey, J. S., Railway Track Engineering, Tata McGraw Hill

Publishing, 2009.

2. Khanna, S. K., Arora, S. P. and Jain, S. S., Airport Planning and

Design, Nem Chand and Bros, Roorkee, 1999.

Course Code: CEL360

Course Title: ESTIMATION AND COSTING

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents: Estimates: Types, complete set of estimate,

working drawings, site plan, layout plan, index plan, plinth area

administrative approval and Technical Sanction. Estimate of

buildings, Estimate of R.C.C. works, White washing, colour washing,

painting, and distempering, plastering and pointing. Types of roofs,

floors and foundations, damp proofing, Doors and windows. Estimate

of sloped roof and steel structures, Estimate of water supply and

sanitary works, Estimates of roads (a) Earthwork (b) Bridges and

culverts c) Pavement, Estimate of Irrigation works. Analysis of Rates:

For earthwork, concrete works, D.P.C., Brickwork, stone

masonry, plastering, pointing, road work, carriage of materials.

Specifications: General specification for different classes of building,

detailed specifications for various Civil Engineering Works.

Text Books:

1. Chakraborti, M., Estimating and Costing, 2002.

2. Dutta, B. N., Estimating and Costing in Civil Engineering, UBS

Publishers and Distributors Ltd., New Delhi, 1999.

Reference Books:

1. Birdie, G.S., Estimating and Costing, DhanpatRai and Sons,

1994.

2. Kohli, D. D., Kohli, R.C., Estimating and Costing, S. Chand and

Company, New Delhi, 2004.

Course Code: CEL451

Course Title: GEOMATICS ENGINEERING

Structure (L-T-P): 3-0-0

Pre-requisite: CEL256

Contents: Introduction of Geomatics Engineering;

Photogrammetry, types and geometry of aerial photograph, flying

height and scale, relief (elevation) displacement, Stereoscopy,

Measurement of parallax and height determination; Basic remote

sensing, interaction mechanism with atmospheric and earth surface,

platforms and sensors, remote sensing data products, visual data

interpretation for information extraction; Digital Image, introduction to

digital image processing, pre-processing, enhancement, classification;

Introduction of Geographic Information System (GIS), GIS database,

raster and vector data structure, digital elevation model; Introduction

to GPS surveys, space, control and user segments, GPS receivers;

Applications of Geomatics to various projects.

Text Books:

1. Agarwal, C.S. and Garg, P.K. Remote Sensing in Natural

Resources Monitoring and Management, Wheeler Publishing

House, New Delhi, 2000.

2. Lillesand, T.L., and Kiefer, R.W., Remote Sensing and Image

Interpretation, 4th ed., John Wiley and Sons, 2005.

Reference Books:

1. Ghilani, C.D. and Wolf, P.R. Elementary Surveying: an

Introduction to Geomatics, Pearson, 2012.

2. Bossler, J.D. Manual of Geospatial Science and Technology,

Taylor and Francis, London, 2002.

3. Burrough, P.A. and McDonnell, R.A. Principles of Geographic

Information System, Oxford University Press, 2000.

4. Chandra, A.M. and Ghosh, S.K. Remote Sensing and

Geographical Information Systems, Alpha Science, Oxford U.K.,

2005.

5. Gopi, S. Global Positioning System: Principles and Applications,

TataMcGraw Hill, 2005.

6. Lo, C.P. and Yeung, A.K.W. Concepts and Techniques of

Geographical Information System, Prentice Hall, India, 2002.

Course Code: CEL452

Course Title: NON-DESTRUCTIVE TESTING OF MATERIALS

Structure (L-T-P): 3-0-0

Pre-requisite: CEL253

Contents: Types of materials, tests and the variables

involved, destructive and non-destructive testing correlation of

properties obtained by NDT with the basic structure of matter and

other properties; NDT of different materials by various techniques

such as radiographic, sonic and ultrasonic, electrical and magnetic,

soleoroscopic, microwave, eddy current penetrant, thermal optical,

holographic etc., practical applications and advances in NDT.

Text Books:

1. Bungey, S., Lillard, G. and Grantham, M.G. Testing of Concrete

in Structures, 4th Ed. Taylor and Francis, London.

2. Malhotra, V.M. and Carino, N.J., Handbook on Non-Destructive

Testing of Concrete, 2nd Ed., Taylor and Francis, London.

Reference Books:

1. Krautkramer, H., Ultrasonic Testing of Materials, Springer-

Verlag, 1969.

2. Novgoresky, M.A., Testing of Building Materials and Structures,

Mir Publishers, 1973.

3. American Society of Metals: Handbook, Vol. II, Destructive

Inspection and Quality Control, 1976.

Course Code: CEL 453

Course Title: STRUCTURAL DYNAMICS

Structure (L-T-P): 3-0-0

Prerequisite: CEL353

Contents: SDOF System: Equation of motion; Free

vibration; Harmonic load; Evaluation of damping,; Periodic load;

General load (time domain, frequency domain); Response spectrum

load, Transmissibility and base isolation. MDOF Systems: Structural

matrices; Un-damped free vibration; damped free vibration,

undamped forced vibration and damped force vibration. Generation of

damping matrix Rayleigh damping model, Mode superposition

analysis; Practical considerations.Introduction to earthquake resistant

design.

Text Books:

1. Chopra, A. K., Dynamics of Structures, Applications to

Earthquake Engineering, Prentice Hall, 2000.

2. Clough, R. W. and Penzien, J., Dynamics of Structures, 2nd ed.,

Tata McGraw Hill, Singapore, 1993.

Reference Books:

1. Meirovitch, L., Elements of Vibration Analysis, 2nd edition, Tata

McGraw Hill, Singapore, 1986.

2. Agarwal, P. and Shrikhande, M., Earthquake Resistant Design of

Structures, PHI Learning Pvt. Ltd., 2006.

3. James, L.S, Manual of Seismic Design, Pearson Education,

2004.

Course Code: CEL454

Course Title: DESIGN OF HYDRAULIC STRUCTURES

Structure (L-T-P): 3-2-0

Prerequisite: CEL251

Contents: Design of lined and unlined canals, Kennedy

and Lacey theory, Types of dams, Gravity dam: various forces, site-

selection, modes of failure, stresses, design, elementary and practical

profile, low and high gravity dams, construction methods. Spillways:

Types and classification of spillways, selection of spillways, special

types of spillways, Canal: design of canals & Canal Regulation

structures, canal fall and its types, design of Sarda type canal falls,

Canal Outlets and regulation works, types of outlet, criteria for outlet

behavior, flexibility, sensitivity, setting, cross-drainage structures,

Design of weirs on permeable foundation. Introduction to hydro-

mechanical and electro-mechanical structures.

Text Books:

1. Fuentes C., Chavez C. , Irrigation engineering and hydraulic

structures, Magnum publishers, 2016.

2. Sharma S. K., Irrigation engineering and hydraulic structures, S.

Chand, 2016

Reference Books:

1. Modi, P.N., Introduction to Water Resources and Waterpower

Engineering, Standard Publication, Delhi, 2013.

2. Garg, S.K., Irrigation Engineering and Hydraulic Structures,

Khanna Publishers, 2013.

3. Asawa, G. L., Irrigation and Water Resources Engineering, New

Age International Publishers, 2013.

4. Varshney, R. S., Gupta S.C. and Gupta R.L., Theory and Design

of Irrigation Structures, Vol. I and II, Nem Chand and Bros.

2007.

Course Code: CEL455

Course Title: ROCK ENGINEERING

Structure (L-T-P): 3-0-0

Prerequisite: CEL252

Contents: Rock forming minerals and rock types: rock

mass; classification systems for rocks and rock masses: RMR, Q

system, strength and deformation behavior of rocks, strength and

failure criteria for rocks and rock masses, strength of rock joints,

laboratory and field testing of rocks, measurement of in-situ stresses;

Foundations on rocks: bearing capacity theories, IS code methods,

Foundation treatment for dams, barrages, bridge piers etc; Stability of

rock slopes: Stereographic projections, modes of failure, stability of

plane, wedge and toppling failures, protection measures; Ground

conditions in tunneling, Stress distribution around circular tunnels,

various support systems, tunnel orientation.

Text Books:

1. Goodman P.E., Introduction to Rock Mechanics, John Wiley and

Sons, 1999.

2. Ramamurthy, T., Engineering for rocks: Foundations, Slopes and

Tunnels, IBH Publication, 2003.

Reference Books:

1. Brown, E.T., Rock Characterisation Testing and Monitoring,

Pergaman Press, 1991.

2. Arogyaswamy, R.N.P., Geotechnical Application in Civil

Engineering, Oxford and IBH Publication, 1991.

3. Hock, E. and Bray, J., Rock Slope Engineering, Institute of

Mining and Metallurgy, 1991.

4. Singh, Bhawani, Goel, R. K., Engineering Rock Mass

Classification, Elsevier, 2012.

5. Singh, Bhawani, Goel, R. K., Tunnelling in Weak Rocks, Elsevier

Science, 2006.

Course Code: CEL456

Course Title: INDUSTRIAL WASTE MANAGEMENT

Structure (L-T-P): 3-0-0

Prerequisite: CEL 254, CEL 352

Contents: Industrial Wastewater nature and

characteristics, Environmental Impacts, Regulatory Requirements,

Prevention vs Control of Industrial Pollution, Source Reduction

Techniques , Waste Minimization, Equalization, Neutralization,

Adsorption, Aerobic and Anaerobic Biological Treatment, Sequencing

Batch Reactors, Chemical Oxidation, Ozonation, Photo catalysis, Ion

Exchange, Membrane Technologies, Zero Effluent Discharge Systems,

Wastewater Reuse, Disposal of Effluent on Land, Wastewater

Characteristics and Wastewater Treatment for Textiles, Tanneries,

Pulp and Paper, Pharmaceuticals, Food Processing and Dairy

industries. Solid Waste Management: Characteristics, generation,

collection and transportation of wastes, reuse/recycle, energy

recovery, treatment and disposal.

Text books:

1. Rao, M.N. and Dutta, A.K., ―Wastewater Treatment‖, Oxford-

IBH Publication, 1995.

2. Freeman, H.M., ―Industrial Pollution Prevention Hand Book‖,

McGraw Hill Inc., New Delhi, 1995.

Reference Books:

1. Eckenfelder, W.W., ―Industrial Water Pollution Control‖,

McGraw Hill Book Company, New Delhi, 2000.

2. Shen, T.T., ―Industrial Pollution Prevention‖, Springer, 1999.

3. Stephenson, R.L. and Blackburn, J.B., ―Industrial Wastewater

Systems Hand Book‖, Lewis Publishers, New York, 1998.

4. Bishop, P.L., ―Pollution Prevention: Fundamental and Practice‖,

Tata McGraw Hill, 2000.

5. Peavy, H.S., Rowe D.R. and Tchobanoglous, G., ―Environmental

Engineering‖, McGraw Hill. 1985.

Course Code: CEL457

Course Title: ENVIRONMENTAL IMPACT AND RISK

ASSESSMENT

Structure (L-T-P): 3-0-0

Prerequisite: CEL 254, CEL 352

Contents: Introduction and scope, utility of the EIA

Process, expended and narrowed scope of EIA, Impacts of

development activities, planning and management of impact studies.

Environment attributes, environmental indices and indicators,

environmental assessment, methods and techniques, matrices,

network and checklist methods. Prediction technique for quality of

environmental attributes. Impact evaluation, assessment of impact on

air, water, soil and ground water, noise, biological

environment.Assessment of impact on socio- economic environment,

evaluation methods, mitigation measures. Health risk assessment,

hazard identification toxicology and dose response characterization,

exposure characterization, risk characterization, uncertainty in

estimates. Risk evaluation, risk acceptance, basic principles of health

risk management.

Text book:

1. Jain, P. K., ―Environment Impact Assessment‖, John Wiley and

Sons, 1978.

2. Paustenbach, D.A., ―Risk Assessment: A Text Book of Case

Studies‖, John Wiley and Sons, 1992.

Reference Books:

1. Kenneth, W., Warner, F.C. and Davis, W.T., ―Air Pollution its

Origin and Control‖, Prentice Hall, 1997.

2. Mishra, P.C., ―Fundamental of Air and Water Pollution‖, South

Asia Books, 1990.

3. Masters, G., ―Introduction to Environmental Engineering and

Science‖, Prentice Hall, 2004.

Course Code: CEL458

Course Title: ADVANCED CONCRETE DESIGN

Structure (L-T-P): 3-2-0

Pre-requisite: CEL357

Contents: Design of Reinforced Cement Concrete

Structures: Building frames static and dynamic analysis and

component design, provisions of ductile detailing; Liquid retaining

structures; Earth retaining walls; Flat slabs; Design of bridge:

standard specifications and general design considerations; Industrial

Structures: Analysis and design of Cylindrical shell structures, Folded

plates, Chimneys, Silos, Bunkers.

Text Books:

1. Raju, N. Krishna, Advanced Reinforced Concrete Design, CBS

Publishers and Distributors, 2013.

2. Victor D.J, Essential of Bridge Engineering, Oxford and IBH

Publication, 2007.

Reference Books:

1. Sinha, S.N., Reinforced Concrete Design, Tata McGraw Hill,

2013.

2. Shah, V.L. et.al., Limit State Theory and Design of Reinforced

Concrete, Structures Publications, 2007.

3. Nilson, A.H., and Winter, G., Design of Concrete Structures,

McGraw Hill, New Delhi, 1983.

4. Varghese, P.C., Advanced Reinforced Concrete Design, Prentice-

Hall, 2nd edition, 2005.

Course Code: CEL459

Course Title: RIVER MECHANICS

Structure (L-T-P): 3-0-0

Prerequisite: CEL251

Contents: Introduction, River morphology, drainage

patterns, stream order. Properties of mixture of sediment and water,

incipient motion and quantitative approach to incipient motion,

channel degradation and armoring. Bed forms and resistance to flow,

various approaches for bed load transport, suspended load profile and

suspended load equations, total load transport including total load

transport equations. Comparison and evaluation of sediment transport

equations. Stable Channel design with critical tractive force theory.

Text Book:

1. Garde, R.J. and Ranga, Raju K., Mechanics of Sediment

Transportation and Alluvial Stream Problems, New Age

International Publishers, 2000.

Reference Books:

1. Yang, C. T., Sediment Transport: Theory and Practice, Tata

McGraw Hill, New Delhi, 1996.

2. Henderson, F. M., Open Channel Flow, MacMillan, New York,

1996.

3. Chang, H. H., Fluvial Processes in River Engineering, John

Wiley and Sons, 1988.

4. Simons, D. B. and Senturk, F., Sediment Transport Technology,

Water Resources Publications, Fort Collins, Colorado, 1977

Course Code: CEL460

Course Title: TRAFFIC ENGINEERING

Structure (L-T-P): 3-0-0

Pre-requisite: CEL255

Contents: Traffic Engineering and Characteristics:

Importance and scope of traffic engineering, traffic characteristics,

human factors governing road user characteristics, vehicular

characteristics. Fundamentals of Traffic Flow: Traffic flow elements,

time-space diagram, flow-density relationship, gap and gap

acceptance. Traffic Studies: Type of studies, Traffic Volume Study –

Applications, Methods of data collection, Volume data analysis, Peak

Hour concept, Volume to capacity ratio, concepts and application of

AADT, DDHV, Temporal expansion factors, Passenger Car Units,

Volume data presentation; Traffic Speed Study - Applications,

Methods of data collection, Time and Space Mean Speeds, Speed

characteristics based on frequency and density functions, Fit of

Normal distribution to the data, Before and After study; Capacity

Analysis – Service volumes and saturation flows, Factors affecting

lane capacity. Parking Study – Parking characteristics, Parking

Accumulation analysis, Parking demand and supply analysis, Parking

Duration analysis, Parking angles and estimation of parking spaces;

Accident Study and Analysis – Causes of accidents, Collision and

Condition diagrams, Safety Audit and Remedial measures. Traffic

Calming Techniques, Traffic Volume and Speed calming, Road

pricing, Regulations related to road users.

Text Book:

1. Kadiyali, L.R., Traffic Engineering and Transport Planning, 6th

ed., KhannaPublishers, 2012

Reference Books:

1. McShane, W.R. and Roess, R.P., Traffic Engineering, Prentice

Hall, 2010.

2. Papacostas, C. S. and Prevedouros, P.D., Fundamentals of

Transportation Engineering, Prentice Hall, 2001.

Course Code: CEL461

Course Title: CONSTRUCTION PLANING AND

MANAGEMENT

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents: Engineering Economics: Cash flow diagram,

Time value of money, Inflation, Interest, Depreciation, Present worth

and capitalized cost, Equivalent uniform annual cost and rate of

return evaluations, Benefit cost analysis, Analysis of variable costs,

Types of capital financing, Valuation. Tendering and Contract:

Organisational structure, Methods of tendering, Specifications,

Conditions of contract, Contract law, Disputes and Arbitrations.

Construction Planning and Management: Time, Cost and Research

management of projects for planning, Scheduling, Control and

forecasting using networks with CPM/PERT. Personnel, Material and

Finance Management, Safety Engineering. Construction Equipments:

Selection, Planning and Cost, Equipments, Earthmoving, Excavating,

Hauling, Compacting, Drilling and Blasting, Grouting, Conveying and

Dewatering Equipments. Aggregate Cement Concrete and Asphatt

Concrete Plants.

Text Books:

1. Srinath, L.S., PERT and CPM: Principles and Applications, East

West Press, New Delhi, 2013.

2. Sengupta, B. and Guha, H., Construction Management and

Planning, Tata McGraw Hill, New Delhi, 1998.

Reference Books:

1. Moder, J.J. and Phillips, C.R., Project Management with CPM

and PERT, Van Nostrand Reinhold,1983.

2. Pilcher, R., Appraisal and Control of Project Cost, 1973.

3. Jebsen, J., Cost and Optimisation Engineering, Tata McGraw

Hill, New York.

Course Code: CEL462

Course Title: ADVANCE FOUNDATION ENGINEERING

Structure (L-T-P): 3-0-0

Pre-requisite: CEL351, CEL354

Contents: Shallow Foundations: Empirical methods,

Layered soils, Foundations under eccentric and inclined loads,

Foundations on or near slopes; Pile Foundations: Pile load tests, load

capacity of laterally loaded piles, Settlement of piles in cohesion-less

soils; Caissons/Well foundations: Types and components, Various

loads and load combinations, Methods of stability analysis, Codal

provisions, Construction methods; Machine Foundations: Single

degree freedom system, Free and forced vibrations, Machine

foundations: Types of machines and machine foundations, Design

criteria, Dynamic Elastic Constants, Block vibration and cyclic plate

load tests, Design of block foundations; Earth Retaining Structures.

Text Books:

1. Das, B.M., Principles of Foundation Engineering, PWS

Publishing, 1998.

2. Bowles, J.E., Foundation Analysis and Design, Tata McGraw

Hill, 2013.

3. Murthy, V.N.S., Text Book of Soil Mechanics and Foundation

Engineering, CBS Publishers, 2011

Reference Books:

1. Tomlinson, Michael, and John Woodward. Pile design and

construction practice. CRC Press, 2014.

2. Som, N.N. and Das, S.C., Theory and Practice of Foundation

Design, Prentice Hall, 2006.

3. Couduto, Donald P., Geotechnical Engineering: Principles and

Practices, Prentice Hall, 2010.

4. Peck, R.B., Hanson, W.E. and Thornburn, T.H., Foundation

Engineering, John Wiley and Sons, 1974.

5. Saran, S., Soil Dynamics and Machine Foundations, Galgotia

Publication, 1979.

Course Code: CEL463

Course Title: DESIGN OF PRESTRESSED CONCRETE

STRUCTURES

Structure (L-T-P): 3-0-0

Pre-requisite: CEL357

Contents: Introduction to basic concepts and general

principles of pre-stressed concrete, materials used in prestressed

concrete and methods and techniques of prestressing, prestressing

systems. Analysis of prestressed concrete sections for flexure

considering loading stages, computation of sectional properties,

critical sections under working loads for pretensioned and post

tensioned members, load balancing method of analysis of prestressed

concrete beams, losses in prestress, application to simply supported

beams and slabs. Design philosophy of prestressed concrete sections,

permissible stresses in concrete and steel, design approaches using

working stress method as per IS 1343 – 1980, limit state of collapse

– flexure and shear as applied to prestressed concrete beams, kern

points, choice and efficiency of sections, cable profile and layouts,

cable zone, deflection of prestressed concrete sections. End zone

stresses in prestresses concrete members, pretension transfer bond,

transmission length, end block of post tensioned members. Design of

simply supported pre-tensioned and post tensioned slabs and

beams.Design of bridge girders as per IRC.

Text Book:

1. Raju, N. Krishna, Prestressed concrete, CBS Publishers and

Distributors, fifth edition, 2017

Reference Books:

1. Lin, T. Y., & Burns, N. H., Design of prestressed concrete

structures, 1981.

2. Park, R., Design of Prestressed Concrete Structures. University

of Canterbury, 1977.

Course Code: CEL464

Course Title: URBAN WATER AND ENVIRONMENTAL

MANAGEMENT

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents: Review of Urban Hydrologic and Hydraulic

Principles: Urban hydrologic cycle, rainfall analysis and design storm,

hydraulic and hydrodynamic principles Introduction to Drainage

Problems in Different Climate: Urbanization - its effects and

consequences for drainage, Interaction between urban and peri-urban

areas. Planning concepts and System Planning: Objectives of urban

drainage and planning criteria, drainage option and system layout,

Planning tools and data requirement, Drainage master plan, Drainage

structures Calculation Methods and Mathematical Tools: Modeling

formulas, Hydrologic models, Hydrodynamic models, Regression

analysis, Urban runoff and water quality models Design of Drainage

System Elements: Hydraulic fundamentals, Infiltration and on-site

detention of storm water, Design of sewerage and drainage channels,

design of appurtenances and pumping stations Control of Storm water

Pollution: Pollution bid-up and wash off process with reference to

urban drainage systems, Source control in commercial and Industrial

complexes, Biological and chemical treatment of waste water, Best

management practices Operation and Maintenance of Urban Drainage

Systems: Maintenance requirements and planning, Cleansing of

sewers and drains, repair options Administrative and Legal Aspects

and Financing: Administrative, legal and financing aspects,

International, national and municipal legal aspects, Administrative

structure for drainage planning, Financing for drainage projects.

Text Books:

1. Akan, A.O., ―Urban Stormwater Hydrology: A Guide to

Engineering Calculations‖, Lancaster Technomic, 1993.

2. Larry, W.M, ―Stormwater Collection Systems Design Handbook‖,

Tata McGraw Hill, New York, 2001.

Reference Books:

1. Strickland, G., ―Urban Hydrology for Small Watersheds‖, NTIS,

Springfield, 1975.

2. Deb, R.,‖ Municipal Stormwater Management‖, Lewis

Publishers, 1995.

3. Hittman Associates,‖ Approaches to Stormwater Management‖,

NTIS, Springer, 1973.

4. Hall, M.J., ―Urban Hydrology‖, Elsevier, London, 1984.

Course Code: CEL465

Course Title: ADVANCED STRUCTURAL ANALYSIS

Structure (L-T-P): 3-0-0

Prerequisite: CEL353, CEL356

Contents: Review of basic concepts of structural analysis,

Basis for principle of virtual work, Principle of virtual forces - standard

and matrix formulation; Force method for analyzing skeletal structure;

Principles of virtual displacements - standard and matrix formulation;

Displacement method for analyzing skeletal structures; Extension of

displacement method to the generalized stiffness method; Basic

concepts associated with computer implementation of stiffness

method. One dimensional beam element: Basis for cross-sectional

level formulation of flexibility and stiffness, Flexibility approach for

determining element stiffness; Stiffness approach for determining

element stiffness; Formulation of geometric stiffness due to axial

force;. Introduction to finite element method.

Text Book:

1. Kanchi, M.B. Matrix Methods of Structural Analysis. John Wiley

& Sons, 1982

Reference Books:

1. Weaver, W., and Gere, James, Matrix Analysis of Framed

Structures, CBS Publishers, 2004.

2. Pandit and Gupta. Structural Analysis by Matrix Approach.

McGraw Hills, 1994.

Course Code: CEL466

Course Title: ADVANCED HIGHWAY ENGINEERING

Structure (L-T-P): 3-0-0

Prerequisite: CEL255

Contents: Introduction: National road development

programmes, IRC Vision-2021 and Rural Road Vision-225,New Road

Materials : Alternate forms of aggregates, theory and specifications of

fillers, additives, emulsions, cutbacks and modified binder, Mix

designs - Marshall, Hubbard Field and Hveem Method, requirement

of a mix, Cold mix design.Design of Flexible and Rigid Pavements:

Design factors, empirical, semi-empirical and analytical design

methods, California bearing ratio, triaxial, Mcleod and, design

considerations for expressways. Rigid Pavements : Design factors,

load and temperature stresses, load transfer devices, design of Dowel

and Tie bars, joint requirement and working, IRC methods of design

of pavements.Stabilized Roads: Aggregate mixtures, proportioning,

types of stabilizations, advantages and limitation, special problems

related to drainage, control of seepage and capillary rise, importance

and functions of each layer of pavement and subgrade.Pavement

Evaluation Techniques for Functional and Structural Evaluation:

Benkalman beam deflection method, flexible and rigid overlays.

Maintenance of Pavements: Routine and periodic maintenance,

special repairs, maintenance management system, case study of

failure of flexible and rigid pavements cracking, settlement, frost

heaving and mud pumping in pavements. Construction Project

Management: Construction industry; construction project; product

development process; project management ; main causes of project

failure; BOT, BOOT, BORT and other variants of BOT. causes of

introducing this system, Liberalization policies of GOI for these

system; GOI, state governments, other local bodies, board,

corporation etc are adopting these system for construction project

management.

Text books:

1. Kadiyali, L.R. and Lal, N.B., ―Principles and Practices of

Highway Engineering‖, Khanna Publishers, 2006.

2. Wright, P. H. and Dixon, K.K., ―Highway Engineering‖, John

Wiley, 2004.

Reference books:

1. Kerbs, R.D. and Walker. R.D. ―Highway Materials‖ , McGraw

Hill, 1971.

2. Khanna, S.K. and Justo, C.E.G. ―Highway Engineering‖ Nem

Chand and Bros. 2001.

3. Huang, Y.H. ―Pavement Analysis and Design‖ Prentice Hall,

1993.

4. Indian highways – a framework for commercialization by

Gajendra Haldia.

Course Code: CEL467

Course Title: GROUNDWATER ENGINEERING

Structure (L-T-P): 3-0-0

Prerequisite: CEL251

Contents: Aquifer: various types, properties, permeability,

specific yield, transmissivity , storage coefficient and methods of

estimation, Introduction to Well hydraulics, objectives of Groundwater

hydraulics, Darcy‘s Law, Groundwater equation, steady state flow,

Dupuit-Forchheimer‘s assumption, groundwater quality management

and its development, recharge techniques and groundwater

conservation.

Text Books:

1. Bear J. and Alexander Cheng, Modeling groundwater flow and

contaminant transport, Springer Publishers, Volume 23, 2010.

2. Todd D. K., Groundwater Hydrology, John Wiley and Sons,

2005.

3. Ramakrishnan, S, Ground Water, K.J. Graph arts, Chennai,

1998

Reference Books:

1. Agarwal V. C., Groundwater hydrology, Prentice Hall Publisher,

2012.

2. William C. Walton, Principles of Groundwater engineering,

Lewis, 1st edition, 1990

Course Code: CEL468

Course Title: HYDRAULIC AND HYDRAULIC MACHINES

Structure (L-T-P): 3-0-0

Prerequisite: CEL251

Contents: Hydraulics: Introduction to open channel flow,

laminar flow, Turbulent flow: velocity distribution, turbulent flow in

circular pipes, resistance of smooth and artificially roughened pipes,

resistance diagram. Hydraulic Machines: Introduction to hydraulic

machineries, installation and working principle, Turbines:

classification of turbines: Pelton, Francis and Kaplan turbines,

effective head and water power, jet ratios and bucket dimensions,

velocity triangles, characteristic curves, draft tubes, efficiency of

turbines, unit and specific speeds, performance curves of turbines,

Pumps: classification, centrifugal and reciprocating pump, cavitation,

velocity triangles, unit and specific speeds, characteristics curves, ,

performance curves, efficiency and power generation, Multiple-stage

pumps.

Text Books:

1. Rajput R. K., A textbook of Hydraulic Machines, S Chand, 6th

edition, 2016.

2. Pati S., Textbook of Fluid mechanics and hydraulic machines,

Tata McGraw Hill, 2017.

Reference Books:

1. Som, S.K. and Biswas, G., Fluid Mechanics and Fluid

Mechanics, Tata McGraw Hill, 2013.

2. Fox, R.W. and McDonald, A.T., Introduction to Fluid Mechanics,

John Wiley and Sons, 2013.

Course Code: CEL469

Course Title: BRIDGE ENGINEERING

Structure (L-T-P): 3-0-0

Prerequisite: CEL357

Contents: Introduction: Definition, components of a bridge,

classifications, importance of bridge, Investigation of Bridges: Need

for investigations, selection of bridge site, preliminary data to be

collected, design discharge and its determination, linear waterway,

economical span, vertical clearance above HFL, scour depth, choice

of bridge type. Standard Specifications: For road bridges, I.R.C.

loadings, code provisions on width of carriage way, clearances, loads

considered etc. standard specifications for railway bridges, Railway

bridge code. Reinforced Concrete Design of culvert, T-beam bridge,

Courbon‘s theory for load distribution, pre-stressed concrete bridges

(General discussions). Sub Structure: Types of piers and abutments,

design forces, design of piers and abutments. Bearing and Joints:

Various types of expansion bearing and fixed bearings, elastomeric

bearings, joints and their types.

Text Book:

1. Victor D. J. ―Essentials of Bridge Engineering‖ Oxford and IBH

Publishers, New Delhi, 6th edition 2017.

Reference Books:

1. Hambly E. C, "Bridge Deck Behaviour", E & FN Spon

Publications, 2nd edition 1991.

2. Raina, V. K. "Concrete Bridge Practice, Analysis, Design and

Economics", Tata McGraw- Hills Publishing Company Limited,

2014.

3. Ryall M.J., Parke G.A.R, Harding J.E., "The Manual of Bridge

Engineering", Thomas Telford Publishers, 2000.

4. Rajagopalan R., "Bridge Superstructure", Tata McGraw- Hills

Publishing Company Limited, 2nd edition 2006.

5. Ponnuswamy S., "Bridge Engineering", Tata McGraw - Hills

Publishing Company Limited, 5th edition 2015.

6. Aswani M. G., Vazirani V.N., Ratwani M. M., "Design of

Concrete Bridges", Khanna Publishers, 2014.

Course Code: CEL470

Course Title: DESIGN OF EARTH RETAINING STRUCTURES

Structure (L-T-P): 3-0-0

Prerequisite: CEL351, CEL354

Contents: Earth retaining structures: Types, material,

method of construction, nature of forces acting, comparison of

different earth pressure theories and application in retaining wall,

stability analysis and design aspects; Reinforced soil retaining walls:

General aspects, Design and analysis - External stability of vertically

faced reinforced soil retaining wall. Internal stability – Tie back

wedge analysis or coherent gravity analysis or reinforced soil retaining

walls with metallic strip and continuous geosynthetic

reinforcements. Sheet Pile wall: Types, materials used in

construction, free earth system, fixed earth system, selection of soil

parameters, analysis and design of cantilever and anchored sheet pile

walls, dead man and continuous anchor, diaphragm and bored pile

walls; Braced excavations: Earth pressure against bracings in cuts,

heave of the bottom of cut in soft clays; reinforced earth retaining

structures, design of earth embankments and slopes; arching and

open cuts, recent advances in Earth retaining structures.

Text Book:

1. Militisky, J. and Woods, R., Earth and Earth retaining

structures, Routledge, 1992.

2. Koerner, R.M., Designing with Geosynthetics, Prentice Hall,

New Jersey, USA, 4

edition, 1999.

Reference Books:

1. Das, B. M., Principles of Foundation Engineering, Thomson,

Indian Edition, 2003.

2. Bowles, J. E., Foundation Analysis and Design. McGraw-Hill

International Edition, 1997.

3. Jones, C.J.F.P., Earth reinforcement and soil structures.

Butterworth, London, 1985.

4. SivakumarBabu, G.L., An introduction to Soil reinforcement and

geosynthetics. United Press (India) Pvt. Ltd. 2006.

Course Code: CEL471

Course Title: ARCHITECTURAL PLANNING AND DESIGN

OF BUILDINGS

Structure (L-T-P): 2-2-0

Prerequisite: NIL

Contents: Planning principles of buildings, Typical Building

Byelaws as per National Building Code and General Development

Control Regulation, Planning of residential building, Planning of

public buildings, and industrial building, Orientation of buildings,

Built Environment, Functional planning: lightning, heating,

ventilation, climate factors. Building services, circulation, plumbing,

electrification and sanitation. Layout: residential, auditoria, cinema

hall, studio etc. Introduction to town planning. Computer aided small

and full-fledged architectural design works.

Text Books:

1. Singh, G., Building Planning Designing and Scheduling,

Standard Publishers Distributors, 2009.

2. Spence, W.P., Architectural Working Drawings: Residential and

Commercial Buildings, John Wiley & Sons, 1993.

Reference Books:

1. Kaleem, S., Zaidi A. &Siddiqui S., Drawing & Design of

Residential & Commercial Buildings, Standard Publishers

Distributors, 2

Edition, 2013.

2. SP 7: Group 1: National Building Code of India (Group 1),

2005.

B. Tech. (Computer Science and Engineering)

OVERALL CREDIT STRUCTURE

Undergraduate Core (UC)

Undergraduate Elective (UE)

Category

Credit

Category

Credit

23 (minimum)

06 (minimum)

18 (Balance)

0 (03 Courses)

Total

113

Total

Grand Total (UC + UE)

160

Departmental Core (DC)

Course

Code

Course L-T-P Credit

CSL251

Data Structures

3-0-0

CSP 251

Data Structures Lab

0-0-2

CSL252

Operating Systems

3-0-0

CSP 252

Operating Systems Lab

0-0-2

CSL253

Object Oriented Design

3-0-0

CSP 253

Programming Lab

0-0-2

CSL254

Design and Analysis of Algorithms

3-0-0

CSP 254

Algorithms Lab

0-0-2

CSL255

Computer Networks

3-0-0

CSP 255

Computer Networks Lab

0-0-2

CSL256

Software Engineering

3-0-0

CSP 256

Software Lab

0-0-2

CSL257

Data Communication

3-0-0

CSL258

Computer Organization

3-0-0

CSL259

Theory of Computation

3-0-0

CSL351

Database Management Systems

3-0-0

CSP 351

DBMS Lab

0-0-2

CSL352

Compiler Design

3-0-0

CSP 352

Compiler Design Lab

0-0-4

CSL353

Data Science

3-0-0

CSP 353

Python Lab

0-0-2

CSL354

Information and Network Security

3-0-0

CSL355

Artificial Intelligence

3-0-0

SCL254

Discrete Mathematics

3-2-0

ECL256

Digital Circuits

3-0-0

ECP256

Digital Circuits Lab

0-0-2

ECL353

Microcontroller and Interfacing

3-0-0

ECP353

Microcontroller and Interfacing Lab

0-0-2

CED351

Minor Project

CED451

Major Project

Departmental Elective (DE)

Course

Code

Course L-T-P Credit

CSP354

Network Security Lab

0-0-4

CSP355

Artificial Intelligence Lab

0-0-4

CSL356

Digital Image Processing

3-0-0

CSP356

Embedded Systems Lab

0-0-4

CSL357

Web Technologies

3-0-0

CSL358

Information Retrieval

3-0-0

CSL359

Neuro-Fuzzy Techniques

3-0-0

CSL360

Computer Graphics

3-0-0

CSL451

Real Time Systems

3-0-0

CSP451

Real Time Systems Lab

0-0-4

CSL452

Cloud Computing

3-0-0

CSP452

Cloud Computing Lab

0-0-6

CSL453

Internet of Things

3-0-0

CSP453

IoT Lab

0-0-6

CSL454

Machine Learning

3-0-0

CSP454

Machine Learning Lab

0-0-6

CSL455

Parallel and Distributed Computing

3-0-0

CSP455

Linux Lab

0-0-6

CSL456

Multimedia Technologies

3-0-0

CSL457

Concepts in Blockchaining

3-0-0

CSL458

Cyber Forensic

3-0-0

CSL459

System Programming

3-0-0

CSL460

Fundamental Algorithms in

Computational Biology

3-0-0

ECL355

Digital Communication Systems

3-0-0

ECP355

Digital Communication Systems Lab

0-0-2

ECL357

Information Theory & Coding

3-0-0

ECL468

Embedded System Design

3-0-0

Basic Science (BS)

Course

Code

Course

L-T-P

Credit

SCL152

Applied Mathematics-I

3-2-0

SCL153

Applied Mathematics-II

3-2-0

SCL253

Probability and Numerical

Methods*

3-0-0 03

SCL154

Applied Physics

3-0-0

SCP154

Applied Physics Lab

0-0-2

SCL155

Applied Chemistry

3-0-0

SCP155

Applied Chemistry Lab

0-0-2

Total

Humanities and Management (Core) (HM)

Course

Code

Course

L-T-P

Credit

HMP152

Technical Communication

2-0-2

HML151

Social Science

2-0-0

Total

Non Credit Requirement (UN)

Course

Code

Course

L-T-P

Credit

NCN151

NCC#

NCN152

NSS#

NCN153

NSO#

SPB151

Sports-I#

0-0-4

SPB152

Sports-II#

0-0-4

HMD251

Community Project

CST251

Practical Training

#A student has to opt at least one from NCC, NSS, NSO and

Sports (I & II both).

Engineering Arts and Science (ES)

Course

Code

Course

L-T-P

Credit

MEL152

Elementary Mechanical Engineering

3-0-0

EEL151

Elementary Electrical Engineering

3-0-0

EEP151

Elementary Electrical Engineering

Lab

0-0-2

ECL151

Basic Electronics Engineering

3-0-0

ECP151

Basic Electronics Engineering Lab

0-0-2

MEL151

Engineering Drawing

3-0-0

MEP151

Engineering Drawing Lab

0-0-2

CSL151

Computer Programming and

Problem Solving

3-0-0

CSP151

Computer Programming Lab

0-0-2

MEP152

Mechanical Workshop

0-0-2

CEL151

Environmental Science

2-0-0

Total

Course Syllabi (Under Graduate)

Department of Computer Science and Engineering

Course Code: CSL151

Course Title: COMPUTER PROGRAMMING AND PROBLEM

SOLVING

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents: Overview of a computer system, Block diagram

and major parts of a computer, history of computer development,

introduction to binary, octal, & hexadecimal numbers, ASCII code,

different levels of programming languages – machine language,

assembly language, high level language; need of operating system,

tree structure of storage, introduction to assembler, compiler and

interpreter.

Introduction: Flow charts, data types and storage classes, scope of

variables, arithmetic operators, assignment, conditional, arithmetic

expressions, enumerated data types, decision making, branching,

looping, Switch concept, function and parameter passing, recursive

functions, macros. Basic programming algorithms: Programs to

illustrate basic language constructs in C like - Factorial, Sine/cosine

and other mathematical series, Fibonacci series, calculating square-

root of a number, calculating GCD of 2 integers (Euclid‗s method and

otherwise), Calculating LCM of 2 integers and similar such programs.

Arrays and applications: Introduction to one dimensional and 2-D

array with examples. Representing a polynomial using 1-D array and

polynomial operations, Use of 2-D array to represent a matrix and

matrix operations. Character arrays (strings): String related functions

(strlen, strcpy, strcat, strcmp, reverse etc.) and their function

definitions. Searching and Sorting methods: Selection sort, Bubble

sort, Insertion sort, Linear and binary search, partitioning an array,

merging of 2 sorted arrays. Structures and Unions: Basic concept,

array of structures and its applications.

Pointers: Introduction (declaration and initialization), pointers and

arrays, concept of dynamic memory allocation, use of pointers to

represent variable-sized 1-D and 2-D arrays, pointers to structures.

File Management in C: Open, close, read and write operations,

Sequential and text files.

Text Books:

1. Kerninghan, B.W. And Ritchie, D.M., The C Programming

Language, 2nd ed., PHI, Delhi, 2012.

2. Balguruswamy, E., Programming in ANSI C, 6th ed., Tata

McGraw Hill, New Delhi, 2013.

Reference Books:

1. Deshpande, P.S. and Kakde, O.G., C and Data Structures,

Dreamtech Press, New Delhi, 2009.

2. Dromey, R.G., How to Solve it by Computer, Pearson Education,

Delhi, 2008.

3. Gottfried, B.S., Schaum‗s Outline of Theory and Problems of

Programing with C, 2nd ed., McGraw Hill, New York, 2007.

Course Code: CSL251

Course Title: DATA STRUCTURES

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents: Types and operations, Iterative constructs and

loop invariants, Structured Programming and modular design,

Illustrative examples, recursion, program stack and function

invocations including recursion. Overview of arrays and array based

algorithms - searching and sorting, Overview of Selection sort,

bubble sort and insertion-sort, Divide and Conquer – Merge sort,

Quicksort, Binary search, Introduction to Program complexity (Big Oh

notation), Recurrence relations. Sparse matrices. Introduction to

pointers, scope rules, parameter passing mechanisms – pass by

value and pass-by-reference. Structures (Records) and array of

structures (records). Database implementation using array of records.

Dynamic memory allocation and de allocation. Dynamically allocated

single and multi-dimensional arrays. Files, operations on them,

examples of using file. Stack, Queues and its operations. Concept of

an Abstract Data Type (ADT), Implementation of stacks and queues

using both array-based and pointer-based Structures. Uses of stacks

in simulating recursive procedures/ functions. Applications of stacks

and queues. Lists – Self-referential structures, Singly-linked lists,

doubly linked lists and circular linked lists. List traversal, insertion,

deletion at different positions in the linked lists, concatenation, list-

reversal etc. Merge sort for linked lists. Applications of lists in

polynomial representation, multi-precision arithmetic, hash-tables

etc. Multi linked structures and an example application like sparse

matrices. Implementation of priority queues. Trees , binary trees,

binary trees- basic algorithms and various traversals. Binary Search

Trees (BSTs) and insertion, deletion in BSTs.Height-balanced (AVL)

trees, insertion/deletion and rotations. Heaps and heap sort. Multi-

way trees and external sorting –Introduction to B-trees and B+trees.

Tries. Applications of the above mentioned trees. Generalisation of

trees to graphs – Introduction to DFS, BFS and Topological sort.

Text Books:

1. Kruse, R.L., Tondo, C. L. and Leung, B.P., Data Structures and

Program Design in C, 2nd ed., Pearson Education, Delhi, India,

2013.

2. Horowitz, E., Sahni, S. and Anderson-Freed, S., Fundamentals of

Data Structures in C, 2nd ed., University Press, Hyderabad,

2012.

Reference Books:

1. Kerninghan, B.W. and Ritchie, D.M., The C Programming

Language, 2nd ed., PHI, Delhi, 2012.

2. Dromey, R.G., How to Solve it by Computer, Pearson Education,

Delhi, 2008.

Course Code: CSL252

Course Title: OPERATING SYSTEMS

Structure (L-T-P): 3-0-0

Pre-requisite: CSL251

Contents: Introduction, basic h/w support necessary for

modern operating systems - Services provided by OS, system

programs and system calls – brief discussions of evolution of OS- real

time and distributed systems: a brief overview of issues.

File systems, user interface - disk space management and space

allocation strategies- examples from UNIX, DOS, Windows, etc. –

directory structures- disk caching- file system consistency and logs-

disk arm scheduling strategies. Processes and 3 levels of scheduling

- process control block and context switch - goals of scheduling and

different scheduling algorithms- threads: user-level and kernel level.

Memory management techniques - contiguous and non-contiguous-

paging and segmentation - translation look-aside buffers (TLB) and

overheads - virtual memory and demand paging- page faults and

instruction restart - problems of large address spaces - page

replacement algorithms and working sets - miscellaneous issues.

Process cooperation and synchronization - mutual exclusion and

implementation - semaphores, conditional critical regions and

monitors - classical inter - process communication problems-

message passing. Deadlocks and strategies for handling them.

Protection and security issues - access lists, capabilities,

cryptographic techniques - introduction to distributed systems.

Text Books:

1. Silberschatz, A., Galvin, P.B. and Gagne, G., Operating System

Concepts, 8th ed., Wiley, 2014.

2. Stallings, W., Operating Systems: Internals and Design

Principles, 7th ed., Pearson, 2014.

Reference Books:

1. Crowley, C., Operating Systems: A Design-Oriented Approach,

Tata McGraw Hill, 2001.

2. Tanenbaum, A.S., Modern Operating Systems, 3rd ed., Prentice

Hall of India, 2014.

Course Code: CSL253

Course Title: OBJECT ORIENTED DESIGN

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents: Object Oriented Programming, Features of

object oriented programming languages like data encapsulation,

inheritance, polymorphism and late binding. Concept of a class,

Access control of members of a class, instantiating a class, static and

non-static members, overloading a method.

Deriving a class from another class, access control of members

under derivation, different ways of class derivation, overriding of a

method, run time polymorphism.

Concept of an abstract class. Concept of an interface.

Implementation of an interface.

Exception and exception handling mechanisms. Study of exception

handling mechanisms in object-oriented languages

Introduction to streams, use of stream classes. Serialization and de-

serialization of objects.

Templates, Implementation of data structures like linked lists,

stacks, queues, trees, graphs, hash table etc. using object oriented

programming languages. Introduction to concept of refactoring,

modeling techniques like UML, Design patterns.

Text Books:

1. Arnold K., Gosling J. and Holmes, D., The Java Programming

Language, 3rd ed., Pearson Education, 2013.

2. Weisfeld, M.A.,The Object-Oriented Thought Process, 3rd ed.,

Pearson, 2013.

Reference Books:

1. Stroustrup, B., The C++ Programming Language,4th ed.,

Addison-Wesley,2014

2. Schildt, H., C++: The Complete Reference, 5th ed., McGraw-

Hill, 2012.

3. Cox, B.J. and Novobilski, A.J., Object-Oriented Programming:

AnEvolutionary Approach, 2nd ed., Addison Wesley, 1993.

Course Code: CSL254

Course Title: DESIGN AND ANALYSIS OF ALGORITHMS

Structure (L-T-P): 3-0-0

Pre-requisite: CSL251

Contents: Mathematical foundations, summation of

arithmetic and geometric series, n, n2, Bounding summations using

integration, recurrence relations, solutions of recurrence relations

using technique of characteristic equation and generating functions.

Asymptotic notations of analysis of algorithms, analyzing control

structures, worst case and average case analysis, amortized analysis,

sorting algorithms such as selection sort, insertion sort, bubble sort,

heap sort, lower bound proof, elementary and advanced data

structures with operations on them and their time complexity.

Divide and conquer basic strategy, binary search, quick sort, merge

sort, Fast Fourier Transform etc. Greedy method - basic strategy,

application to job sequencing with deadlines problem, minimum cost

spanning trees, single source shortest path etc.

Dynamic Programming basic strategy, multistage graphs, all pairs

shortest path, single source shortest paths, optimal binary search

trees, traveling salesman problem.

Basic Traversal and Search Techniques, breadth first search and

depth first search, connected components. Backtracking basic

strategy, 8-Queen‗s problem, graph coloring, Hamiltonian cycles etc.

NP-hard and NP-complete problems, basic concepts,

nondeterministic algorithms, NP-hard and NP-complete, Cook‗s

Theorem, decision and optimization problems, polynomial reduction.

Text Books:

1. Cormen, T.H., Leiserson, C.E. and Rivest, R.L., Shamir,

Introduction to Algorithms, 3rd ed., PHI Learning Private Ltd.,

2013.

2. Horowitz, E., Sahni, S. and Rajasekaran, S., Fundamentals of

ComputerAlgorithms, 2nd ed., University Press, 2012.

Reference Books:

1. Brassard, G. and Bratley, P., Fundamentals of Algorithmics, PHI

Learning Private Limited, 2008.

Course Code: CSL 255

Course Title: COMPUTER NETWORKS

Structure (L-T-P): 3-0-0

Pre-requisite: CSL254

Contents: Introduction to Network Architecture, Layering

and Protocols, Internet Architecture Topologies, Transmission Media

(Guided and Unguided), Performance, Bandwidth and Latency,

Encoding (Unipolar, Polar, Bipolar), Data Transmission, Multiplexing

and De-Multiplexing, Framing, Error Detection and Correction

Techniques, Line Discipline, Flow Control, and Error Control, Bit

stuffing and Corrector Stuffing, Byte-Oriented Protocols (PPP), Bit-

Oriented Protocols (HDLC), internetworking (IEEE 802.1), LLC (IEEE

802.2), MAC (IEEE 802.3), Token Bus (IEEE 802.4) and Token

Ring (IEEE 802.5), FDDI, Switching (Circuit Switching and Packet

Switching), Point-to-Point Protocol(PPP), Link Control Protocol(LCP).

Routing, Bridging, Gateway, Brouters, Routing Protocols (Distance

Vector (RIP), Link State (OSPF). IP Addressing (Classful and

Classless), Masking, Subneting and Superneting, ARP and RARP,

Host Configuration (DHCP), 1Pv4, IPv6, UDP, TCP. Connection

Establishment and Termination, Triggering Transmission, Adaptive

Retransmission Error Reporting (ICMP, IGMP), Presentation layer

functions, Electronic Mail (SMTP, MIME, 1MAP), World Wide,

Web( HTTP), Web services multimedia applications, Session control

and call control, SDP, SIP, H.323, Name service (DNS), Network

Management(SNMP).

Text Books:

1. Peterson, L.L. and Davie, B.S., Computers Networks: A Systems

Approach, 5th ed., Elsevier, 2013.

2. Forouzan, B.A., Data Communications and Networking,

5thed.Tata McGraw- Hill, 2013.

Reference Books:

1. Tanenbaum, A. S. and Wetherall, D., Computer Networks, 5th

ed., Pearson, 2014.

2. Haykin, S.S. and Moher, M., Communication Systems, 5th ed.,

John Wiley and Sons, 2012.

3. Comer, D., Computer Networks and Internets, 6th ed., Pearson,

2014.

4. Kurose, J.F. and Ross, K.W., Computer Networking: A Top-

Down Approach, 6th ed., Pearson Education, 2013.

5. Stallings, W., Data and Computer Communications, 10th ed.,

Pearson Education, 2014.

Course Code: CSL256

Course Title: SOFTWARE ENGINEERING

Structure (L-T-P): 3-0-0

Pre-requisite: CSL253

Contents: Introduction to Software Engineering, software

Characteristics, software life-cycle models, process models, software

project management, software configuration management, software

requirements specifications, software architecture, software design

function-oriented software design, object-oriented design, UML

modeling, user interface design, software implementation, software

testing, verification and validation, Software Quality Frameworks, ISO

9001 Model, SEI-CMM Model, Software reliability and fault-

tolerance, software metrics.

Text Books:

1. Pressman, R.S. and Maxim, B.R., Software Engineering: A

Practitioner‗s Approach, 8th ed., McGraw Hill, 2014.

2. Sommerville, I., Software Engineering, 9thed.,Pearson Education

2013.

Reference Books:

1. Singh,Y.,Software Testing, Cambridge University Press, 2013.

Course Code: CSL257

Course Title: DATA COMMUNICATION

Structure (L-T-P): 3-0-0

Pre-requisite: CSL151

Contents: Introduction to data communication and

networking, OSI and TCP/IP protocol suit, Analog and Digital signals,

Digital transmission, Analog transmission, Multiplexing (Frequency

division Multiplexing, Wavelength division Multiplexing, Time division

Multiplexing, Multiplexing applications), transmission media (Guided

Media, Unguided Media, Transmission Impairments, Performance

Wavelength , Shannon Capacity , Media Comparison, PSTN ,

Switching), Error Detection and Correction, DTE-DCE Communication

(Digital data transmission, DTE-DCE Interface, Modems, 56K

Modems , Cable Modems), Encoding (NRZ, NRZI, Manchester,

Differential Manchester, 4B/5B), Clock based framing, Integrated

services digital network (ISDN), Introduction to networks.

Text Books:

1. Data communication & Networking by Bahrouz Forouzan.

2. Computer Networks by Andrew S. Tanenbaum.

3. Forouzan, B.A., Data Communications and Networking,

5thed.Tata McGraw- Hill, 2013.

Reference Books:

1. Stallings, W., Data and Computer Communications, 10th ed.,

Pearson Education, 2014.

Course Code: CSL258

Course Title: COMPUTER ORGANIZATION

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents: Addressing methods, their application in

implementation of HLL constructs and data structures, instruction

formats, expanding op-code method, subroutine linkage. Instruction

sets of ARM, Intel and Motorola Processors. Processing unit, bus

architecture, execution of a complete instruction, sequencing of

control signals, micro programmed control, microinstruction format,

microinstruction sequencing, bit slice concept. Arithmetic, number

representations and their operations, design of fast address, signed

multiplication, Booth‗s Algorithm, bit-pair recording, division, floating

point numbers and operations, guard bits and rounding.

Main memory organization, various technologies used in memory

design, higher order memory design, multi module memories and

interleaving, cache memory, concept of cache memory, mapping

functions, replacement algorithms.

Input-output organization, I/O mapped I/O and memory mapped I/O,

Direct Memory Access, interrupt and interrupts handling

mechanisms, device identification, vectored interrupts, interrupt

nesting, I/O interfaces, synchronous vs. asynchronous data transfer,

I/O channels. Computer peripherals, I/O devices such as video

terminals, video displays, graphic input devices, printers, magnetic

disk, magnetic tape , CDROM systems.

Introduction to RISC philosophy, Pipelining, Basic concepts in

pipelining.

Text Book:

1. Hamacher, V.C., Vranesic, Z.G. and Zaky, S.G., Computer

Organization, 5th ed., Tata McGraw Hill, 2013.

Reference Books:

1. Patterson, D.A.and Hennessy, J.L., Computer Organization and

Design: The Hardware/Software Interface, 5th ed., Morgan

Kaufmann, Amsterdam, 2014.

2. Stallings, W., Computer Organization and Architecture:

Designing for Performance, 9th ed., Pearson Education,

Boston, 2013.

3. Tanenbaum, A.S. and Austin, T., Structured Computer

Organization, 6th ed., Pearson Education, 2013.

Course Code: CSL259

Course Title: THEORY OF COMPUTATION

Structure (L-T-P): 3-0-0

Pre-requisite: CSL251

Contents: Preliminaries - Sets, operations, relations,

transitive closure, countability and diagonalisation, induction and

proof methods- pigeon-hole principle and simple applications-

concept of language- grammars and production rules- Chomsky

hierarchy. Regular grammars, deterministic finite automata - non

determinism, conversion to deterministic automata-e-closures,

regular expressions, finite automata, regular sets. Pump lemma for

regular sets- closure properties of regular sets, decision properties for

regular sets, minimization of automata. Context - free languages,

parse trees and ambiguity, reduction of CFGS, Chomsky and

Griebach normal forms, push - down Automata (PDA), non-

determinism, acceptance by two methods and their equivalence,

CFLs and PDAs – Pumping lemma for context free languages,

Closure and decision properties of CFLs. Timing machines– variants,

recursively enumerable (r. e.) sets, recursive sets, TM as computer of

function, decidability and solvability, Halting Problem, reductions,

Post correspondence Problem (PCP) and insolvability of ambiguity

problem of CFGs.

Introduction to recursive function theory - primitive recursive and

partial recursive functions Church-Turing thesis- convergence of

viewpoints of what computability is: Semi formal treatment.

Text Book:

1. Martin, J.C., Introduction to Languages and the Theory of

Computation, 3rded., Tata McGraw Hill, 2014.

Reference Book:

1. Hopcroft, J.E., Motwani, R. and Ullman, J.D., Introduction to

AutomataTheory, Languages and Computation, 3rd ed., Pearson

Education, 2014.

Course Code: CSL351

Course Title: DATABASE MANAGEMENT SYSTEMS

Structure (L-T-P): 3-0-0

Pre-requisite: CSL252

Contents: Database system concepts and Architecture

- concept of relational database, Relational data model, Relational

algebra, SQL-the relational database standard, ER and EER model.

Database design theory - Functional dependencies and

normalization, relational database design algorithms, practical

database design and demoralization, Relational constants,

programmatic ways for implementing constraints, triggers, Chase

algorithm.

Physical database design - Concept of physical and logical hierarchy,

storage structures like cluster, index organized table, partitions,

various table storage Parameters and block storage parameters,

concept of index, B-trees, hash index, Function index, bitmap index.

Process and memory management in database- Various types of

tasks in database, database buffer management, log buffer

management code reuse, concept of two tier and N-tier architecture,

data dictionary and catalog information database recovery technique.

Arier Algorithm for recovery. Query optimization and performance

tuning- Various techniques for query optimization, strong and weak

equivalence, cost base optimization, Use of different storage

structures in query optimization.

Transaction Processing - Transaction and system concepts, Desirable

properties of transaction, Schedules and recoverability, serializability

of schedules, concurrency control, lock base protocols and time

stamp based protocols, read consistency.

Text Book:

1. Silberschatz, A.,Korth, H.F. and Sudarshan, S.Database

System Concepts, 6th ed., Tata McGraw-Hill, 2011.

Reference Books:

1. Elmasri, R.A. and Navathe, S.B., Fundamentals of Database

Systems, 6th ed., Pearson Education, 2014.

2. Ullman, J.D., Principles of Database Systems, 2nd ed.,

Computer Science Press, 1990.

Course Code: CSL352

Course Title: COMPILER DESIGN

Structure (L-T-P): 3-0-0

Pre-requisite: CSL259

Contents: Introduction to compilers, compilers and

translators, phase structure of a typical compiler, Number of passes,

ideas about lexical analysis, syntax analysis, code optimization and

code generation, design of lexical analyzer.

Syntax specification of programming languages, Design of top-down

parser, bottom up parsing technique, LR parsing algorithm, Design of

SLR, LALR,LR parsers. Dealing with ambiguity of the grammar.

Study of syntax directed definitions and syntax directed translation

schemes as notational frame work to specify the translations. Using

syntax directed translation schemes for translation of expressions,

controls structures, declarations, procedure calls.

Symbol table management, Error detection and recovery, error

recovery in LR parsing, error recovery in LL parsing, Automatic error

recovery in YACC

Introduction to Important code optimization techniques, loop

optimization, control flow analysis, data flow analysis, setting up

data flow equations to compute reaching definitions, available

expressions, Live variables.

Problems in code generation, simple code generator code generation

from DAG, Peephole optimization.

Text Book:

1. Aho, A.V., and Ullman, J.D., Principles of Compiler

Design, Narosa Publishing House, 2002.

Reference Books:

1. Holub, A.I., Compiler Design in C, Prentice-Hall of India, 2006.

2. Fischer, C.N., Cytron, R.K. and LeBlanc, R.J., Crafting a

Compiler, Addison Wesley, 2010.

Course Code: CSL353

Course Title: DATA SCIENCE

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents: Introduction: What is Data Science?, Big Data

and Data Science hype – and getting past the hype, Why now? –

Datafication, Linear algebra for data science (algebraic view -

vectors, matrices, product of matrix & vector, rank, null space,

solution of over-determined set of equations and pseudo-inverse),

Linear algebra for data science (geometric view - vectors, distance,

projections, eigenvalue decomposition). Statistical Inference:

Statistics (descriptive statistics, notion of probability, distributions,

mean, variance, covariance, covariance matrix), Statistics

(Understanding univariate and multivariate normal distributions,

introduction to hypothesis testing, confidence interval for estimates),

Populations and samples, Statistical modeling, probability

distributions, fitting a model, Intro to R.

Exploratory Data Analysis and the Data Science Process: Basic tools

(plots, graphs and summary statistics) of EDA, Philosophy of EDA,

The Data Science Process, Case Study: RealDirect (online real estate

firm). Data Visualization: Basic principles, ideas and tools for data

visualization, Examples of inspiring (industry) projects, Exercise:

create your own visualization of a complex dataset. Machine

Learning Algorithms: Under Machine Learning, topics to be covered

are Supervised Learning, Unsupervised Learning, Reinforcement

Learning, Testing, Evaluation and Validation of Models to say in

brief. Linear Regression, Polynomial Regression, Logistic Regression,

Decision Trees, Random Forests, Boosted Trees, Naïve Bayes, Bayes

Theorem, Ensemble Learning, Ada Boost, Hierarchical Clustering,

Divisive and Agglomerative Clustering, DBSCAN, K Means

Clustering, K-Nearest Neighbors, Perceptron‘s, Gradient Descent,

Multi-Layered Perceptron‘s(MLP), L1 and L2 Regularization, Cross

Validation, Entropy, Train-test, F1 Score, Accuracy, Precision,

Recall, Support Vector Machines, Collaborative Filtering, Confusion

Matrix, Principal Component Analysis, Dimensionality Reduction and

Neural Networks. Deep Learning: Under Deep Learning, the topics to

be covered are- Neural Networks, Feed Forward Neural Networks,

Fuzzy Logic, Hyperparamaters Optimization, Sequence Models, Long

Short Term Memory (LSTM), Recurrent Neural Nets(RNN),

Convolutional Neural Nets(CNN), YOLO, Object Detection, Natural

Language Processing, Computer Vision using OpenCV, etc. Big Data:

Topics under Big Data include MapReduce, Hadoop, Apache, Spark,

Hive, Pig, Mahout, Yarn, Big Data Analytics, etc. Mining Social-

Network Graphs: Social networks as graphs, Clustering of graphs,

Direct discovery of communities in graphs, Partitioning of graphs,

Neighborhood properties in graphs. Data Science and Ethical Issues:

Discussions on privacy, security, ethics, A look back at Data Science,

Next-generation data scientists.

Text Book:

1. Cathy O‘Neil and Rachel Schutt. Doing Data Science, Straight

Talk From The Frontline. O‘Reilly. 2014.

2. Christopher M. Bishop F.R.Eng., Pattern Recognition and

Machine Learning, Springer.

Reference Books:

1. Gilbert Strang, Introduction To Linear Algebra, Wellesley-

Cambridge Press and SIAM, Fifth Edition (2016).

2. Douglas Montgomery, Applied Statistic And Probability For

Engineers, John Wiley & Sons, Inc., Third Edition.

3. Deep Learning, An MIT Press book, Ian Goodfellow and Yoshua

Bengio and Aaron Courville (http://www.deeplearningbook.org.)

4. Jure Leskovek, Anand Rajaraman and Jeffrey Ullman. Mining of

Massive Datasets. v2.1, Cambridge University Press. 2014. (free

online).

Course Code: CSL354

Course Title: INFORMATION AND NETWORK SECURITY

Structure (L-T-P): 3-0-0

Pre-requisites: CSL 255, CSL252

Contents: Classical Ciphers: Affine, Playfair, Hill

Cipher, Modern Block and Stream Ciphers: DES, AES, RC4,

A5/1, Block Modes of Operation: ECB, CBC, CFB,OFB, CTR

Asymmetric Key Cryptosystems: RSA, Digital Signatures: DSS,

Hash and MAC: SHA-512 Key Management: Digital Certificates,

PKI, Authentication: One-Way Authentication, Mutual

Authentication, Dictionary Attacks, Centralized Authentication, The

Needham-Schroeder Protocol, Kerberos, Network Layer Security:

IPSec, Transport Layer Security: SSL/TLS Non-cryptographic

Protocol Vulnerabilities: DoS and DDoS, Session Highjacking and

Spoofing, ARP Spoofing and Attacks on DNS, Software

Vulnerabilities: Phishing, Buffer overflow, cross site scripting and

SQL injection Viruses, Worms, and other Malware: Virus and Worm

Features, Internet Scanning Worms, Mobile Malware and Botnets,

Access Control in Operating Systems: Discretionary Access Control,

Mandatory Access Control, Role Based Access Control, SELinux

and Recent Trends ,RFIDs and E-Passports Electronic payment.

Text Books:

1. Forouzan, B.A. and Mukhopadhyay, Debdeep, Cryptography

and Network Security, 2nd ed., Tata McGraw Hill, 2013.

2. Stallings, W., Cryptography and Network Security: Principles

and Practice, 6th ed., Pearson, 2014.

Reference Books:

1. Schneier, B., Applied Cryptography: Protocols, Algorithms and

Source Code in C, 2nd ed., Wiley-India, 2007.

2. Stinson, D.R., Cryptography: Theory and Practice, 3rd

ed.,Chapman and Hal CRC Press, 2006.

3. Menezes, A.J., Oorschot, P.C.V. and Vanstone, S.A., Handbook

of Applied Cryptography, 5th ed., CRC Press, 2001.

4. Kaufman, C., Perlman, R. and Speciner, M., Network Security:

PrivateCommunication in a Public World, 2nd ed., Prentice Hall,

2010.

5. Pfleeger, C.P. and Pfleeger, S.L., Security in Computing, 4th ed.,

Prentice Hall, 2012.

Course Code: CSL355

Course Title: ARTIFICIAL INTELLIGENCE

Structure (L-T-P): 3-0-0

Pre-requisite: CSL254

Contents: Introduction: What is AI? , History, Overview,

Intelligent Agents, Performance Measure, Rationality, Structure of

Agents, Problem-solving agents, Problem Formulation, Uninformed

Search Strategies, Informed (Heuristic) Search and Exploration,

Greedy best first search, A* search, Memory bounded heuristic

search, Heuristic functions, inventing admissible heuristic functions,

Local Search algorithms, Hill-climbing, Simulated Annealing, Genetic

Algorithms, Online search, Constraint Satisfaction Problems,

Backtracking Search, variable and value ordering, constraint

propagation, intelligent backtracking, local search for CSPs,

Adversarial Search, Games, The minimax algorithm, Alpha-Beta

pruning, Imperfect Real-Time Decisions, Games that include an

Element of Chance Knowledge Based Agents, Logic, Propositional

Logic, Inference, Equivalence, Validity and Satisfiability, Resolution,

Forward and Backward Chaining, DPLL algorithm, Local search

algorithms, First Order Logic, Models for first order logic, Symbols

and Interpretations, Terms, Atomic sentences, complex sentences,

Quantifiers, Inference in FOL, Unification and Lifting, Forward

Chaining, Backward Chaining, Resolution Planning, Language of

planning problems, planning with state-space search, forward and

backward state-space search, Heuristics for state-space search,

partial order planning, planning graphs, planning with propositional

logic. Uncertainty, Handing uncertain knowledge, rational decisions,

basics of probability, axioms of probability, inference using full joint

distributions, independence, Baye‗s Rule and conditional

independence, Bayesian networks, Semantics of Bayesian networks,

Exact and Approximate inference in Bayesian Networks.

Text Book:

1. Russell, S.J. and Norvig, P., Artificial Intelligence: A

Modern Approach, 3rded.,Pearson Education, 2014.

Reference Books:

1. Nilsson, N.J. Artificial Intelligence and New Systems, 1st

ed.,Elsevier, 2011.

2. Patterson, D. W. Introduction to Artificial Intelligence and Expert

Systems, Prentice Hall of India, 2012.

Course Code: CSL356

Course Title: DIGITAL IMAGE PROCESSING

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents: Digital Image Fundamentals: Image Model,

Sampling, Quantization, Neighborhood, connectivity of pixels,

Labeling of connected components, Distance measures Image

Transforms: Fourier Transform, Discrete Fourier

Transform, Properties of 2D Discrete Fourier Transform, The fast

Fourier Transform and its algorithm, number of operations, the

inverse FFT. Discrete Cosine Transform and its applications, KL

Transform, Convolution and correlation Image Enhancement:

Enhancement by point processing, spatial filtering, enhancement in

frequency domain, generation of spatial masks from frequency

domain specifications Image Segmentation: Detection of

discontinuities, edge linking and boundary detection, thresholding,

region oriented segmentation Representation and Description:

Representation schemes, boundary descriptors, regional descriptors.

Morphology: Dilation, erosion, opening, closing, Hit-or-Miss

Transform, so me basic morphological algorithms like pruning,

thinning and thickening

Text Book:

1. Gonzalez and Woods. Digital Image Processing, Addison

Wesley, 2nd Edition, 2007.

Reference Book:

1. A. K. Jain, Fundamentals of Digital Image Processing, Prentice

Hall, 1st Edition, 1988

Course Code: CSL357

Course Title: WEB TECHNOLOGIES

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents: Planning and designing a website, maintaining

view state, connecting and hosting database, choosing a web server

for hosting, domain name registration, configuration and

optimization settings, promotion and maintenance of website

Uniform Resource Locators (URLs) & Web Browser, Semantic Web

applications and services, Semantic Search, e-learning, Semantic

Bioinformatics, Knowledge Base, XML Based Web Services, Creating

an OWL-S Ontology for Web Services, Semantic Search Technology,

Web Search Agents and Semantic Method, Web technologies:

Terminology & Applications; Active X Components, XML, Chat

applets, Ajax, Servlet, Java Beans, J2ME, SQL, Ftp Android: Ice

cream Sandwich, Jellybean Peer to Peer and Cloud Network, Social

Network Analysis, development of the social networks

analysis, Electronic Sources for Network Analysis –Electronic

Discussion networks, Blogs and Online Communities, Web Based

Networks. Building Semantic Web Applications with social

network features.

Text Books:

1. J .Davies, R.Studer, P.Warren. Semantic Web Technologies,

Trends and Research in Ontology Based Systems, John Wiley &

Sons, 2006.

2. Liyang Yu. Introduction to Semantic Web and Semantic Web

Services, CRC Press, 2007.

3. Heiner Stuckenschmidt, Frank Van Harmelen. Information

Sharing on the semantic Web, Springer Publications, 2005.

4. T. Segaran, C.Evans, J.Taylor. Programming the Semantic Web,

O‟Reilly, 2009.

Course Code: CSL358

Course Title: INFORMATION RETRIEVAL

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents: Boolean retrieval, the term vocabulary and

postings lists, Dictionaries and tolerant retrieval, Introduction to

index-construction and index-compression. Scoring, term weighting

and the vector space model, Computing scores in a complete search

system, Evaluation in information retrieval, Introduction to Relevance

feedback and query expansion.

Probabilistic information retrieval, review of basic probability theory,

the probability ranking principle, the binary independence model

Language models for information retrieval, Language modeling versus

other approaches to IR, Text classification and Naive Bayes,

Bayesian Network approaches to IR. Vector space classification,

Support vector machines and machine learning on documents, Flat

clustering, Hierarchical clustering, Matrix decomposition and latent

semantic indexing. Introduction to Web search basics, Web crawling

and indexes, Link analysis.

Text Books:

1. Manning, C.D., Raghavan, P. and Schu¨tze, H.,Introduction

to Information Retrieval, Cambridge University Press, England,

2012.

2. Bu¨ttcher,S., Clarke, C.L.A. and Gordon V Cormack,

Information Retrieval: Implementing and Evaluating Search

Engines,MIT Press, 2010.

Reference Books:

1. Grossman, D.A. and Ophir, F.,Information Retrieval: Algorithms

and Heuristics, Springer, 2013.

2. Frakes, W.B., Pearson, Information Retrieval: Data Structures

and Algorithms,Prentice Hall, 2002.

Course Code: CSL359

Course Title: NEURO-FUZZY TECHNIQUES

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents: Neural Networks: History, overview of biological

Neuro-system, Mathematical Models of Neurons, ANN architecture,

Learning rules, Learning Paradigms-Supervised, Unsupervised and

reinforcement Learning, ANN training Algorithms-perceptions,

Training rules, Delta, Back Propagation Algorithm, Multilayer

Perceptron Model, Hopfield Networks, Associative Memories,

Applications of Artificial Neural Networks.

Fuzzy Logic: Introduction to Fuzzy Logic, Classical and Fuzzy Sets:

Overview of Classical Sets, Membership Function, Fuzzy rule

generation. Operations on Fuzzy Sets: Compliment, Intersections,

Unions, Combinations of Operations, Aggregation Operations.

Fuzzy Arithmetic: Fuzzy Numbers, Linguistic Variables, Arithmetic

Operations on Intervals & Numbers, Lattice of Fuzzy Numbers, Fuzzy

Equations. Application of Fuzzy Logic: Medicine, Economics etc.

Introduction of Neuro-Fuzzy Systems, Architecture of Neuro Fuzzy

Networks

Genetic Algorithm: An Overview of GA, GA operators, GA in problem

solving, Implementation of GA.

Text Books:

1. Haykin, S.S., Neural Networks and Learning Machines, 3rd ed.,

PHI Learning, 2013.

2. Ross, T.J., Fuzzy Logic with Engineering Applications, 3rd ed.,

John Wiley & Sons, 2013.

Reference Books:

1. Aliev, R.A. and Aliev, R.R., Soft Computing and its

Applications, World Scientific, 2001.

2. Kosko, B., Neural Networks and Fuzzy Systems: A

Dynamical Systems Approach to Machine Intelligence,

Prentice-Hall of India, 1994.

3. Yegnanarayana, B., Artificial Neural Networks, Prentice Hall of

India, 2006.

4. Jang, J-S.R., Sun, C-T. and Mizutani, E., Neuro-Fuzzy and Soft

Computing: A Computational Approach to Learning and Machine

Intelligence, PHI Learning, 2010.

5. Hertz, J.A., Krogh, A. and Palmer, R.G., Introduction to the

Theory of Neural Computation, Addison Wesley, 1999.

Mehrotra, K., Mohan, C. K. and Ranka, S., Elements of Artificial

Neural Networks, Penram International Publishing,1997.

Course Code: CSL360

Course Title: COMPUTER GRAPHICS

Structure (L-T-P): 3-0-0

Pre-requisite: CSL251

Contents: Basic fundamentals of random scan, raster-

scan devices, LCD displays - point and line drawing techniques and

algorithms - input/output devices and interactive techniques.

Polygon filling methods: Seed fill, edge flag algorithm etc. - scan

conversion techniques - anti aliasing techniques - clipping

algorithms, Polygon clipping, Viewing transformation, Windowing

transformation.

Linear transformation: rotation, scaling, translation in 3D -

homogeneous coordinates - normalized device coordinates -

windowing and view porting, Cartesian Coordinates, Word view etc.

Curve generation - cubic splines, Beziers, blending of curves- other

interpolation techniques, Displaying Curves and Surfaces, Shape

description requirement, parametric function. Review of 3D vector

algebra - parallel and perspective projections and transformation -

hidden line/ surface elimination - shading and rendering - ray tracing

techniques.

Graphics software packages - segmentation and display files -

graphics standards graphics and computer networks - basic

principles of X windows, X terminals, Functions for segmenting

display files.

Text Book:

1. Rogers, D.F., Procedural Elements for Computer Graphics,

2nd ed., Tata McGraw Hill, 2012.

Reference Books:

1. Hearn, D. and Baker, M.P., Computer Graphics, Prentice Hall of

India, 2003.

2. Foley, J.D., Introduction to Computer Graphics, Addison-Wesley,

2010.

Course Code: CSL451

Course Title: REAL-TIME SYSTEMS

Structure (L-T-P): 3-0-0

Pre-requisite: CSL252

Contents: Real time applications: Hard and soft real time

systems, timing constraints, A Reference model of Real-time

systems, temporal parameters, precedence constraints &

dependencies, scheduling Hierarchy, Commonly used approaches to

scheduling, cyclic and priority drive approaches, Optimality of EDF

and LST. Clock Driven Scheduling: Static timer driven scheduler,

Cyclic Executives, Improving Average Response times of Aperiodic

Jobs, Scheduling Sporadic jobs, Practical Considerations, Pros and

Cons of Clock Driven Scheduling Priority-driven scheduling of

periodic tasks: Fixed Priority vs Dynamic Priority schemes, Maximum

schedulable Utilization, Optimality of the RM and DM algorithms, As

Schedulable Test for Fixed Priority Tasks, Practical Factors.

Scheduling Aperiodic and Sporadic Jobs in Priority-driven

scheduling: Deferrable Servers, Sporadic Servers, Constant

Utilization. Total Bandwidth, and Weighted Fair-Queuing Servers,

Scheduling of Sporadic Jobs.

Resources and resource access control: non preemptive critical

sections, basic priority-inheritance, ceiling protocol, multiprocessor

scheduling, predictability and validation of dynamic multiprocessor

systems flexible applications, tasks with temporal distance

constraints.

Real time Operating systems: Overview, Time Services and

Scheduling Mechanisms, Basic Operating System Functions,

Processor Reserves and Resource Kernel, Open System Architecture,

Capabilities of Commercial RTOS.

Text Book:

1. Liu, J.W.S., Real-Time Systems, Pearson Education, 2013.

Reference Book:

1. Krishna, C.M. and Shin, K.G., Real Time Systems, 3rd ed.,Tata

McGraw Hill, 2010

Course Code: CSL452

Course Title: CLOUD COMPUTING

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents: Virtualization: Introduction, technologies and

architectures, Internals of virtual machine monitors/ hypervisors,

Process Virtual Machines: containerization, System Virtual Machines,

Dynamic Binary Optimization, Multiprocessor Virtualization, Live

migration mechanisms. Overview of Cloud computing, Cloud

Services: infrastructure-as-a service (IAAS), platform-as-a-service

(PAAS) and software-as-a-service (SAAS), Cloud deployment Models

– public, private, community and hybrid Cloud, HPC in Cloud

computing, Cloud-in-a-box. Cloud enabling technologies: Hadoop,

Map-reduce, etc.

Case Study: Implementation examples of Cloud services: Projects in

Cloud (using AWS, MS Azure, Open stack Oracle etc.) Case studies

from Industry perspective: Implement/ outline architecture for large

Enterprise (>100 applications), Implement monitoring in form of CC

(Command center), Generate analytics reports (predictive etc.)

AI/ML.

Text Books:

1. Resse, George. Cloud Application Architectures: Building

Applications and Infrastructure in the Cloud. O‗ Reilly, 2009.

2. Smith, James E., and Ravi Nair. Virtual Machines: Versatile

Platforms for Systems and Processes. Morgan Kaufmann,

2005.

Reference Book:

1. Buyya, Rajkumar, James Broberg, and Andrzej Goscinski. Cloud

Computing – Principles and Paradigms, Wiley, 2011.

Course Code: CSL453

Course Title: INTERNET OF THINGS

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents: IoT-An Architectural Overview– building

architecture, Main design principles and needed capabilities, An IoT

architecture outline, standards considerations. M2M and IoT

Technology Fundamentals- Devices and gateways, Local and wide

area networking, Data management, Business processes in IoT,

Everything as a Service(XaaS), M2M and IoT Analytics, Knowledge

Management. Reference Architecture: IoT Architecture-State of the

Art – Introduction, State of the art, Reference Model and

architecture, IoT reference Model - IoT Reference Architecture

Introduction, Functional View, Information View, Deployment and

Operational View, Other Relevant architectural views. Real-World

Design Constraints- Introduction, Technical Design constraints-

hardware is popular again, Data representation and visualization,

Interaction and remote control. Data Link Layer & Network Layer

Protocols: PHY/MAC Layer (3GPP MTC, IEEE 802.11, IEEE

802.15), WirelessHART, Z-Wave, Bluetooth Low Energy, Zigbee

Smart Energy, DASH7 - Network Layer-IPv4, IPv6, 6LoWPAN,

6TiSCH,ND, DHCP, ICMP, RPL, CORPL, CARP. Upper Layer

Protocols: Transport Layer (TCP, MPTCP, UDP, DCCP, SCTP)-(TLS,

DTLS), Session Layer: HTTP, CoAP, XMPP, AMQP, MQTT, Service

Layer -oneM2M, ETSI M2M, OMA, BBF – Security in IoT Protocols –

MAC 802.15.4, 6LoWPAN, RPL, Application Layer

Text Books:

1. Jan Holler, VlasiosTsiatsis, Catherine Mulligan, Stefan Avesand,

Stamatis Karnouskos, David Boyle, ―From Machine-to-Machine to

the

2. Internet of Things: Introduction to a New Age of Intelligence‖, 1st

Edition, Academic Press, 2014. Peter Waher, ―Learning Internet

Things‖, PACKT publishing, BIRMINGHAM – MUMBAI

Reference Books:

1. Bernd Scholz-Reiter, Florian Michahelles, ―Architecting the

Internet of Things‖, ISBN 978-3-642-19156-5 e-ISBN 978-3-

642-19157-2, Springer.

2. Daniel Minoli, ―Building the Internet of Things with IPv6 and

MIPv6: The Evolving World of M2M Communications‖, ISBN:

978-1-118-47347-4, Willy Publications.

3. Vijay Madisetti and ArshdeepBahga, ―Internet of Things (A

Hands-on Approach)‖, 1st Edition, VPT, 2014.

4. Waltenegus Dargie, Christian Poellabauer , ―Fundamentals of

Wireless Sensor Networks, Theory and Practice‖, Wiley Series

on wireless Communication and Mobile Computing, 2011.

5. Kazem Sohraby, Daniel manoli, ―Wireless Sensor networks-

Technology, Protocols and Applications‖, Wiley InterScience

Publications 2010.

6. Bhaskar Krishnamachari , ― Networking Wireless Sensors‖,

Cambridge University Press, 2005.

7. C.S Raghavendra, Krishna M.Sivalingam, Taiebznati , ―Wireless

Sensor Networks‖, Springer Science 2004.

Course Code: CSL454

Course Title: MACHINE LEARNING

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents: Introduction: Basic concepts; Supervised

learning: Artificial Neural Network, Classifying with k-Nearest

Neighbor classifier, Support vector machine classifier, Decision Tree

classifier, Naive Bayes classifier, Bagging, Boosting, Improving

classification with the AdaBoost meta algorithm. Forecasting and

Learning theory: Predicting numeric values: regression, Linear

Regression, Logistic regression, Tree-based regression. Bias/variance

tradeoff, Union and Chernoff/Hoeffding bounds, Vapnik–

Chervonenkis (VC) dimension, Worst case (online) learning.

Unsupervised learning:, Grouping unlabeled items using k-means

clustering, Association analysis with the Apriori algorithm, efficiently

finding frequent item sets with FP-growth. PCA (Principal

components analysis), ICA (Independent components analysis);

Introduction to deep neural networks - Deep Feed forward Networks,

CNN, Auto Encoders; Reinforcement learning and control: Markov

decision process (MDP), Bellman equations, Value iteration and

policy iteration, Linear quadratic regulation, Linear Quadratic

Gaussian, Q-learning, Value function approximation, Policy search,

Reinforce, POMDPs.

Text Books:

1. Ethem Alpaydin, Introduction to Machine Learning, Second

Edition, PHI, 2010 2. P. Langley, Elements of Machine

Learning, Morgan Kaufmann, 1995.

2. Tom.M.Mitchell, Machine Learning, McGraw Hill International

Edition.

Reference Book:

1. Ethern Alpaydin, Introduction to Machine Learning. Eastern

Economy Edition, Prentice Hall of India, 2005.

Course Code: CSL455

Course Title: PARALLEL AND DISTRIBUTED COMPUTING

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents: Asynchronous/synchronous computation/

communication, concurrency control, fault tolerance, GPU

architecture and programming, heterogeneity, interconnection

topologies, load balancing, memory consistency model, memory

hierarchies, Message passing interface (MPI), MIMD/SIMD,

multithreaded programming, parallel algorithms & architectures,

parallel I/O, performance analysis and tuning, power, programming

models (data parallel, task parallel, process-centric,

shared/distributed memory), scalability and performance studies,

scheduling, storage systems, synchronization, and tools (Cuda, Swift,

Globus, Condor, Amazon AWS, OpenStack, Cilk, gdb, threads,

MPICH, OpenMP, Hadoop, FUSE).

Text Books:

1. Distributed and Cloud Computing: Clusters, Grids, Clouds, and

the Future Internet (DCC) by Kai Hwang, Jack Dongarra &

Geoffrey C. Fox (Required).

2. Andrew S. Tanenbaum and Maarten van Steen. ―Distributed

Systems: Principles and Paradigms‖ (DSPD), Prentice Hall, 2nd

Edition, 2007.

Course Code: CSL456

Course Title: MULTIMEDIA TECHNOLOGIES

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents: Multimedia Definition, Properties of a

Multimedia System, Multimedia Building Blocks, Modes of data

transmission, Asynchronous Transmission Mode, Synchronous

Transmission Mode, Isochronous, Transmission Mode. Multimedia

Information Representation: Analog Signal, Waves, General

properties of Analog Signals, Digital Representation, Need for digital

representation, Analog to digital conversion, Nyquist‘s Sampling

Theorem, Encoder Design, Digital to Analog conversion, Decoder

design and its principles, Encoder – Decoder, Relation between

sampling rate and bit depth. Discrete Media: Types of Media, Time

Independent Media, Time dependent Media, Text, Unformatted Text,

Formatted Text, Hyper Text, Essential Features of HTML, Graphics

and Images, Creation of Computer Graphics, Digitized

documents, Digitized Pictures, Digitized Cameras, Raster Scan

Principles, Image Analysis, Image Transmission. Continuous Media:

Audio, Speech Signals, Analog Signals, PCM Speech, CD- Quality

audio, Synthesized audio, Types of Synthesizers, Characteristics of

Synthesizers, Streaming Video, File Formats, Streaming Methods,

Sound Fundamentals, Music, MIDI Basic concepts, MIDI Devices,

MIDI Messages, Video, Broadcast Television, Digital Video –

Format, 0 Format, HDTV Format, SIF, CIF, QCIF, PC Video and

Video Content. Text Representation and Compression: Compression

Principles, Source Encoders and destination decoders, Lossless and

Lossy Compression, Entropy Encoding, Source Encoding, Text

Compression, Static Huffman coding, Arithmetic Coding. Image

Storage and Compression: Introduction to images, Digital image

representation, Vector Graphics and Bitmapped images, History and

advantages, Bitmap concept, Stored Images, Bitmap versus Vector

Graphics, Captured Image Format, Stored Image Format, Graphics

Interchange Format (GIF), GIF Coding Standard, Tagged Image File

Format (TIFF), Joint Photographic Experts Group (JPEG),

Image/Block Preparation, Forward DCT, Quantization, Entropy

Encoding, Frame building, JPEG decoding. Audio Representation and

Compression: Introduction to Audio Compression, Differential pulse

code modulation, Adaptive differential PCM, Adaptive Predictive

Coding, Linear Predictive Coding, Code- excited LPG, Perceptual

Coding, Sensitivity of the ear, Frequency marking, Temporal marking,

G series Voice coding standards, MPEG audio Coders. Video

Representation and Compression: Video Compression Principles,

Frame types, Motion estimation and Compression, Implementation

Issues, Performance, Characteristics of Digital Video, Streaming

Video, Combining sound and Pictures, H.261 Video Compression

Standard, H.263, Digitization Formats, Motion Pictures Experts

Group (MPEG), MPEG-1, MPEG-2, MPEG-4, Audio and Video

Compression. Multimedia I/O Devices, Multimedia Storage Devices,

Multimedia Connecting Devices: Multimedia Hardware, Connecting

Devices, SCSI, MCI, IDE, USB. Multimedia Application Design:

Multimedia Application classes, Types of Multimedia System, Virtual

Reality Design, Components of Multimedia System, Organizing

Multimedia Databases, Application Overflow design Issue.

Multimedia Interactive Applications: Video Conferencing, Video On

demand, Educational applications and authoring, Industrial

applications, Multimedia archives and digital libraries. Distributed

Multimedia Systems.

Text Books:

1. Ralf Steinmetz and Klara Nahrstedt, Multimedia: Computing,

Communications & Applications , Pearson Ed.

2. Nalin K. Sharda, Multimedia Information System , PHI.

Reference Books:

1. Fred Halsall, Multimedia Communications, Pearson Ed.

2. Koegel Buford, Multimedia Systems, Pearson Ed.

3. Fred Hoffstetter, Multimedia Literacy, McGraw Hill.

4. Ralf Steinmetz and Klara Nahrstedt, Multimedia Fundamentals:

Vol. 1- Media Coding and Content Processing, PHI.

5. J. Jeffcoate, Multimedia in Practice: Technology and

Application, PHI.

6. Prabhat K. Andleigh & Kiran Thakrar, Multimedia Systems

Design, PHI.

Course Code: CSL457

Course Title: CONCEPTS IN BLOCKCHAINING

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents: Basics: Distributed Database, Two General

Problem, Byzantine General problem and Fault Tolerance, Hadoop

Distributed File System, Distributed Hash Table, ASIC resistance,

Turing Complete. Cryptography: Hash functions, Digital Signature-

ECDSA, Memory Hard Algorithm, Zero Knowledge Proof. Blockchain:

Introduction, History, Advantage over conventional distributed

database, Blockchain Network, Mining Mechanism, Distributed

Consensus, Merkle Patricia Tree, Gas Limit, Transactions and Fee,

Anonymity, Reward, Chain Policy, Life of Blockchain application,

Soft & Hard Fork, Private and Public blockchain. Distributed

Consensus: Nakamoto consensus, Proof of Work, Proof of Stake,

Proof of Burn, Difficulty Level, Sybil Attack, Energy utilization and

alternate. Cryptocurrency: History, Distributed Ledger, Bitcoin

protocols - Mining strategy and rewards, Ethereum - Construction,

DAO, Smart Contract, GHOST, Vulnerability, Attacks, Sidechain,

Namecoin. Cryptocurrency Regulation: Stakeholders, Roots of

Bitcoin, Legal Aspects – Cryptocurrency Exchange, Black Market and

Global Economy

Blockchain Applications: Internet of Things, Medical Record

Management System, Smart contracts, future of Blockchain etc. The

use cases from different application domains.

Text Books:

1. Arvind Narayanan, Joseph Bonneau, Edward Felten, Andrew

Miller and Steven Goldfeder. Bitcoin and Cryptocurrency

Technologies: A Comprehensive Introduction, Princeton

University Press, 2016.

2. Roger Wattenhofer, The Science of the Blockchain, 2016.

3. Don Tapscott, Alex Tapscott. Blockchain Revolution: How the

Technology Behind Bitcoin and Other Cryptocurrencies is

Changing the World, 2018.

4. Melanie Swan. Blockchain: Blueprint for a New Economy,

2015.

Course Code: CSL458

Course Title: CYBER FORENSIC

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents: Introduction to computer and cyber forensics

basics like Benefits of forensics, computer crimes, computer

forensics evidence and courts, legal concerns and private issues.

Types of cybercrime and cyber laws, Understanding Computing

Investigations – Procedure for corporate High-Tech investigations,

understanding data recovery work station and software, conducting

and investigations. Data and Evidence Recovery, Deleted file

recovery, recovery Tools, Forensics Tools.

Data acquisition- understanding storage formats and digital evidence,

determining the best acquisition method, acquisition tools, validating

data acquisitions, performing RAID data acquisitions, remote

network acquisition tools, other forensics acquisitions tools.

Introduction to IT laws and Cyber Crimes, Security Attacks, Digital

Evidence collection, preservation and investigation. Current computer

forensics tools- software, hardware tools, Incidence response,

validating and testing forensic software, addressing data-hiding

techniques, performing remote acquisitions, E-Mail investigations-

investigating email crime and violations, understanding E-Mail

servers, specialized E-Mail forensics tool.

Processing crimes and incident scenes, securing a computer incident

or crime, seizing digital evidence at scene, storing digital evidence,

obtaining digital hash, reviewing case. Methodologies of forensics:

Case Studies.

Text Books:

1. Warren G. Kruse II and Jay G. Heiser, ―Computer Forensics:

Incident Response Essentials‖, Addison Wesley, 2002.

2. Nelson, B, Phillips, A, Enfinger, F, Stuart, C., ―Guide to

Computer Forensics and Investigations, 2nd ed., Thomson

Course Technology, 2006, ISBN: 0-619-21706-5.

Reference Book:

1. Vacca, J, Computer Forensics, Computer Crime Scene

Investigation, 2nd Ed, Charles River Media, 2005, ISBN: 1-

58450-389.

Course Code: CSL459

Course Title: SYSTEM PROGRAMMING

Structure (L-T-P): 3-0-0

Pre-requisites: CSL251, CSL258

Contents: Assembler, Macro processor - Concept of

assembler, design of single pass and two pass assembler, forward

reference, design of output file of assembler, concept of macro,

macro call within macro, macro definition within macro, recursive

macro calls, design of macro processor.

Linker and Loader - Concept of static and dynamic relocation,

external symbols, design of linker, design of object file for different

loading schemes.

Common Object file format - Structure of object file and executable

file, section or segment headers, symbol table, concept of storage

class.

System utilities –Shell programming, make, link editor, symbolic

debugger, pattern matching language like awk.

Device Drivers - Incorporation of driver routines, Basic device driver

operation, character and block drivers.

Text Books:

1. Beck, L.L. and Manjula, D., System Software: An Introduction

to Systems Programming, 3rd ed., Pearson Education, 2013.

2. Gorsline, G.W, Assembly and Assemblers: The Motorola

MC68000 Family, Prentice Hall, 1988.

Reference Books:

1. Dhamdhere, D.M., Systems Programming, Tata McGraw Hill

Education, 2011.

2. Kernighan, B.W. and Pike, R.,The Unix programming

Environment, Prentice Hall of India, 1993.

3. Egan, J.I. and Teixeira, T.J., Writing a UNIXDevice Driver, 2nd

ed., John Wiley and Sons, 1992.

4. Norton, D.A., Writing Windows Device Drivers, Addison Wesley,

1996.

5. Pajari, G., Writing UNIX Device Drivers, Pearson Education,

1995.

6. UNIX System Utilities Manual.

Course Code: CSL460

Course Title: FUNDAMENTAL ALGORITHMS IN

COMPUTATIONAL BIOLOGY

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents: DNA and Sequence Alignment – KMP-

algorithm, BLAST and FASTA, Sorting by Reversals, Biological

Databases – formats, downloading and using data, Phylogeny –

Distance based algorithms (Hamming /Euclidian distance), Suffix

Trees, Prediction of RNA secondary structure, Gene Prediction using

Bayesian Methods and Markov Chains/HMMs, Modeling-Based on

Cellular Automata, Based on Agent Based Modeling Techniques,

Based on Partial Differential Equations, Single Nucleotide

Polymorphism and algorithms for their identification, Microarray

Data and Clustering – Hierarchical/K-Means, Pathway Data and their

analysis, Protein Folding and Docking based on Entropy Calculation.

Text Books:

1. Ellner, S. P. and Guckenheimer, J., Dynamic Models in Biology,

New Age International, 2010.

2. Murray, J. D., Mathematical Biology: An Introduction, 3rd ed.,

Springer, 2002.

Reference Book:

1. Mandoiu, I.and Zelikovsky, A., Bioinformatics Algorithms:

Techniques and Applications. Wiley Series on Bioinformatics:

Computational Techniques and Engineering, John Wiley &

Sons, 2008.

B. Tech. (Electrical and Electronics Engineering)

OVERALL CREDIT STRUCTURE

Undergraduate Core (UC)

Undergraduate Elective (UE)

Category

Credit

Category

Credit

23 (minimum)

06 (minimum)

18 (Balance)

0 (03 Courses)

Total

113

Total

Grand Total (UC + UE)

160

Departmental Core (DC)

Course

Code

Course

L-T-P

Credit

EEL251

Basic Electrical Circuits

3-0-0

EEP251

Basic Electrical Circuits Lab

0-0-2

EEL252

Measurement & Instrumentation

3-0-0

EEP252

Measurement & Instrumentation Lab

0-0-2

EEL253

Electrical Machines I

3-0-0

EEP253

Electrical Machines I Lab

0-0-2

EEL254

Control System

3-0-0

EEP254

Control System Lab

0-0-2

EEL255

Power Electronics

3-0-0

EEL256

Power System I

3-0-0

ECL251

Signals and Systems

3-2-0

ECL252

Analog Circuits

3-0-0

ECP252

Analog Circuit Lab

0-0-2

ECL254

Engineering Electromagnetics

3-0-0

ECL256

Digital Circuits

3-0-0

ECP256

Digital Circuits Lab

0-0-2

EEL351

Electrical Machines II

3-0-0

EEP351

Electrical Machines II Lab

0-0-2

EEL352

Electric Drives

3-0-0

EEP352

Electric Drives Lab

0-0-2

EEL353

Power System II

3-0-0

EEL354

Advanced Power Electronics

3-0-0

EEP354

Power Electronics Lab

0-0-2

EEL355

Switchgear & Protection

3-0-0

EEP355

Switchgear & Protection Lab

0-0-2

ECL351

Linear Integrated Circuits

3-0-0

ECP351

Linear Integrated Circuits Lab

0-0-2

ECL353

Microcontroller & Interfacing

3-0-0

ECP353

Microcontroller & Interfacing Lab

0-0-2

EED 351

Minor Project

EED 451

Major Project

Departmental Elective (DE)

Course

Code

Course L-T-P

Credit

EEL 451

Computer Control and Automation of Power

Systems

3-0-0

EEL 452

Discrete Data and Digital Control

3-2-0

EEL 453

Power Plant Engineering

3-0-0

EEL 454

HVDC

3-0-0

EEL 455

Power System Economics and Management

3-0-0

EEL 456

System Engineering

3-2-0

EEL 457

Pulse Width Modulation for Power

Converters

3-0-0

EEL 458

Soft Computing Techniques

3-0-0

EEL 459

Commissioning and Testing of Electrical

Systems

3-0-0

EEL 460

Control System Design

3-2-0

EEL 461

Electrical Energy System

3-0-0

EEL 462

Electrical Distribution System

3-0-0

EEL 463

High Voltage Engineering

3-0-0

EEL 464

Power Quality Issues & Solutions

3-0-0

EEL 465

Electrical Engineering Material

3-0-0

EEL 466

Power System Operation and Control

3-0-0

EEP 467

Soft Computing Techniques Lab

0-0-2

ECL352

Digital Signal Processing

3-0-0

ECP352

Digital Signal Processing Lab

0-0-2

ECL469

Hardware Description Language

3-0-0

ECP469

Hardware Description Language Lab

0-0-2

SCL452

Linear Algebra

3-0-0

SCL453

Probability Theory & Statistics

3-0-0

MEL461

Robotics

3-0-0

MEP461

Robotics Lab

0-0-2

CSL253

Object Oriented Design

3-0-0

CSL251

Data Structures

3-0-0

CSP251

Data Structures Lab

0-0-2

CSL359

Neuro-Fuzzy Techniques

3-0-0

Basic Science (BS)

Course

Code

Course

L-T-P

Credit

SCL152

Applied Mathematics-I

3-2-0

SCL153

Applied Mathematics-II

3-2-0

SCL251

Applied Mathematics-III*

3-0-0

SCL154

Applied Physics

3-0-0

SCP154

Applied Physics Lab

0-0-2

SCL155

Applied Chemistry

3-0-0

SCP155

Applied Chemistry Lab

0-0-2

Total

Humanities and Management (Core) (HM)

Course

Code

Course

L-T-P

Credit

HMP152

Technical Communication

2-0-2

HML151

Social Science

2-0-0

Total

Non Credit Requirement (UN)

Course

Code

Course

L-T-P

Credit

NCN151

NCC#

NCN152

NSS#

NCN153

NSO#

SPB151

Sports-I#

0-0-4

SPB152

Sports-II#

0-0-4

HMD251

Community Project

EET251

Practical Training

#A student has to opt at least one from NCC, NSS, NSO and

Sports (I & II both).

Engineering Arts and Science (ES)

Course

Code

Course

L-T-P

Credit

MEL152

Elementary Mechanical Engineering

3-0-0

EEL151

Elementary Electrical Engineering

3-0-0

EEP151

Elementary Electrical Engineering

Lab

0-0-2

MEL151

Basic Electronics Engineering

3-0-0

MEP151

Basic Electronics Engineering Lab

0-0-2

MEL151

Engineering Drawing

3-0-0

MEP151

Engineering Drawing Lab

0-0-2

CSL151

Computer Programming and

Problem Solving

3-0-0

CSP151

Computer Programming Lab

0-0-2

MEP152

Mechanical Workshop

0-0-2

CEL151

Environmental Science

2-0-0

Total

Course Syllabi (Under Graduate)

Department of Electrical Engineering

Course Code: EEL151

Course Title: ELEMENTARY ELECTRICAL ENGINEERING

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents: Electrical circuit, circuit elements resistance,

inductance & capacitance, Kirchhoff‘s laws, voltage source & current

source, superposition theorem, Thevenin‘s theorem, norton‘s theorem,

duality, star-delta transformation. DC Transients

AC circuits, periodic function, average & r.m.s. values, steady state

behavior with sinusoidal excitation, phase representation, reactance &

impedance, power and power factor, series & parallel circuit, resonance

and quality factor, principle of generation of single phase & three phase

voltages, power in balanced three phase ac system.

Power systems: elementary idea about bulk power generation, long

distance transmission and distribution, industrial and residential

distribution, safety & legal standards.

Magnetic circuit, flux, mmf, reluctance, analogy with electric circuits.

Simple calculations for composite magnetic circuits. Magnetic Coupling

Coefficient

Measurement of electrical current, voltage and energy in ac & dc

systems.

Transformer: introduction, basic principles, construction, phasor

diagram for transformer under no load condition, transformer on load,

balance of mmf on both sides, phasor diagram, equivalent circuit, open

circuit & short circuit test.

Electric Machines:

1. DC shunt and series motor – construction, principle of working and

applications, need of starters, torque and speed control.

2. Induction motors – construction, principle of working of single phase

and 3-phase motors, torque-slip characteristics.

Text Books:

1. Hughes, E., Electrical and Electronics Technology, 10

ed.,

Pearson Education, 2013.

2. Toro,V.D., Electrical Engineering Fundamentals, 2

ed., Prentice

Hall of India, 2012.

Reference Books:

1. Kothari D.P., Nagrath I.J, Theory and Problems of Basic Electrical

Engineering, Prentice Hall India 2011.

2. Kulshreshtha, D.C., Basic Electrical Engineering, Tata McGraw Hill,

2013.

Course Code: EEL251

Course Title: BASIC ELECTRICAL CIRCUITS

Structure (L-T-P): 3-0-0

Prerequisite: EEL151

Contents: Classification of elements of an electrical circuit,

Resistors, Inductors, Capacitors, Controlled sources, Diodes and ideal

transformers. Basic circuit analysis methods nodal, Mesh and modified

nodal-analysis. Transient analysis of RL, RC and RLC circuits.

Network theorems: Tellegen‘s theorem, Superposition theorem,

Thevenin theorem, Norton theorem, Substitution theorem, Reciprocity

theorem, Maximum power transfer theorem, Network analysis methods,

Poly-phase circuits. Circuits transformers, Laplace transforms and their

adaptation to networks. Two port networks, Two-port parameters,

Interconnection of two ports and their effect on the parameters.

Tellegen‘s generalized reciprocity theorem, Multiport and multiterminal

networks, their representations and interconnections.

Graphs: paths, connectedness, circuits, cutsets, trees, matrix

representation of directed graphs, incidence, cutset and circuit matrices,

methods of analysis of linear networks, nodal, cutset, mesh and loop

analysis.

Trigonometric and exponential Fourier series, discrete spectra and

symmetry of waveform, steady state response of a network to non-

sinusoidal periodic inputs, power factor, effective values, Fourier

transform and continuous spectra, three phase unbalance circuit and

power calculation. Frequency domain approaches to electrical networks.

Driving points and transfer functions poles and zeros of immittance

function, their properties, sinusoidal response from pole-zero locations,

convolution theorem and integral solutions. Pole-zero concept, network

synthesis: Hurwitz polynomial, Properties of Hurwitz polynomial,

Positive real functions and their properties, Concepts of network

synthesis, Realization of simple R-L, R-C and L-C functions in Cauer-I,

Cauer-II, Foster-I and Foster-II forms.

Elements of Filter Theory: introduction, classification of filters,

introduction of windows, butter worth filter challenge filter equation of

ideal filter, image parameters and characteristics impedance, passive

and active filter of various filter, low pass, high pass, constant K type, M

derived filters and their design.

Transmission line parameters and performance, operation for maximum

power transfer, characteristic impedance.

Text Books:

1. Hayt, W.H. and Kemmerley, J.E. and Durbin, S.N., Engineering

Circuit Analysis, 7th ed., McGraw Hill, 2013.

2. Valkenburg, M. E. Van, Network Analysis, 3rd ed. Prentice Hall

India, 2011.

3. Hayt, W.H. and Kemmerley, J.E. and Durbin, S.N., Engineering

Circuit Analysis, 7

ed., McGraw Hill, 2013.

4. M. E. Van Valkenburg: Network Analysis, 3rd ed., Prentice Hall of

India.

5. Choudhury, D.R., Networks and Systems, 2

ed., New Age

Publication, 2014.

Reference Books:

1. Murthy, K.V.V.and Kamath M.S, Basic Circuit Analysis, 8th ed.,

Jaico Publishing House, 2010.

2. Choudhury, D.R., Networks and Systems, 2nd ed., New Age

Publication, 2014.

3. Chua , L.O., Desoer, C.A. and Kuh, E.S., Linear and Nonlinear

Circuits, McGraw Hill, 1991

4. Murthy, K.V.V. and Kamath M.S, Basic Circuit Analysis, 8

ed.,

Jaico Publishing House, 2010.

Course Code: EEL252

Course Title: MEASUREMENT & INSTRUMENTATION

Structure (L-T-P): 3-0-0

Prerequisite: EEL151, EEL 251

Contents: Classification of measuring instruments,

comparison of analog and digital instruments, advantages of digital

instruments, classification of analog instruments, absolute and

secondary instruments, indicating type, recording type and integrating

type instruments, loading effect of instruments.

Measurement of resistance: classification, measurement of low

resistance by Kelvins‘ double bridge, measurement of medium

resistance by voltmeter-ammeter method, Wheatstone bridge.

Measurement of high resistance by Ohmmeter, Megger and loss of

charge method, general theory of AC bridges, study of Maxwell, Hay‘s,

Owen‘s, De Sauty‘s, Wien and Schering bridges, detectors for AC

bridges.

Principles and use of D.C. potentiometer for calibration purposes,

principle and applications of A.C. potentiometer. ammeter, voltmeter,

principles of moving coil, moving iron and dynamometer type

instruments, extension of range using series and shunts, error due to

extension of range, digital voltmeter : types of DVM, integrating type

DVM. Oscilloscope, working principle and its operations. Measurement

of active and reactive power in polyphase circuits using dynamometer

type instruments, measurement of energy in single and polyphase

circuits using induction type instruments. Errors in power and energy

measurements, class of accuracy, maximum demand indicator, trivector

meter.

General theory of extension of range using CT and PT, errors in

instrument transformers, applications of instrument transformers.

Special instruments: power factor meter, frequency meter,

synchroscope, rectifier type instrument, measurement of non-electrical

quantities, digital frequency meter.

Text Books:

1. Sawhney, A.K., A Course in Electrical and Electronics

Measurements and Instrumentation, Dhanpat Rai and Sons, 2013

2. E.W. Golding & F.C. Widdis, ―Electrical Measurement and

Measuring Instruments‖, A.W. Wheeler and Co.Pvt. Ltd. India.

Reference Book:

1. E.O. Doebelin and D. N. Manik, ―Measurement systems application

and design‖, TMH, New Delhi.

2. Cooper, W.D. and Helfrick, A.D.,Modern Electronic Instrumentation

and Measurement Techniques, 3

ed., PHI Learning Private

Limited, 2012.

Course Code: EEL253

Course Title: ELECTRICAL MACHINES-I

Structure (L-T-P): 3-0-0

Prerequisite: EEL151

Contents: Transformer: Single phase transformer : Phasor

diagram for transformer for different loading conditions, equivalent

circuit, open circuit & short circuit test , Back to back Test. Voltage

regulation, efficiency calculation, parallel operation of transformer, Auto

transformer, conversion of two winding transformer to auto transformer.

Three Phase Transformer: Connection and phasor groups, effect of

phase sequence, inrush current & harmonics, tertiary winding, open

delta connection, Scott connection, Applications.

Basic of Rotating Machines: Rotating magnetic field, Induced EMF,

Torque developed

DC Machines: Concept of induced emf, Armature winding and field

winding, mmf of armature and field winding. Armature reaction, its bad

effects and steps to limit the effects of armature reaction, Staring of

Motor

DC Motor: Basic principle and operation, classification, torque, power,

losses and efficiency, characteristics. Speed control of DC motor,

Braking.

DC Generator: Emf equation, shunt and compound generator, losses

and efficiency , characteristics & Applications.

Text Books:

1. Fitzgerald, A.E., Kingsley, C. and Umans, S.D., Electric

Machinery,6th ed., Tata McGraw Hill, 2014

2. Bhimbhra, P.S., Electrical Machinery, Khanna Publishers, Delhi,

2003.

3. Nagrath, I. J. and Kothari, D. P., Electric Machines, Tata McGraw

Hill, 2006.

Reference Books:

1. Bhattacharya, S.K., Electrical Machines, 3rd ed., McGraw Hill

Education (India) Private Limited, 2013.

Course Code: EEL256

Course Title: POWER SYSTEM-I

Structure (L-T-P): 3-2-0

Prerequisite: EEL151, EEL251

Contents: Power system introduction: Introduction,

comparison of AC and DC systems, overhead versus underground

systems, choice of working voltages for transmission and distribution,

cost comparison of overhead and underground systems, Classification of

Voltage levels, Introduction to HVDC & basic configuration.

Power factor improvement: Necessity of power factor improvement,

techniques for power factor improvement, Synchronous condenser,

economics

Line parameters: Inductance and Capacitance, skin effect, proximity

effect, Graphical method for performance of overhead transmission line.

Transmission line modeling: Characterization of transmission line on

basis of length, modeling of long, short and medium transmission line,

ABCD parameters. Derivation for voltage drop and power loss in lines

efficiency of short, medium and long transmission lines, Surge

impedance, SIL.

Mechanical design: Sag and tention calculation in hilly and plain

area, Sag and tension calculation with wind and ice effect. Line support,

types of conductors; Overhead line insulators, types of insulator spin,

suspension and strain insulators, insulator materials, insulator string;

Voltage regulation: Calculation of voltage distribution and string

efficiency, methods of equalizing voltages, use of guard rings, sag

calculation, factors affecting sag. power-loss calculations, Manual

methods of solution for radial networks,

Corona: Corona formation, factors affecting corona, calculation of

potential gradient, disruptive critical voltage and visual critical voltage,

corona power loss, minimizing corona, merits and demerits of corona,

skin effect.

Travelling Waves: Introduction and mechanism of traveling waves, wave

equation, characteristic impedance of a line, incident and reflected

waves, transmission and refraction of waves, velocity of traveling waves,

behavior of traveling waves for different terminations: inductor,

capacitor, open-end, short-end and over the junction of dissimilar lines,

attenuation of traveling waves, lattice diagrams.

Surge Performance and Protection: Switching surges, origin and

mechanism of lightening strokes, direct and induced strokes, protection

from surges- lightning arrestors (rod gap, horn gap, multigap and

expulsion type) and surge diverters, evaluation of surge impedance,

energy and power of a surge.

Introduction to cables: Introduction, sheath, amour and covering,

Classification of cables, Grading of cables, Underground HVDC cables.

Text Books:

1. Nagrath, I. J. andKothari, D.P., Power System Engineering, 2

ed., Tata McGraw Hill Publications, 2013.

2. C.L Wadhwa, Electrical Power Systems, 6th ed., New Age

international publications.

Reference Books:

1. Elgerd, O.I., Electric Energy Systems Theory: An Introduction, 2

ed., Tata Mc-Graw Hill Education, 2012.

2. Saadat, H., Power System Analysis, 3

ed., PSA Publishing, 2010.

3. Grainger, J.J., Stevenson, W.D., Power System Analysis, 22

ed.,

McGraw Hill Education (India) Private Limited, New Delhi, 2014.

Course Code: EEL254

Course Title: CONTROL SYSTEM

Structure (L-T-P): 3-0-0

Prerequisite: EEL151, EEL251

Contents: Introduction to need for automation and automatic

control. Use of feedback, broad spectrum of system application.

Mathematical modeling, differential equations, transfer functions, block

diagram, signal flow graphs, application to elementary system

simplifications, effect of feedback on parameter variation, disturbance

signal servomechanisms and regulators.

Control system components, electrical, electromechanical, and other

components. Their functional analysis and input output representation.

Controllability and Observability.

Time response of first order and second order system, standard inputs,

concept of gain and time constants. Steady state error, type of control

system, approximate methods for higher order system.

Root location and its effect on time response, elementary idea of root

locus, effect of adding pole and zero and proximity of imaginary axis.

Stability of control systems, conditions of stability characteristic

equation, Routh-Hurwitz criterion, special cases for determining relative

stability.

Frequency response method of analyzing linear system, Nyquist and

Bode plots, stability and accuracy analysis from frequency responses,

open loop and close loop frequency response. Nyquist criterion, effect of

variation of gain and addition of pole and zero on response plot, stability

margins in frequency response.

State variable method of analysis, characteristic of system, state, choice

of state representation of vector matrix differential equation standard

form, relation between transfer function and state variable.

Text Books:

1. Ogata, K., Modern Control Engineering, 5

ed., Prentice Hall of

India, 2012.

2. Nagrath, I.J. and Gopal, M., Control System Engineering, 5

ed.,

New Age International, 2012.

3. Kuo, B.C. and Golnaraghi F., Automatic Control Systems, 8

ed.,

Wiley India, 2011.

4. Abbas Emami-Naeini J. Da Powell Gene F. Franklin, Feedback

Control of Dynamic Systems, Global Edition 7th Edition.

Reference Books:

1. Dorf R. C. and Bishop R. H., Modern Control Systems, 12

ed.,

Pearson Education, 2013.

2. D‘Azzo J. J., Houpis, C.H. and Sheldon, S.N., Linear Control

System Analysis and Design with MATLAB, 6

ed., CRC Press,

2014.

3. Nise, N.S., Control Systems Engineering, 6

ed., Wiley, 2013.

4. Gopal, M., Control Systems: Principles and Design, 3

ed., Tata

McGraw Hill Education, 2010.

Course Code: EEL255

Course Title: POWER ELECTRONICS

Structure (L-T-P): 3-0-0

Prerequisite: EEL151, EEL251

Contents: Power semiconductors devices and switching

circuits: SCR and its characteristics, SCR ratings ,series and parallel

operations of SCRs, Triggering circuits, commutating circuits, protection

of SCR. Gate circuit protection, over voltage and over current

protection, snubber circuit design, converter circuit faults and their

protection, Uni-Junction Transistor (UJT), Self Commutating Device:

characteristics and working of MOSFET. Gate turn off thyristor and

insulated gate bipolar transistor.

AC to DC Converters: working of single pulse and two pulse converters.

Three pulse midpoint converter and 3 phase six pulse bridge converter.

Effect of source inductance in converters. Effect of freewheeling diode.

Speed control of DC motor using converter.

DC to DC Converters: Classification, principles of step down chopper

and step up chopper, Buck, Boost, Buck-Boost converter and

application to low power circuits.

DC to AC Converters: Single phase and three phase bridge inverters,

output voltage control, harmonics in output voltage waveform,

harmonics attenuation by filters. Harmonic reduction by pulse width

modulation techniques, analysis for single pulse width modulation,

working of current source inverters, applications of inverters.

AC to AC Converters: Operation & analysis of single phase integral cycle

and phase controlled converters, configuration of three phase

controllers, Cycloconverters: Single phase and three phase

configurations and operating principle, AC voltage controller Introduction

of matrix converter.

Text Books:

1. Mohan, Ned, Undeland, T.M. and Robbins, W.P., Power

Electronics, 3

ed., Wiley India, 2014

2. Rashid, M.H., Power Electronics: Circuits Devices & Applications,

3rd ed., Pearson Education, 2012.

3. Joseph Vithayathil, Power Electronics: Principles and Applications,

Tata McGraw-Hill Education.

Reference Books:

1. Singh, M.D. and Khanchandani K.B., Power Electronics, 2nd ed.,

Tata McGraw Hill Education, 2012.

2. Bose, B.K., Modern Power Electronics and AC Drives, PHI Learning,

New Delhi, 2012.

3. Lander, C.W., Power Electronics, 3rd ed., McGraw Hill, 1993.

4. Bimbhra, P.S., Power Electronics, Khanna Publishers, 2012.

5. Dubey, G.K., Fundamentals of Electrical Drives, 2nd ed., Narosa

Publication, 2013.

Course Code: EEL352

Course Title: ELECTRIC DRIVES

Structure (L-T-P): 3-0-2

Prerequisite: EEL253, EEL255

Contents: Definitions, classification and speed torque

characteristics of common industrial loads & drive motors and their

characteristics under starting, running, braking and speed control.

Introduction:

Review of power converters used in drives, multi-quadrant operation of

electric drive, example of hoist operation in four quadrant.

DC Drives:

Single-phase half controlled and fully controlled converter fed dc motor

drives, operation of dc drives with continuous armature current, voltage

and current waveforms; Concept of energy utilization and effect of free-

wheeling diode;

Operation of drive under discontinuous current, expression for speed-

torque characteristic.

Chopper fed DC Drives:

Principle of operation and control techniques, chopper circuit

configurations used in dc drives: Type A, B, C, D and E; Motoring

operation of chopper fed separately excited dc motor, steady state

analysis of drive with time-ratio control.

Closed Loop Control of DC Drives:

Drives with current limit control, single-quadrant closed loop drive with

inner current control loop, advantage of inner current control loop in

drives.

AC Drives:

Variable voltage, rotor resistance and slip power recovery control of

induction motors, torque-speed characteristics under different control

schemes; Variable frequency control of induction motor, analysis of

induction machine under constant V/f operation, constant flux operation

and controlled current operation.

Estimation of Drive Motor Rating:

Selection of motor power capacity for continuous duty at constant load

and variable loads; Selection of motor capacity for short time and

intermittent periodic

duty, permissible frequency of starting of squirrel cage motor for

different duty cycles.

Text Books:

1. Dubey, G.K., Fundamentals of Electrical Drives, 2

ed., Narosa

Publication, 2013.

2. Partab H., Modern Electrical Traction; Dhanpat Rai and Co. Pvt. Ltd,

2014.

3. J. M. D. Murphy & F. G. Turnbull, ―Power Electric Control of AC

Motors‖, Pergamon Press.

Reference Books:

1. Subrahmanyam, V., Electric Drives: Concepts and Applications, 2

ed., Tata McGraw Hill Education, New Delhi, 2011.

2. Soni, M.L., Gupta, P.V. and Bhatnagar, U.S., A Course in Electrical

Power, Dhanpat Rai & Sons, New Delhi, 1987

3. Bimal K. Bose, ―Power Electronics and Variable Frequency Drives:

Technology and Applications‖.

Course Code: EEL353

Course Title: POWER SYSTEM-II

Structure (L-T-P): 3-0-0

Prerequisite: EEL151, EEL251, EEL256

Contents: General concept: Introduction of bus matrix, Ybus

formulation, Tap changing transformer formulation in Ybus, Zbus

formulation, Single line representation, per unit calculations of

parameters.

Load Flow Analysis: Formation of static load flow equations, solution of

decoupled load flow problem by Gauss-Seidel, Newton-Rapson (polar

and rectangular) and fast decoupled techniques

Stability of Power system: Introduction, dynamics of synchronous

machine, swing equation, swing equation for multi machine system,

power angle equation, steady state stability studies.

Transient stability analysis: Swing curve, Swing equations solutions

using Runga Kutta method (4

order). Equal area criteria, for transient

stability, application of equal area for different disturbance, solution of

swing equation point by point methods.

Power System Control: Elementary idea of single area load-frequency

control, automatic generation control, Necessity of keeping frequency

control, Block diagram representation of an isolated power system,

steady state analysis, dynamic response

Voltage control: Equipment for voltage control, Effect of series

capacitors, Effect of AVB/AVR, Line drop compensation.

Active power and frequency control: fundamentals of speed governing,

control of generating unit power output, composite regulating

characteristics of power systems, response rates of turbine governing

systems, fundamental of automatic generation control, Implementation

of AGC, underfrequency load shedding.

Reactive power and voltage control: Production and absorption of

reactive power, method of voltage control,shunt reactors, shunt

capacitors, series capacitors, synchronous condensers, static Var

system, principle of transmission system compensation, Modelling of

reactive compensating devices, Application of tap changing transformers

to transmission systems, ULTC control system.

Text Books:

1. Grainger, J.J., Stevenson, W.D., Power System Analysis, 22

ed.,

McGraw Hill Education (India) Private Limited, New Delhi, 2014.

2. Nagrath, I. J. andKothari, D.P., Power System Engineering, 2

ed., Tata McGraw Hill Publications, 2013.

Reference Books:

1. Elgerd, O.I., Electric Energy Systems Theory: An Introduction, 2

ed., Tata Mc-Graw Hill Education, 2012.

2. Saadat, H., Power System Analysis, 3

ed., PSA Publishing, 2010.

Course Code: EEL355

Course Title: SWITCHGEAR AND PROTECTION

Structure (L-T-P): 3-0-0

Prerequisite: EEL256, EEL253, EEL351

Contents: Faults in Power Supply System: Symmetrical

component transformation. Classification of faults, Three phase power

in unbalanced circuit in terms of symmetrical component. Sequence

impedance of generator. Transformer transmission line & passive loads.

Symmetrical fault analysis without & with prefault load currents.

Selection of circuit breakers ratings, current limiting reactors.

Unsymmetrical fault analysis L-G, L-L-G-, L-L, open conductors fault

using symmetrical components.

General philosophy of protective relaying: protective zones. Primary

protection, back up protection, remote and local back up. Medium

voltage line protection: overcurrent relay, directional over current relays.

High voltage line protection: Distance relays, carrier distance schemes.

Unit carrier schemes.

Equipment protection: principles of differential relaying, protection of

generator, transformers and busbars by differential relaying and other

relays. Phase shift in Y/delta three phase transformer (Yd1, Yd11

connection). Protection of induction motor‘s against overload, short-

circuits, thermal release, miniature circuit breaker.

Introduction to numerical relays: Comparison of static and electro-

mechanical relays, two input amplitude and phase comparators and

their duality. Generation of various distance relay characteristics using

above comparators.

Switchgear: circuit breakers, arc interruption theory, recovery and

restriking voltages, RRRV, breaking of inductive and capacitive current,

different media of arc interruption, SF6 and vacuum breakers.

Introduction to Gas Insulated Switchgear and Substation

Text Books:

1. Ram, B. and Vishwakarma, D.N. Power System Protection &

Switchgear, 2

ed., Tata McGraw Hill, 2013.

2. Paithankar, Y.G. and Bhide, S.R., Fundamentals of Power System

Protection, 2

ed., PHI Learning, 2013

Reference Books:

1. Elmore, W.A, Protective Relaying Theory and Applications, 2

ed.,

MarcelDekker, New York, 2004.

2. Mason, C.R., Art and Science of Protective Relaying, Wiley, New

York, 1968.

3. Warrington, A.R.V., Protective Relays: Their Theory and Practice

(Vol. I & Vol. II), 3

ed., Chapman and Hall, London, 1978.

Course Code: EEL354

Course Title: ADVANCED POWER ELECTRONICS

Structure (L-T-P): 3-2-0

Prerequisite: EEL255

Contents: The ideal switch; basic switch cell; basic topology

rules; possible basic converter topologies: buck, boost, buck-boost;

steady-state analysis; dc transformer equivalent.

Switch characteristics of common switches: Power Diodes, SCRs, Power

BJTs, GTOs, Power MOSFETs, IGBTs; conduction and switching loss; V-

I plane representation of switches; switch realization from basic switch

cell; drive requirements for switches; drive circuits; switching aid

networks; designing with real switches: switch selection, loss

calculation, basics of thermal design.

Effect of non-idealities on converter performance, efficiency, steady-state

voltage gain; state space averaging; basics of small signal analysis; ac

equivalent circuit.

Control of converters; voltage mode control; review of bode plots; design

of converter controls.

Resonant Converters; Parallel loaded and series loaded resonant

converters; transfer characteristics; design.

Inverters; basic two-level inverters: topology derivation and switching

schemes; PWM methods: sine-triangle and space-phasor methods.

Multi-level inverters: basic topology derivation and introduction to PWM

schemes for multi-level inverters.

Text Books:

1. Mohan, Ned, Undeland, T.M. and Robbins, W.P., Power

Electronics, 3

ed., Wiley India, 2014.

2. Vithayathil, J., Power Electronics: Principles and Applications, Tata

Mc Graw Hill, 2013.

Reference Books:

1. Ericksson, R., and Maksimovic D., Fundamentals of Power

Electronics, 2

ed., Springer, 2013.

Course Code: EEL351

Course Title: ELECTRICAL MACHINES-II

Structure (L-T-P): 3-0-0

Prerequisite: EEL151, EEL253

Contents: Three Phase Induction Motor: principle and

operation, types of motors, Three phase speed control of induction

motor (V/f control etc.) load torque-speed characteristics, determination

of equivalent circuit parameter, circle diagram of induction motor ,

starting against load, star delta starter, soft starting faults on motor ,

single phasing & protection. Different types of slots of machines (open,

closed, semi closed), Crawling, Cogging, Induction Generator,

Three phase Alternator: constructional features of cylindrical and salient

pole rotor machines, steady state operation of three phase synchronous

generators, phasor diagram, regulation & efficiency, parallel operation,

transient & sub transient reactance‘s and their measurement, short

circuit fault currents. Effects of variable excitation and mechanical

power input on generator operation.

Three phase Synchronous Motor: methods of starting, performance and

leading power factor operation due to effect of variable excitation and

load on motor operation. Study of both cylindrical and salient pole

alternator, phasor diagram at various power factor, V curve, capability

characteristics etc.

Single phase machines: Induction Motor: principle, equivalent circuit,

characteristics, double field revolving theory, staring methods, Repulsion

motor, Reluctance motor, Hysteresis motor, Universal motor, Stepper

motor.

Text Books:

1. Fitzgerald, A.E., Kingsley, C. and Umans, S.D., Electric

Machinery,6th ed., Tata McGraw Hill, 2014

2. Bhimbhra, P.S., Electrical Machinery, Khanna Publishers, Delhi,

2003.

3. Nagrath, I. J. and Kothari, D. P., Electric Machines, Tata McGraw

Hill, 2006.

Reference Books:

1. A.S. Langsdorf: Theory of Alternating Current Machinery, Tata Mc-

Graw Hill.

2. I.J. Nagrath, D.P. Kothari: Electrical Machines, Tata McGraw Hill.

3. M. G. Say: The Performance and Design of Alternating Current

Machines, III Edition, CBS Publishers & Distributers.

4. Toro, V.D., Electric Machines and Power Systems, Prentice Hall,

1985.

Course Code: EEL451

Course Title: COMPUTER CONTROL AND AUTOMATION OF

POWER SYSTEMS

Structure (L-T-P): 3-0-0

Prerequisite: EEL256

Contents: Energy Management Systems (EMS): Energy

Management Centers and Their Functions, Architectures, recent

Developments. Characteristics of Power Generating Units and Economic

Dispatch. Unit Commitment (Spinning Reserve, Thermal, Hydro and

Fuel Constraints); Solution techniques of Unit Commitment. Generation

Scheduling with Limited Energy. Energy Production Cost – Cost Models,

Budgeting and Planning, Practical Considerations. Interchange

Evaluation for Regional Operations, Types of Interchanges. Exchange

Costing Techniques.

Supervisory Control and Data Acquisition (SCADA): Introduction to

Supervisory Control and Data Acquisition. SCADA Functional

requirements and Components. General features, Functions and

Applications, Benefits. Configurations of SCADA, RTU (Remote Terminal

Units) Connections. Power Systems SCADA and SCADA in Power

System Automation. SCADA Communication requirements. SCADA

Communication protocols: Past Present and Future. Structure of a

SCADA Communications Protocol.

Text Books:

1. Wood, A. J., Wollenberg, B.F. and Sheble, G.B., Power Generation

Operation and Control,3rd ed.,Wiley-Interscience, 2014.

2. Green J.N, Wilson, R,Control and Automation of Electric Power

Distribution Systems,CRC Press, 2013.

3. M A Pai, Computer Techniques In Power System Analysis, Mc-Graw

Hills

4. G.W. Stagg & A.H. El-Abiad, Computer Methods In Power System

Analysis, Mc-Graw Hills

Reference Books:

1. Handschin E. and Petroianu, A., Energy Management Systems:

Operationand Control of Electric Energy Transmission Systems,

Springer Verlag, 1991.

2. Handschin, E., Real-Time Control of Electric Power Systems,

Elsevier, 1972.

3. McDonald, J.D., Electric Power Substations Engineering, 3

ed.,

CRC Press, 2012.

Course Code: EEL452

Course Title: DISCRETE DATA AND DIGITAL CONTROL

Structure (L-T-P): 3-2-0

Prerequisite: EEL254

Contents: Sampling and data reconstruction processes:

sampled, Data control systems, Ideal sampler, Sampling theorem,

Sample and hold operations, Frequency domain considerations.

Z-transforms: Properties inverse, Applications to solution of difference

equations, Convolution sums.

Stability of discrete systems: Location of poles, Jury‘s stability criterion,

Stability analysis through bilinear transforms.

General procedures for obtaining pulse Transfer functions, Pulse

Transfer function of open loop and closed loop systems, Dead beat

controller, closed loop digital control systems with time delay systems.

Design of digital control systems: PID controllers and frequency domain

compensation design.

State variable methods and the discrete linear regulator problem.

Deadbeat observer, The Separation Principle, Reduced order observer,

Root locus technique.

Text Books:

1. Ogata, K., Discrete Time Control System, 2

ed., Prentice Hall of

India, 2011.

2. Gopal, M., Digital Control Engineering and State Variable Methods:

Conventional and Intelligent Control Systems, 4

ed., Tata

McGrawHill, 2012.

Reference Books:

1. Isermann, R., Digital Control Systems, 2

ed., Springer, 1997.

2. Landau, Y.D. and Zito, G., Digital Control Systems: Design,

Identification and Implementation, Springer, 2006

Course Code: EEL453

Course Title: POWER PLANT ENGINEERING

Structure (L-T-P): 3-0-0

Prerequisite: EEL253, EEL256

Contents: Conventional Sources of electrical energy: Steam,

hydro, nuclear, diesel and gas, their scope and potentialities for energy

conversion.

Generation: Different factors connected with a generating station, load

curve, load duration curve, energy load curve, base load and peak load

plants.

Thermal stations: Selection of site, size and no. of units, general layout,

major parts, auxiliaries, generation costs of steam stations.

Hydro stations: Selection of site, mass curve, flow duration curve,

hydrograph, classification of hydro plants, types of hydro turbines,

pumped storage plants.

Nuclear stations: Main parts, location, principle of nuclear energy, types

of nuclear reactors, reactor control, nuclear waste disposal.

Power station control and interconnection: Excitation systems, excitation

control, automatic voltage regulator action, advantage of

interconnection.

Alternate energy sources: Solar, wind, geo-thermal, ocean-thermal, tidal

wave, MHD and biomass.

Text Books:

1. Deshpande, M.V., Elements of Electrical Power Station Design, 5

ed., PHI, 2013.

2. Gupta, B.R., Generation of Electrical Energy, S. Chand, New Delhi,

2013.

Reference Books:

1. Nag, P.K., Power Plant Engineering, 3

ed., Tata Mc-Graw Hill

Education, 2013.

2. Raja, A.K., Srivastava, A.P. and Dwivedi, M., Power Plant

Engineering, New Age International Private Limited, New Delhi,

2006.

Course Code: EEL454

Course Title: HVDC

Structure (L-T-P): 3-0-0

Prerequisite: EEL255

Contents: Evolution of HVDC Transmission, Comparison of

HVAC and HVDC systems, Type of HVDC Transmission systems,

Components of HVDC transmission systems, Analysis of simple rectifier

circuits, Required features of rectification circuits for HVDC

transmission, Analysis of HVDC converter, Different modes of converter

operation, Output voltage waveforms and DC voltage in rectification,

Output voltage waveforms and DC in inverter operation, Thyristor

voltages, Equivalent electrical circuit, HVDC system control

features,Control Modes, Control Schemes, Control comparisons.

Converter mal-operations, Commutation failure, Starting and shutting

down the converter bridge, Converter protection.

Smoothing reactor and DC Lines, Reactive power requirements,

Harmonic analysis, Filter design.

Component Models for the Analysis of AC DC Systems, Power flow

analysis of AC-DC systems, Transient stability analysis, Dynamic

stability analysis.

Multi-terminal HVDC system, Advances in HVDC transmission, HVDC

system application in wind power generation.

Text Books:

1. Padiyar, K.R., HVDC Power Transmission Systems, 2

ed., New

Age International, 2013.

2. Kimbark, E.W., Direct Current Transmission, Wiley-Interscience,

New York, 1971.

Reference Books:

1. Singh, S.N., Electric Power Generation, Transmission and

Distribution, 2

ed., PHI Learning, New Delhi, 2010.

2. Arrillaga, J., High Voltage Direct Current Transmission, 2

ed.,

Institution of Engineering and Technology, London, 2008.

Course Code: EEL 455

Course Title: POWER SYSTEM ECONOMICS & MANAGEMENT

Structure (L-T-P): 3-0-0

Prerequisite: EEL256

Contents: Economic Operation of Power Systems: Optimal

operation of Generators in Thermal Power Stations, Heat rate Curve,

Cost Curve, Incremental fuel and Production costs, input-output

characteristics, Optimum Generation allocation with line losses

neglected.

Optimum generation allocation including the effect of transmission line

losses – Loss Coefficients, General transmission line loss formula.

Hydrothermal Scheduling: Optimal scheduling of Hydrothermal System:

Hydroelectric Power plant models, Scheduling problems-short term

Hydrothermal scheduling problem.

Modeling of Turbine, Generator and Automatic Controllers: Modelling of

Turbine: First order Turbine, model, Block Diagram representation of

Steam Turbines and Approximate Linear Models.

Modelling of Generator (Steady State and Transient Models): Description

of Simplified Network Model of a Synchronous Machine (Classical

Model), Description of Swing Equation (No Derivation) and State-Space

II-Order Mathematical Model of Synchronous Machine.

Modelling of Governor: Mathematical Modelling of Speed Governing

System – Derivation of Small signal transfer function. Modelling of

Excitation System: Fundamental Characteristics of an Excitation system,

Ttransfer function, Block Diagram Representation of IEEE Type-1 Model

Single Area Load Frequency Control: Necessity of keeping frequency

constant. Definitions of Control area, Single area control, Block diagram

representation of an isolated power system, steady state analysis,

Dynamic response, Uncontrolled case.

Two-area load frequency control:

Load frequency control of 2-area system – uncontrolled case and

controlled case, tie-line bias control.

Load Frequency Controllers:

Proportional plus Integral control of single area and its block diagram

representation, steady state response – Load Frequency Control and

Economic, Dispatch control.

Reactive Power Control: Overview of Reactive Power control, Reactive

Power compensation in transmission systems, advantages and

disadvantages of different types of compensating equipment for

transmission systems, load compensation, Specifications of load

compensator, Uncompensated and compensated transmission lines,

shunt and Series Compensation.

Text Books:

1. Kundur P., Power System Stability and Control, EPRI Series,

McGraw-Hill, 1998.

2. Wood A. J. and Wollenberg B. F., Power Generation, Operation and

Control, second edition, Willey Publication, 2008.

Reference Books:

1. Nagrath I. J. and Kothari D. P., ―Power System Engineering‖, 2nd

edition, Tata Mc-Graw Hill Publishing Company,2008.

2. Saadat H., Power System Analysis, 1st International Edition, Tata

McGraw-Hill Publishing Company Limited, 2008

Course Code: EEL456

Course Title: SYSTEM ENGINEERING

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents: Introduction to Optimization, Generalized

Principles of System Modeling, Engineering Applications of

Optimization, Statement of problem, Classification of optimization

problem techniques.

Linear programming, introduction, Requirements for a LP Problem,

Graphical solution of 2-variable LP problems, Some exceptional cases,

General mathematical formulation for LPP, Canonical and standard

forms of LP problem, Simplex method, special cases in simplex method,

Big-M method, Concept of duality, Dual simplex method and sensitivity

analysis.

Transportation problem, Definition and mathematical representation of

transportation model, Formulation and solution of transportation models

(basic feasible solution by north-west corner method, Inspection

method, Vogell‘s approximation method).

Network models, Scope and definition of network models, Minimal

spanning tree algorithm, Shortest-route problem, Maximal flow model.

Goal programming, Formulation of goal programming, Introduction to

goal programming algorithms, The weights method, The preemptive

method.

Text Book:

1. Hamdy A. Taha, Operations Research: An Introduction, Pearson,

9th Ed., 2014.

Reference Books:

1. S. S. Rao, Engineering Optimization: Theory and Practice, 4th Ed.,

John Wiley & Sons, 2009.

2. G. Hadley, Linear Algebra, Narosa, 2002.

3. P. K. Gupta and D. S. Hira, Operations Research, S. Chand

Publications, 7th Ed., 1976.

Course Code: EEL457

Course Title: Pulse Width Modulation for Power Converters

Structure (L-T-P): 3-0-0

Prerequisite: EEL255

Contents: Introduction: Review of Voltage Source Inverters

and Multi-level Inverters.

Harmonic Distortion: Voltage and Current Distortion Factors and

Weighted THD calculation by using Fourier series for different level

Voltage Source Inverters.

Pulse width modulation (PWM) at low switching frequency: Square

wave operation of voltage source inverter; PWM with a few switching

angles per quarter cycle; equal voltage contours; selective harmonic

elimination.

Triangle-comparison based PWM: Average pole voltages, sinusoidal

modulation, third harmonic injection, continuous PWM, bus-clamping or

discontinuous PWM; Extensions of sine-triangle PWM to multilevel

inverters.

Space Vector Based PWM: Space vector concept and transformation,

per-phase methods from a space vector perspective, space vector based

modulation, conventional space vector PWM, bus-clamping PWM,

advanced PWM, triangle-comparison approach versus space vector

approach to PWM, Extensions of space vector based PWM to multilevel

inverters.

Inverter loss: Evaluation of conduction loss, Dependence of switching

loss on power factor and modulation method, PWM techniques for

reduced switching loss.

Effect of inverter dead-time: Effect of dead-time with continuous

modulation, Effect of dead-time with discontinuous or bus-clamping

PWM.

Text books:

1. Mohan N., Underland T.M., Robbins W.P., ―Power Electronics –

Converters, Applications and Design‖, John Wiley & Sons Inc.,

2004.

2. Erickson R. W., Maksimovic D., ―Fundamentals of Power

Electronics‖, Springer (India) Pvt. Ltd., 2005.

3. Rashid M. H., ―Power Electronics: Circuits, Devices and

Applications‖, Third Edition, Pearson, 2009.

Reference books:

1. Choi Byungcho, ―Pulsewidth Modulated DC to DC Power

Conversion: Circuits, Dynamics and Control Designs‖, IEEE Press,

John Wiley & Sons, Inc., 2013.

2. Holmes D.G., Lipo T.A., ―Pulse Width Modulator for Power

Converters – Principles and Practice‖, IEEE Press, John Wiley &

Sons, Inc., 2003.

Course Code: EEL458

Course Title: SOFT COMPUTING TECHNIQUES

Structure (L-T-P): 3-0-0

Prerequisite: SCL152, SCL153

Contents: Introduction, brief history of artificial intelligence,

comparison with deterministic methods, aims, objectives of artificial

intelligence and current state of the art.

Expert systems: introduction to knowledge based systems structure and

definitions knowledge acquisition inference engine, forward and

backward chaining.

Fuzzy logic: introduction to concepts, fuzzy reasoning, defuzzification,

adaptive fuzzy systems.

Artificial neural networks: basic concepts, introduction to various

paradigms, learning in neural networks, back-propagation, multi-layer

networks,

Evolutionary computing (Genetic algorithms): basic concepts, Genetic

algorithms and variants,

Differential evolution, Particle swarm optimization (PSO) and variants,

Bacterial foraging optimization (BFO), Ant colony optimization -

travelling salesman problem, cat swarm optimization.

Applications of AI in Electrical Engineering like condition monitoring,

protective relaying etc.

Text Books:

1. Zurada, J.M., Introduction to Artificial Neural Systems, Jaico

Publication House, 2006.

2. Haykin, S.S., Neural Networks and Learning Machines, 3rd ed., PHI

Learning, 2013.

3. Lotfi A. Zadeh (Advances in Fuzzy Systems: Application and

Theory) First Edition,

Reference Books:

1. Deb, K., Multi-Objective Optimization Using Evolutionary

Algorithms, John Wiley and Sons, 2009.

2. Hagan, M.T., Demuth, H.B. and Beale, M.H., Neural Network

Design, Vikas Publishing House, New Delhi, 2004.

3. S. Rajasekaran and G. A. Vijayalakshmi Pai, Neural Networks,

Fuzzy Systems and Evolutionary Algorithms: Synthesis and

Applications Paperback – Import, 8 May 2017

4. Lefteri H. Tsoukalas, Robert E. Uhrig, Lotfi A. Zadeh, Fuzzy And

Neural Approaches in Engineering.

Course Code: EEL459

Course Title: COMMISSIONING AND TESTING OF

ELECTRICAL SYSTEMS

Structure (L-T-P): 3-0-0

Prerequisite: EEL151, EEL253, EEL351

Contents: Installation of Electrical Equipment: Inspection of

Electrical Equipment at site, Storage Electrical Equipment at site,

Foundation of Electrical Equipment at site, Alignment of Electrical

Machines, Tools/Instruments necessary for installation, Technical report,

Inspection, storage and handling of transformer, switchgear and motors.

Testing of Transformer, Plant and Equipment:

General Requirements for Type, Routine and Special Tests,

Measurement of winding resistance; Measurement of voltage ratio and

check of voltage vector relationship; Measurement of impedance

voltage/short-circuit impedance and load loss; Measurement of no-load

loss and current; Measurement of insulation resistance; Dielectric tests;

Temperature-rise, insulation and HV test, dielectric absorption,

switching impulse test. Testing of Current Transformer and Voltage

Transformer, power transformer, distribution transformer, CVT and

special transformer with reference to Indian Standard (IS). Drying out

procedure for transformer. PI index, Commissioning steps for

transformer, Troubleshooting &

Maintenance of transformer. [Ref: IS 2026:Part_1-10- Power

Transformers: Methods of Test; IS 13956:1994Testing Transformers]

Installation and Commissioning of Rotating Electrical Machines:

Degree of protection, cooling system, degree of cooling with IP- IC code

(brief discussion), enclosures, rating of industrial rotating electric

machine, installation, commissioning and protection of induction motor

and rotating electric machine, drying out of electric rotating machine,

insulation resistance measurement, site testing and checking, care,

services and maintenance of motors, commissioning of synchronous

generator, protection and automation of synchronous generator,

synchronous motor, D.C. generator and motor with reference to Indian

Standard (IS). [Ref: IS 4029:2010-Guide for Testing Three Phase

Induction Motors; IS 7132:1973-Guide for Testing Synchronous

Machines; IS 9320:1979-Guide for Testing of Direct Current (dc)

Machines]

Transmission line:

Commissioning of A.C transmission line and HVDC transmission,

galvanize steel structure, towers and insulator for transmission and

distribution line, tower footing resistance, substation equipment, bus bar

system, power cable, low power control cable, Contactor, GIS (gas

insulated substation).

SWITCH GEAR & PROTECTIVE DEVICES

Standards, Classification, specification, rating and duties of CB,

installation, commissioning tests, maintenance schedule, type &

routine tests. Operation of s/s (steps) for line Circuit breaker

maintenance. Location of lightening arrester with reasons

Text books:

1. S. Rao, Testing Commissioning Operation & Maintenance of

Electrical Equipments , 6th Ed , Khanna Publishers Delhi, 2010.

2. P. Gill, Electrical Power Equipment Maintenance and Testing, 2nd

Ed., CRC Press (Taylor & Francis Group), 2009.

Reference Books:

1. T. Singh, Installation commissioning & Maintenance of Electrical

Equipments, S. K. Kataria and Sons, New Delhi, 2013.

2. P. Kiameh, Electrical Equipment Handbook: Troubleshooting &

Maintenance, 1st Ed., McGraw-Hill Companies, Inc, 2003.

Course Code: EEL460

Course Title: CONTROL SYSTEM DESIGN

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents: Introduction to design: state-space models,

performance measures like ISE, ITAE, quadratic indices, controllability

and observability. Linear Quadratic Regulator (LQR), performance index,

optimal control law, algebraic riccati equation, frequency-domain

interpretation. Linear Quadratic Gaussian (LQG): statistical descriptions

of noise, Kalman filter, stability margins. H design, uncertainty

descriptions, robustness measures, formulation for control-synthesis,

riccati equation, and model-order reduction. Case studies, inverted

pendulum, missile guidance, process control. Software based design of

industrial controllers.

Text Books:

1. Dorf, R.C., Modern Control System, 11

ed., Pearson Education,

2013.

2. Nise, N., Control System Engineering, 6

ed., John Wiley & Sons,

2013.

Reference Books:

1. Anderson, B.D.O. and Moore, J.B., Optimal Control: Linear

Quadratic

Methods, Dover Publications, 2007

2. Friedland, B., Control System Design: An Introduction to State-

Space

Methods, Dover Publications, 2012

3. Doyle, J.C., Francis, B.A. and Tannenbaum, A.R., Feedback Control

Theory, Dover Publications, 2009.

Course Code: EEL461

Course Title: ELECTRICAL ENERGY SYSTEM

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents: Introduction, Fossil fuel based systems, Impact of

fossil fuel based systems, Non-conventional energy, seasonal variations

and availability, Renewable energy, sources and features, Hybrid energy

systems, distributed energy systems and dispersed generation (DG)

Solar thermal systems: Solar radiation spectrum, Radiation

measurement, Technologies, Applications, Heating, Cooling, Drying,

Distillation, Power generation.

Solar Photovoltaic systems: Operating principle, Photovoltaic cell

concepts, Cell, module, array, Series and parallel connections,

Maximum power point tracking, Applications, Battery charging,

Pumping, Lighting, Peltier cooling.

Microhydel: Operating principle, Components of a microhydel power

plant, Types and characteristics of turbines, Selection and modification,

Load balancing.

Wind: Wind patterns and wind data, Site selection, Types of wind mills,

Characteristics of wind generators, Load matching.

Hybrid Systems: Need for Hybrid Systems, Range and type of Hybrid

systems, Case studies of Diesel-PV, Wind-PV, Microhydel-PV, electric

and hybrid electric vehicles.

Tariffs and cost of energy under regulated and de-regulated

environment, Energy audit and its methodologies.

Text Books:

1. Rai, G.D., Non-Conventional Energy Sources, 5

ed., New Age

International, 2013.

2. Ramesh, R., Renewable Energy Technologies: Ocean Thermal

Energy Conversion and other Sustainable Energy Options, Narosa,

New Delhi, 1997.

Reference Book:

1. Vanek, F.M., Albright, L.D. and Angenent, L.T., Energy Systems

Engineering: Evaluation and Implementation, 2

ed., Tata

McGraw Hill, 2012.

Course Code: 462

Course Title: ELECTRICAL DISTRIBUTION SYSTEM

Structure (L-T-P): 3-0-0

Prerequisite: EEL256

Contents: General concepts: Introduction to distribution

systems, Load modeling and characteristics. Coincidence factor,

Contribution factor loss factor-relationship between the load factor and

loss factor. Classification of loads (Residential, Commercial, Agricultural

and industrial) and their characteristics.

Distribution feeders: Design consideration of distribution feeders: Radial

and loop types of primary feeders, Voltage levels, Feeder loading; Basic

design practice of the secondary distribution system. Substations:

location of substation, Rating of distribution substation, Service area

within primary feeders. Benefits derived through optimal location of

substations.

Underground Cables :Introduction, Insulation, Sheath, Armour and

Covering, Classification of Cables, Pressurized Cables, Effective

Conductor Resistance, Conductor Inductive Reactance, Parameters of

Single Core Cables, Grading of Cables, Capacitance of Three Core Belted

Cable, Breakdown of Cables, Cable Installation, Current Rating of

Cables, System Operating Problems with Underground Cables, HVDC

Cables.

System Analysis: Voltage drop and power-loss calculations, Derivation

for voltage drop and power loss in lines, Manual methods of solution for

radial networks, Three phase balanced primary lines.

Protection: Objectives of distribution system protection, Types of

common faults and procedure for fault calculations. Protective devices:

Principle of operation off uses, Circuit re-closures, Line sectionalizes,

and Circuit breakers.

Coordination: Coordination of protective devices: General coordination

procedure. Compensation for power factor improvement, Capacitive

compensation for power-factor control. Different types of power

capacitors, Shunt and series capacitors, Effect of shunt capacitors (fixed

and switched), Power factor correction, Capacitor allocation-economic

justification, Procedure to determine the best capacitor location.

Voltage control: Equipment for voltage control, Effect of series

capacitors, Effect of AVB/AVR, Line drop compensation.

Text Books:

1. Gonen, T., Electric Power Distribution System Engineering, 3

ed.,

CRC Press 2014.

2. Pabla, A.S., Electric Power Distribution, 6

ed., Tata McGraw Hill,

2012.

Reference Books:

1. Sivanagaraju, S. and Sankar, V., Electrical Power Distribution and

Automation, Dhanpat Rai & Co, 2006.

2. Kamaraju, V., Electrical Power Distribution Systems, Tata McGraw

Hill Education, New Delhi, 2011.

Course Code: EEL463

Course Title: HIGH VOLTAGE ENGINEERING

Structure (L-T-P): 3-0-0

Prerequisite: EEL256, EEL353

Contents: Levels of high voltage, votage levels, electrical

insulation and dielectrics, importance of electric field intensity in the

dielectrics, types of electric fields and degree of uniformity of fields,

utilization of dielectric properties and stress control.

Properties of atmospheric air, SF6 and vacuum, relate dionization

process, properties in vacuum, related ionization process, development

of electron Avalanche, breakdown mechanisms, Townsend's

mechanism, breakdown mechanisms, streamer mechanism, breakdown

in uniform fields (Paschen's law), breakdown of gaseous dielectrics in

weakly non-uniform and the limiting value of Î, development of PB in

extremely non-uniform fields, breakdown characteristics in air with

stable PB (corona).

Classification and properties of liquid dielectrics, classification and

properties of solid dielectrics, classification and properties of liquid

dielectrics, classification and properties of solid dielectrics, insulation

resistance, conductivity and losses in dielectrics, partial breakdown

phenomenon in dielectrics, partial breakdown phenomenon on the

surfaces of solid and liquid dielectrics and degradation due to PB.

Definition and measurements of intrinsic and practical breakdown

strengths of liquid dielectrics, measurement of intrinsic breakdown in

solid dielectrics, thermal and other breakdown mechanisms in extremely

non-uniform fields, comparison of the development of breakdown in

extremely and weakly non-uniform fields and the requirement of time for

breakdown in solid dielectrics.

methods of generation of power frequency high test voltage,

transformers in cascade, resonance transformers, g generation of high

DC voltage, voltage multiplier circuits and ripple minimization, sources

of overvoltages and standard lightning and switching wave shapes,

impulse voltage generator, analysis of single stage circuit, multistage

impulse generator and their triggering methods.

Peak high voltage measurement techniques, sphere gap, construction,

effects of earthed objects and atmospheric conditions, electrostatic

voltmeters, principle and construction.

Potential dividers, their types and applications.

Measurable properties of dielectrics, measurement of dielectric

properties with Schering bridge and Mega ohm meter, partial breakdown

(PB), measurement techniques in dielectrics/ equipment. Over voltages

and basic insulation level design systems.

Text Book:

1. Naidu, M. S. and Kamaraju, V., High Voltage Engineering, 4th

edition, Tata McGraw-Hill, New Delhi, 2008.

Reference Books:

1. Kuffel J., Kuffel E., and Zaengl W. S., High Voltage Engineering

fundamentals, 2nd edition, Newness (Oxford, Boston), 2000.

2. Abdel-salam M., Anis H. and, Abdel-salamani, High Voltage

Engineering: Theory and Practice, 2nd edition, CRC Press, 2001.

3. Ray S., An introduction to High Voltage Engineering, Prentice Hall,

New Delhi, India, 2004

Course Code: EEL464

Course Title: POWER QUALITY ISSUES AND SOLUTION

Structure (L-T-P): 3-0-0

Prerequisite: EEL151, EEL255

Contents: Definitions of various powers, power factor and

other figures of merit under balanced, unbalanced and nonsinusoidal

conditions.

Definitions of various powers, power factor, SINGLE PHASE CIRCUITS:

Sinusoidal Voltage Source Supplying Non-linear Load Current, Non-

sinusoidal Voltage Source Supplying Non-linear Loads.

THREE PHASE CIRCUITS: POWER DEFINITIONS AND VARIOUS

COMPONENTS: Three-phase Sinusoidal Balanced System,

Instantaneous Active and Reactive Powers for Three-phase Circuits:

Three-Phase Balance System, Three-Phase Unbalance System, Three-

phase Non-sinusoidal Balanced System, Unbalanced and Non-

sinusoidal Three-phase System

FUNDAMENTAL THEORY OF LOAD COMPENSATION, Phase Balancing

and Power Factor Correction of Unbalanced Loads, A Generalized

Approach for Load Compensation using Symmetrical Components ,

CONTROL THEORIES FOR LOAD COMPENSATION

Harmonics: voltage and current harmonics distortions, harmonics of

single-phase power supplies, effects of harmonics distortion, system

response characteristics, locating sources of harmonics, peripherals for

controlling harmonics, devices for filtering harmonics distortion,

harmonics study procedure, symmetrical components, modeling

harmonics sources, harmonic filter design, telecommunication

interferences, computer tools for harmonic analysis.

Voltage Sag, Compensators to mitigate power quality related Problems,

series and shunt compensation, Description of static VAR compensators

(SVC), Detailed modeling, analysis and design aspects of custom power

devices (DSTATCOM, DVR).

Text Books:

1. Kennedy, B.W., Power Quality Primer, Mc-Graw Hill, 2000.

2. Dugan, R.C. and et.al., Electrical Power Systems Quality, 3rd ed.,

Tata McGraw Hill, 2012.

Reference Book:

1. Kazibwe, W.E. and Sendaula, M.H., Electric Power Quality Control

Techniques, Van Nostrand Reinhold, 1993.

Course Code: EEL 465

Course Title: ELECTRICAL ENGINEERING MATERIAL

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents: Introduction to engineering materials, crystal

structures and defects, ceramic materials, dielectric properties of

insulators in static fields, dielectric properties of insulators in alternating

field, insulating materials and their applications, Dielectric breakdown,

magnetic materials – basics, properties and applications, ferrites, ferro-

magnetic materials and components; basics of solid state physics,

conductors, Photo-conductivity, optical properties of materials, Basics of

Nano materials and Superconductors

Text books:

1. S.P.Seth, ―A Course in Electrical Engineering Materials‖, Dhanpat

Rai Publications, 3rd edition, 2011.

2. N Alagappan, N Kumar, ―Electrical Engineering Materials‖, Tata

McGraw Hill, 2017

Reference Book:

1. A.J.Dekker, ―Electrical Engineering Materials‖, Prentice-Hall Of India

Pvt Ltd , 2011.

Course Code: EEL466

Course Title: POWER SYSTEM OPERATION AND CONTROL

Structure (L-T-P): 3-2-0

Prerequisite: EEL256, EEL353

Contents: Economic Operation of Power Systems: Optimal

operation of Generators in Thermal Power Stations, Heat rate curve,

Cost curve, Incremental fuel and production costs, input-output

characteristics, Optimum Generation allocation with line losses

neglected.

Optimum generation allocation including the effect of transmission line

losses, Loss coefficients, General transmission line loss formula.

Hydrothermal Scheduling: Optimal scheduling of Hydrothermal System:

Hydroelectric Power Plant models, scheduling problems-short term

Hydrothermal scheduling problem.

Unit commitment, constraints in unit commitment, Solution methods:

priority list method, Mixed Integer Linear Programming, Dynamic

programming method and Lagrange relaxation methods.

Introduction to Single Area load frequency control

Two area load frequency control: Load frequency control of 2 area

system-uncontrolled case and controlled case, tie line bias control.

Load frequency controllers: Proportional plus Integral control of single

area and its block diagram representation, steady state response-Load

frequency control and Economic dispatch control.

Optimal power flow formulation, gradient and Newton method, linear

programming methods.

Reactive power control: Overview of reactive power control, Reactive

power compensation in transmission systems, advantages and

disadvantages of different types of compensating equipment for

transmission systems, load compensation, Specifications of load

compensator, Uncompensated and compensated transmission lines,

shunt and series compensation.

Text Books:

1. Wood. A. J. and Wollenberg B. F., Power Generation, Operation and

Control, 3

edition, Willey Publication, 2014.

2. P.S.R. Murty, Operation and control in power systems, 2

edition,

BS Publications, 2009.

Reference Books:

1. Kundur P., Power System Stability and Control, EPRI Series,

McGraw- Hill, 1998.

2. D. P. Kothari and I. J. Nagrath, Modern Power System Analysis,

edition, Mc-GrawHill Education, 2011.

B.Tech (Electronics and Communication Engineering)

OVERALL CREDIT STRUCTURE

Undergraduate Core (UG)

Undergraduate Elective (UE)

Category

Credit

Category

Credit

23 (minimum)

06 (minimum)

18 (Balance)

00 (03 Course)

Total

113

Total

Grand Total (UC+UE)

160

Basic Science (BS)

Course

Code

Course

L-T-P

Credit

SCL152

Applied Mathematics-I

3-2-0

SCL153

Applied Mathematics-II

3-2-0

SCL253

Probability & Numerical Methods*

3-0-0

SCL154

Applied Physics

3-0-0

SCP154

Applied Physics Lab

0-0-2

SCL155

Applied Chemistry

3-0-0

SCP155

Applied Chemistry Lab

0-0-2

Total

Humanities and Management (Core) (HM)

Course

Code

Course

L-T-P

Credit

HMP152

Technical Communication

2-0-2

HML151

Social Science

2-0-0

Total

Engineering Arts and Science (ES)

Course

Code

Course

L-T-P

Credit

MEL152

Elementary Mechanical Engineering

3-0-0

EEL151

Elementary Electrical Engineering

3-0-0

EEP151

Elementary Electrical Engineering

Lab

0-0-2

ECL151

Basic Electronics Engineering

3-0-0

ECP151

Basic Electronics Engineering Lab

0-0-2

MEL151

Engineering Drawing

3-0-0

MEP151

Engineering Drawing Lab

3-0-0

CSL151

Computer Programming and

Problem Solving

3-0-0

CSP151

Computer Programming Lab

0-0-2

MEP152

Mechanical Workshop

0-0-2

CEL151

Environmental Science

2-0-0

Total

Non Credit Requirement (UN)

Course

Code

Course L-T-P

Credit

NCN151

NCC#

NCN152

NSS#

NCN153

NSO#

SPB151

Sports-I#

0-0-4

SPB152

Sports-II#

0-0-4

HMD251

Community Project

ECT251

Practical Training

# A Student has opt at least one from NCC, NSS, NSO and

Sports (I&II both).

Departmental Core (DC)

L-T-P

Credit

ECL251

Signals and Systems*

3-2-0

ECL252

Analog Circuits*

3-0-0

ECP252

Analog Circuits Lab*

0-0-2

ECL253

Analog Communication Systems*

3-0-0

ECP253

Analog Communication Systems Lab*

0-0-2

EEL251

Basic Electrical Circuits*

3-0-0

EEP251

Basic Electrical Circuits Lab*

0-0-2

EEL252

Measurement & Instrumentation**

3-0-0

EEP252

Measurement & Instrumentation Lab**

0-0-2

EEL254

Control System**

3-0-0

EEP254

Control System Lab **

0-0-2

ECL254

Engineering Electromagnetics*

3-0-0

ECL255

Solid State Devices

3-0-0

ECL256

Digital Circuits*

3-0-0

ECP256

Digital Circuits Lab*

0-0-2

ECL351

Linear Integrated Circuits***

3-0-0

ECP351

Linear Integrated Circuits Lab***

0-0-2

ECL352

Digital Signal Processing***

3-0-0

ECP352

Digital Signal Processing Lab***

0-0-2

ECL353

Microcontroller and Interfacing**

3-0-0

ECP353

Microcontroller and Interfacing Lab**

0-0-2

ECL354

Antenna Theory**

3-0-0

ECL355

Digital Communication Systems***

3-0-0

ECP355

Digital Communication Systems Lab***

0-0-2

ECL356

Microwave Theory and Techniques***

3-0-0

ECP356

Microwave Theory and Techniques Lab***

0-0-2

ECL357

Information Theory & Coding***

3-0-0

CSL251

Data Structures **

3-0-0

CSP251

Data Structures Lab

0-0-2

ECD351

Minor Project

ECD451

Major Project

Department Elective (DE)

L-T-P

Credit

ECL461

Wireless Communications

3-0-0

ECP461

Wireless Communications Lab

0-0-2

ECL462

Electronic System Design

3-0-0

ECP462

Electronic System Design Lab

0-0-2

ECL463

Optical Communication Systems

3-0-0

ECL464

Radar Systems

3-0-0

ECL465

Satellite Communication Systems

3-0-0

ECL466

Finite Automata

3-0-0

ECL467

Radio Frequency and Microwave

Engineering

3-0-0

ECL468

Embedded System Design

3-0-0

ECP468

Embedded System Design Lab

0-0-2

ECL469

Hardware Description Languages

3-0-0

ECP469

Hardware Description Languages Lab

0-0-2

ECL562

Principles of Biomedical Instrumentation

Design

3-0-0

CSL258

Computer Organization

3-0-0

CSP255

Computer Networks Lab

0-0-2

CSL255

Computer Networks

3-0-0

CSP256

Software Lab

0-0-2

CSL355

Artificial Intelligence

3-0-0

CSP355

Artificial Intelligence Lab

0-0-4

CSL351

Database Management Systems

3-0-0

CSP351

DBMS Lab

0-0-2

CSP353

Python Lab

0-0-2

CSL354

Information and Network Security

3-0-0

CSP452

Cloud Computing Lab

0-0-4

CSL359

Neuro-Fuzzy Techniques

3-0-0

CSL451

Real Time Systems

3-0-0

CSP451

Real Time Systems Lab

0-0-4

CSP455

Linux lab

0-0-4

CSL453

Internet of Things

3-0-0

CSP453

IoT Lab

0-0-6

CSL456

Multimedia Technologies

3-0-0

CSP355

Artificial Intelligence Lab

0-0-6

EEL255

Power Electronics

3-0-0

EEL354

Advance Power Electronics

3-0-0

EEP354

Power Electronics Lab

0-0-2

SCL354

Nanoscience and Nanotechnology

3-0-0

SCL457

Semiconductor Materials and

Optoelectronics

3-0-0

SCL458

Magnetic Materials and Devices

3-0-0

ECL502

MOS Device Physics

3-0-0

ECL503

CMOS Digital VLSI Design

3-0-0

ECP503

CMOS Digital VLSI Design Lab

0-0-2

ECL504

CMOS Analog VLSI Design

3-0-0

ECP504

CMOS Analog VLSI Design Lab

0-0-2

ECL519

VLSI/ULSI Technology

3-0-0

ECL520

Micro-electromechanical Systems

3-0-0

ECL521

Internet of Things

3-0-0

ECL542

Image Processing

3-0-0

ECP542

Image Processing Lab

0-0-2

ECL545

Human and Machine Speech

Communications

3-0-0

ECP545

Human and Machine Speech

Communications Lab

0-0-2

ECL551

Adaptive Signal Processing

3-0-0

ECL552

Introduction to Machine Learning

3-0-0

ECP552

Machine Learning Lab

0-0-2

Course Syllabi (Under Graduate)

Department of Electronics Engineering

Course Code: ECL151

Course Title: BASIC ELECTRONICS ENGINEERING

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents: Basic Semiconductor Physics: temperature

effect, intrinsic and extrinsic semiconductor, band diagram, mobility,

conductivity hall effect, Diode, Depletion layer, V-I characteristics,

ideal and practical, diode resistance, capacitance, Diode Equivalent

Circuits, Transition and Diffusion Capacitance, Zener Diodes

breakdown mechanism (Zener and avalanche).

Diode Applications: Parallel and Series Diode Configuration, Half

and Full Wave rectification, Clippers, Clampers, Zener diode as

shunt regulator, Voltage-Multiplier Circuits. Light-Emitting Diodes,

Varactor (Varicap) Diodes, Tunnel Diodes, Liquid-Crystal diodes and

displays.

Transistor Theory: Bipolar Junction Transistor, Transistor

Construction, Operation, Amplification action. Common Base,

Common Emitter, Common Collector Configuration. Amplifiers. Field

Effect Transistor: Construction and I-V Characteristics of JFETs.

Construction and I-V Characteristics of MOSFET, CS, CD, CG

amplifier and analysis of CS amplifier MOSFET (Depletion and

Enhancement) Type.

Digital Electronics: Introduction to digital electronics, Number

Systems, Conversion between various number systems, Basic Logic

gates.

Operational Amplifiers: Introduction, Differential Amplifier Circuits,

Op-Amp Basic, Practical Op-Amp Circuits (Inverting Amplifier, Non-

inverting Amplifier, Unit Follower, Summing Amplifier, Integrator,

Differentiator). Differential and Common-Mode Operation.

Fundamentals of Communication Engineering: Elements of a

Communication System, Need of modulation, electromagnetic

spectrum and typical applications, terminologies in communication

systems, Basics of signal representation and analysis, Fundamentals

of amplitude and angle modulation, modulation and demodulation

techniques.

Text Books

1. Robert L. Boylestad & Louis Nashelsky. Electronic Devices and

Circuit Theory, Tenth Edition, Pearson Education, 2013.

2. David A. Bell, Electronics Devices and Circuits, 5th Edition,

OXFORD University Press 2008.

3. George Kennedy, Electronic Communication System, Fifth

Edition, TMH Publication, 2012.

Reference Books

1. Jacob Millman, Christos C. Halkias, Satyabrata Jit, Electronics

Devices and Circuits, 3rd Edition, TMH 2008.

2. H S Kalsi, Electronics Instrumentation, Third Edition, TMH

Publication 2012.

Course Code: ECL251

Course Title: Signals and Systems

Structure (L-T-P): 3-2-0

Prerequisite: NIL

Contents:

Introduction to Signals and Systems, Signal Properties, Convolution

of Signals, System properties, Linear Shift Invariant Systems and

their Properties and representation

Introduction to Transforms, Fourier series and Fourier Transform,

Convergence of Fourier Transform, Properties of Fourier Transform.

Sampling theorem, Sampling/reconstruction of Signals, Realistic

sampling, Aliasing. Introduction to Digital Signal Processing,

Discrete Time Fourier Transform and Properties.

Introduction to Laplace Transform, Single-sided and double-sided

Laplace, Z-Transform, Region of Convergence, Properties of Laplace

and Z Transform, Inverse Laplace and Z Transforms, Rational

System Functions.

Part of tutorials will be based on MATLAB.

Text Books:

1. B. P. lathi, Oxford, Principles of Linear Systems and Signals,

Second edition, 2009.

2. Oppenheim, A.V., Willsky, A.S., and Nawab, S.H. Signals and

Systems. 2nd ed., PHI Learning Private Limited., 2012.

3. Haykin, S.S. and Veen, B.V. Signals and Systems .2

ed.

Wiley, 2013.

Reference Books:

1. Phillips, C.L., Parr, J.M., and Riskin, E.A. Signals, Systems

and Transforms.5th ed. Pearson Education, 2014.

2. Carlson, G.E. Signal and Linear System Analysis. 2nd ed.

Allied Publishers Limited, 1993.

2. Course Code: ECL252

Course Title: Analog Circuits

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents:

Introduction: Scope and applications of analog electronic circuits.

Amplifier models: Voltage amplifier, current amplifier, trans-

conductance amplifier and trans-resistance amplifier. Biasing

schemes for BJT and FET amplifiers, bias stability, various

configurations(such as CE/CS, CB/CG, CC/CD) and their features,

small signal analysis, low frequency transistor models, estimation of

volt-age gain, input resistance, output resistance etc., design

procedure for particular specifications, low frequency analysis of

multistage amplifiers.

High frequency transistor models, frequency response of single stage

and multistage amplifiers, cascade amplifier. Various classes of

operation (Class A, B, AB, C etc.), their power efficiency and

linearity issues. Feedback topologies: Voltage series, current series,

voltage shunt, current shunt, effect of feedback on gain, bandwidth

etc., calculation with practical circuits, concept of stability, gain

margin and phase margin.

Oscillators: Review of the basic concept, Barkhausen criterion, RC

oscillators (phase shift, Wien bridge etc.), LC oscillators (Hartley,

Collpits, Clapp etc.), non-sinusoidal oscillators, multivibrators.

Text Books:

1. Sedra, A.S. and Smith, K.C., Microelectronic Circuits: Theory

and Applications, 6th ed., Oxford University Press, 2013.

2. Boylestad, R.L. and Nashelsky, L., Electronic Devices and

Circuit Theory, 10th ed., Pearson Education, 2013.

Reference Books:

1. Bell, D.A., Electronic Devices and Circuits, 4

ed. Prentice

Hall of India, 2001.

2. Meade, R.L., Foundations of Electronics Circuits and Devices,

ed. Delmar Learning, 2007.

3. Horowitz, P. and Hill, W., The Art of Electronics, 3rd ed.,

Cambridge University Press, 2011.

4. Wait, J.V., Huelsman, L. P. and Korn, G.A., Introduction to

Operational Amplifier Theory and Applications, 2nd ed., Tata

McGraw Hill, 1992.

5. M]illman, J., Microelectronics, 2nd ed., Tata McGraw Hill,

New Delhi, 2003.

6. Gray, P.R.et. al., Analysis and Design of Analog Integrated

Circuits, 5th ed., John Wiley, 2010.

Course Code: ECL253

Course Title: Analog Communication Systems

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents:

Review of Signal analysis using Fourier transform, analysis of linear

time in-variant systems and basic analog ideal filters. Transmission

of signals through systems, criteria for distortion less transmission,

distortions in practical systems, power and energy of signals. Review

of random process and noise.

Amplitude modulation: Need of modulation, AM, DSB-SC, SSB-SC

and vestigial side band modulation and demodulation, AM

transmitter (broadcast and low power), FDM. Angle modulation: FM

and PM, reactance FET modulator Armstrong method, Foster-Seely

discriminator, PLL detector, Stereophonic FM, Spectrum of FM,

narrow band and wide band FM, FM transmitter (broadcast and low

power).

Radio receivers: TRF and super-heterodyne receiver, AGC, FM

receiver, sensitivity, selectivity, communication receiver and its

special features. Realization of communication systems. Noise in

analog communication systems.SNR calculations for AM, FM

systems. Analog pulse modulation: Sampling theorem, PAM, PWM,

PPM, QAM generation & Detection of these pulse modulated signals,

TDM

LAB experiments based on subject.

Text Books:

1. Haykin, S.S. and Moher, M., Introduction to Analog and

Digital Communications, 2nd ed., Wiley, 2012.

2. Lathi, B.P. and Ding, Z., Modern Digital and Analog

Communication Systems, 4th ed., Oxford University Press,

2012.

Reference Books:

1. Kennedy, G. and Davis, B., Electronic Communication

Systems, 4th ed., Tata McGraw Hill, 1999.

2. Schoenbeck, R.J., Electronic Communications: Modulation

and Transmission, 2nd ed., Prentice Hall, 1992.

3. Taub, H., Schilling, D.L. and Saha, G., Principles of

Communication Systems; 2ndedition, Tata McGraw-Hill,

2008.

Course Code: ECL254

Course Title: Engineering Electromagnetics

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents:

Review of Vector calculus. Review of basic laws of electrostatics:

Coulomb‘s law, Electric field intensity, Field of ‗n‘ point charges,

Field of line and sheet of charge. Electric flux density, Gauss‘s law

and it‘s applications. Divergence and Divergence theorem. Definition

of potential difference and potential, Potential of point charge and

system of charges. Potential gradient, Energy density in electrostatic

field.

Poisson‘s and Laplace‘s equations. Current and current density,

Continuity of current. Capacitance. Review of basic laws of magneto

statics: Biot-Savart and Amperes circuital laws and their

applications, Curl, Stoke‘s theorem. Magnetic flux density, Scalar

and Vector magnetic potential. Maxwell‘s equations in steady

electric and magnetic fields. Time varying fields and Maxwell‘s

equations.

Uniform plane waves, wave motion in free space, perfect dielectric,

lossy dielectric and good conductor, skin effect. Poynting vector and

power considerations. Reflection of uniform plane waves, Standing

ratio, boundary conditions.

Transmission lines: S-parameters, telegraphers model of

transmission line. Various terminations. Transmission line equations

and their solutions. Transmission line parameters, Characteristic

impedances, Propagation constant, Attenuation constant, Phase

constant, Waveform distortion, Distortion less transmission lines,

Loading of transmission lines, Reflection coefficient and VSWR.

Equivalent circuits of transmission lines, Transmission lines at radio

frequency. Open circuited and short circuited lines, Smith Chart,

Stub matching.

Text Books:

1. Hayt, W.H. and Buck, J.A., Engineering Electromagnetics, 7th

ed., Tata McGraw Hill, 2013.

2. Sadiku, M.N.O., Principles of Electromagnetics, 4th ed.,

Oxford University Press, 2013.

3. Shevgaonkar, R. K. Electromagnetic waves. Tata McGraw-Hill

Education, 2005.

Reference Books:

1. Jordan, E.C. and Balmain, K.G., Electromagnetic Waves and

Radiating Systems, 2nd ed., Prentice Hall of India, 2013.

2. Rao, N.N., Elements of Engineering Electromagnetics, 6th

ed., Prentice Hall of India, 2004.

3. Elgerd, O. I., Electric Energy Systems Theory: An Introduction,

2nd ed., Tata McGraw-Hill, New Delhi, 2007.

Course Code: ECL255

Course Title: Solid State Devices

Structure (L-T-P): 3-0-0

Prerequisite: Nil

Contents:

Introduction to Quantum Mechanics

Introduction: Evolution and uniqueness of Semiconductor

Technology, Equilibrium carrier concentration, Thermal Equilibrium

and wave particle duality, intrinsic semiconductor – Bond and band

models, Extrinsic semiconductor – Bond and band models

Carrier transport: Random motion Drift and diffusion

Excess carriers: Injection level, Lifetime, Direct and indirect

semiconductors

Procedure for analysing semiconductor devices, Basic equations and

approximations

P-N Junction: Device structure and fabrication, Equilibrium picture,

DC forward and reverse characteristics, Small-signal equivalent

circuit, Switching characteristics, Solar cell.

Bipolar Junction Transistor: Device structures and fabrication,

Transistor action and amplification, Common emitter DC

characteristics

MOS Junction: C-V characteristics, threshold voltage, body effect

Metal Oxide Field Effect Transistor: Device structures and

fabrication, Common source DC Characteristics, Small-signal

equivalent circuit, Differences between a MOSFET and a BJT

Junction FET and MESFET, Recent Developments, Heterojunction

FET, Heterojunction bipolar transistor

Text Books:

1. Millman, J., and Halkias, Christos C. Integrated Electronics.

Tata McGraw-Hill Education, 1991.

2. Streetman, B.G., and Banerjee, S.K. Solid state Electronics

devices. 7th ed. Pearson Education, 2014.

Reference Books:

1. Bell, David A. Electronics Devices and Circuits. 4th Ed,

Prentice Hall India, 2009.

2. Sedra, A. S., and Smith, K.C. Microelectronics Circuits. 7th

ed. Oxford University Press, 2015.

Course Code: ECL256

Course Title: Digital Circuits

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents:

Motivation for digital systems, number system and codes Set

relations, partially ordered sets and lattices. Switching algebra:

switching functions, isomorphic systems, electronic gate networks

and Boolean algebra. Minimization of switching functions, K map,

minimal functions and their properties, QM method, two level

minimization. Introduction to synchronous sequential circuits and

iterative networks, Sequential circuits – introductory example. The

finite-state model – basic definitions, Memory elements and their

excitation functions. Synthesis of synchronous sequential circuits,

Iterative networks. Decoders, multiplexers, and code converters,

adders: ripple and carry look ahead addition. Storage elements, flip-

flops and latches: D, T, J/K flip-flops, shift register, counter.

Asynchronous and synchronous design using state and excitation

tables. Mealy and Moore machines, FSM implementation. Overview

of VLSI designs process. PAL, CPLD, FPGA, ASIC structure

overview. Introduction of digital circuits using hardware description

language (HDL).

Digital circuit families DTL, TTL RTL, MOS, CMOS circuits. Basic

CMOS circuits.

Text Books:

1. Mano, M.M. and Ciletti, M.D. Digital Design: With an

Introduction to the Verilog HDL. 5th ed. Pearson Education,

2013.

2. Kohavi, Z. and Jha, N.K. Switching and Finite Automata

Theory. 3

ed. Cambridge University Press, 2013.

3. Thomas L. Floyd ,Pearson Education, Digital

Fundamentals,11

ed. , 2014

Reference Books:

1. Palnitkar, S. Verilog HDL: A guide to Digital Design and

Synthesis. 2nd ed., Pearson, 2013.

2. Brown, S.D. and Vranesic, Z.G. Fundamentals of Digital Logic

with Verilog Design. 3rd ed. McGraw-Hill, 2013

3. Bhaskar, J. VHDL Primer. 3rd ed. Prentice Hall of India, 2011.

4. Kumar, A. Anand. Fundamentals of Digital Circuits. PHI

Learning Pvt. Ltd., 2003.

Course Code: ECL351

Course Title: Linear Integrated Circuits

Structure (L-T-P): 3-0-0

Prerequisite: ECL252, ECL151

Contents:

Differential amplifier and Opamp design, configurations (FET, BJT).

DC & AC analysis, constant current bias, current mirror, cascaded

differential amplifier stages, level translator. OPAMP, inverting, non-

inverting, differential amplifier configurations, negative feedback,

voltage gain, input & output impedance, Bandwidth. Input offset

voltage, input bias and offset current, Thermal drift, CMRR, PSRR,

Frequency response. Linear applications, DC, ac amplifiers,

summing differential amplifier, instrumentation amplifier, V to I and

I to V converters, Integrator, Differentiator. First/second order low/

high/ band pass, band reject active filters, All pass filter Phase shift

oscillator, Wein bridge oscillator, Square wave and triangular

waveform generators. Nonlinear applications, Comparators, Schmitt

Trigger, Clipping and Clamping circuits, Absolute value circuits,

Peak detectors, Sample and hold circuits, Log and antilog amplifiers.

Data Converters (ADC and DAC‘s), 555 Timer, Voltage Regulator,

Phase Locked Loops (PLL).

Text Books:

1. Graeme, J.G., Tobey, G.E., and Huelsman, L.P. Operational

Amplifiers: Design and Applications. New Delhi: McGraw Hill,

1986

2. R.A. Gayakwad. Op-amps and Linear Integrated Circuits. 4th

ed., Prentice Hall of India, 2012.

Reference Books:

1. Franco, S. Design with Operational Amplifiers and Analog

Integrated Circuits. 4

ed., McGraw Hill Education, 2014.

2. Fiore, J.M. Op amps and Linear Integrated Circuits: Theory

and Application. Delmar Thomson Learning, 2001.

3. Choudhury. Roy D. Linear integrated Circuits. 2nd ed. New

Age International Publications, 2003.

Course Code: ECL352

Course Title: Digital Signal Processing

Structure (L-T-P): 3-0-0

Prerequisite: ECL251

Contents:

Discrete time signals and systems, Sampling process, Classification

of LTI, Discrete time systems, Linear convolution, Inverse systems,

Discrete Time Fourier Transform (DTFT), Discrete Fourier Transform

(DFT), theorems, DFT symmetry relations, Circular convolution,

Linear convolution using DFT, overlap add

method, overlap save method. Fast Fourier Transform (FFT)

algorithms, decimation in time and frequency domain and

algorithms, Goertzel algorithms Signal flow graph representation,

parallel and cascade form. Design of FIR digital filter using window

method, Park-McClellans method. Design of IIR digital filter,

Butterworth and Chebyshev with bilinear transformation and impulse

in-variant method.

Group delay, phase delay and effect of finite word length in FIR filter

design. Digital Signal Processors.

Lab experiments based on MATLAB and DSP processor kits.

Text Books:

1. Oppenheim, A.V. and Schafer, R.W., Discrete-Time Signal

Processing, 3rd ed., Pearson, 2013.

2. Mitra S. K., Digital Signal Processing: a Computer based

Approach, 3rd ed., Tata McGraw-Hill, 2012.

Reference Books:

1. Proakis, J.G. and Manolakis, D.G., Digital Signal Processing:

Principles, Algorithms and Applications, 4th ed., Pearson,

2011.

2. Chen, C-T, Digital Signal Processing: Spectral Computation

and Filter Design, Oxford University Press, 2001

3. Salivahanan, S. and Gnanapriya, C., Digital Signal Processing,

2nd ed., Tata McGraw Hill, 2011.

Course Code: ECL353

Course Title: Microcontroller and Interfacing

Structure (L-T-P): 3-0-0

Prerequisite: ECL256

Contents:

Von Neumann and Harvard architecture.

8085 Microprocessor: architecture, Addressing Modes Instruction

set, instruction types and formats; Instruction execution, instruction

cycles, different types of machine cycles and timing diagram.

Interrupts, Priority Interrupt controller 8259, Interfacing with 8255,

RAM, ROM, keyboard. 8086 architecture and programming.

Introduction to evolution of Microprocessor architecture.

Microprocessor v/s Microcontroller

8051 Microcontroller: architecture, Addressing Modes, Instruction

set and timing diagrams. Assembly language programming of 8051.

Lab experiments will be based on 8085 and C51 architecture.

Text Books:

1. Gaonkar, R. Microprocessor Architecture, Programming and

Applications with the 8085. 5th ed., Penram International

Publishing, 2011.

2. Mazidi, M.A. The 8051 Microcontroller And Embedded

Systems Using Assembly And C. 2

ed., Pearson Education,

2013.

Reference Books:

1. Predko, M. Programming and Customizing the 8051

Microcontroller. McGraw Hill, 1999.

2. Hall, D.V. Microprocessors & Interfacing. 3rd ed. Tata

McGraw-Hill, 2012.

Course Code: ECL354

Course Title: Antenna Theory

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents:

Fundamental Concepts: Physical concept of radiation, retarded

potentials, Hertzian dipole; Antenna parameters: Radiation pattern,

gain, directivity, effective aperture, and reciprocity; Radiation from

dipoles of arbitrary length.

Antenna Arrays: Arrays of point sources, End-fire and broadside

arrays, pattern multiplication, synthesis of binomial and Dolph-

Chebyshev arrays.

Broadband Antennas: Log-periodic and Yagi antennas, frequency

independent antennas, broadcast antennas.

Aperture and Reflector Antennas: Huygens‘ principle, radiation from

apertures in an infinite ground plane, slot and horn antennas,

parabolic reflector antennas.

Printed Antennas: Radiation from rectangular and circular patches,

feeding techniques.

Introduction to recent trends: Leaky wave antenna, SIW structures,

Vivaldi Antenna, Optical antennas, Fractal Antennas, reconfigurable

antennas.

Text Books:

1. Balanis, C.A., Antenna Theory and Design, 3rd Ed., John

Wiley & Sons. 2005

2. Kraus, J.D. and Fleisch, D.A., Electromagnetics with

Applications, McGraw-Hill. 1999.

3. Jordan, E.C. and Balmain, K.G., Electromagnetic Waves and

Radiating Systems, 2nd Ed., Prentice-Hall of India. 1993.

Reference Books:

1. Stutzman, W.L. and Thiele, H.A., Antenna Theory and Design,

2nd Ed., John Wiley & Sons. 1998

2. Elliot, R.S., Antenna Theory and Design, Revised edition, Wiley

IEEE Press. 2003

3. Garg, R., Bhartia, P., Bahl, I. and Ittipiboon, A., Microstrip

Antenna Design Handbook, Artech House. 2001

Course Code: ECL355

Course Title: Digital Communication Systems

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents:

Comparison of analog and digital communication. Advantages and

disadvantages of digital communication. Source Coding of Analog

Sources: PCM-TDM,

Delta modulation, Adaptive DM, DPCM, ADPCM. Source coding of

digital sources: Information, entropy, Shannon‘s source coding

theorem, Huffman algorithm, prefix codes .General digital

transmitter and receiver, signal constellation and geometric

interpretation of signals, performance of matched filter receiver and

correlator receiver in the presence of white noise. Threshold setting

and error probability. Baseband transmission: Line coding

fundamentals, transmission formats, spectral requirements, error

probabilities, types of noise and other impairments. Inter-symbol

interference, Nyquist‘s results for ISI, Eye pattern and adaptive

equalization. Pass-band transmission methods: Binary ASK, PSK

and FSK, Quadrature multiplexing, QPSK and QAM methods, MSK

and GMSK. Basic detection algorithms, error probability and spectral

requirements. Constellations and their applications in study of

communication channels. Error control coding: Shannon‘s channel

capacity theorem, significance of the theorem. Linear block codes

generation and decoding, hamming distance considerations, cyclic

codes and their applications, convolutional codes and viterbi

decoding algorithm.

Basics of TDMA, FDMA, OFDM.

Lab experiments based on subject.

Text Books:

1. Haykin, S.S. and Moher, M., Communication Systems, 5th

ed., John Wiley and Sons, 2012.

2. Lathi, B.P. and Ding, Z., Modern Digital and Analog

Communication Systems, 4th ed., Oxford University Press,

2012.

Reference Books:

1. Proakis, J.G. and Salehi, M., Digital Communications, 5th ed.,

McGraw Hill, 2010.

2. Taub, H., Schilling, D.L. and Saha, G., Principles of

Communication Systems, 2nd edition, Tata McGraw-Hill,

2008.

Course Code: ECL356

Course Title: Microwave Theory and Techniques

Structure (L-T-P): 3-0-0

Prerequisite: ECL254

Contents:

Transmission line theory: Lumped element circuit model, field

analysis, terminated lossless transmission line, smith chart, quarter

wave transformer, generator and load mismatches, lossy

transmission lines, transient analysis.

General solutions for TEM, TE and TM waves, parallel plate

waveguide, rectangular waveguide, circular wave guide, coaxial line,

surface waves on a ground dielectric sheet, stripline, microstripline,

transverse resonant techniques, wave velocities and dispersion.

Microwave Network analysis: Equivalent voltages and currents,

Impedance and Admittance matrices, scattering matrix, ABCD

matrix, signal flow graphs, Excitation of waveguides.

Matching with lumped elements, single stub matching, quarter wave

transformer, theory of small reflections.

Microwave resonators: series parallel resonator circuits, transmission

line resonators, rectangular and circular cavity resonators, excitation

of resonators, cavity perturbations.

Properties of power dividers and couplers, The T junction power

divider, the Wilkinson power divider, wave guide directional

couplers, the quadrature hybrid, coupled line directional couplers,

lange coupler, 180 degree hybrid.

Text Books:

1. Pozar, D.M. Microwave and RF Design of Wireless Systems.

Wiley, 2000.

2. Shevgaonkar, R.K., Electromagnetic Waves, 6th ed., Tata

McGraw-Hill, 2011.

Reference Books:

1. Jordan, E.C. and Balmain, K.G., Electromagnetic Waves and

Radiating Systems, 2nd ed., Prentice Hall of India, 2013.

2. Collin, R.E. Foundation of Microwave Engineering. 2nd ed.

Wiley India, 2012.

Course Code: ECL357

Course Title: Information Theory and Coding

Structure (L-T-P): 3-0-0

Prerequisite: SCL253

Contents:

Information Theory: Introduction- Information Measures, Entropy,

Relative Entropy, Mutual Information, Information inequalities.

Source Coding and Data compression- Asymptotic Equipartition

Property (AEP), Variable length coding, Kraft-McMillan Inequality,

Huffman Coding, Optimality of Huffman codes, Shannon-Fano-Elias

coding and Arithmetic coding. Channel Capacity and Differential

Entropy- Channel capacity and its properties, examples, jointly

typical sequences, Channel coding theorem, AEP for continuous

random variables, differential entropy and its properties, Gaussian

(AWGN) channel and capacity of AWGN channel.

Coding Theory: Linear block codes - Generator and Parity check

matrices, Error detection, Error correction, Hamming codes. Cyclic

codes- Encoding and decoding of cyclic codes, Reed Solomon codes.

Convolutional codes- Encoding, Distance properties, Viterbi

decoding, BCJR decoding. Turbo coding- Encoding, iterative

decoding of turbo codes, Performance analysis. Low density Parity

Check codes- Encoding and decoding, Belief propagation algorithm.

Text Books:

1. T.M. Cover, T.M. and J.A Thomas, Elements of Information

Theory, 2nd Edition, John Wiley & Sons, 2006.

2. Shu Lin and Daniel J. Costello, Jr. Error Control Coding, 2nd

Edition, Prentice Hall, 2004.

Reference Books:

1. Robert G. Gallager, Information Theory and Reliable

Communications, John Wiley and Sons, 1968.

2. R. B. Ash, Information Theory, Dover, 1990.

3. Todd K. Moon, Error Correction Coding, 1st Edition, Wiley-

Interscience, 2006.

4. Shu Lin and William E. Ryan, Channel Codes: Classical and

Modern, 1st Edition Cambridge University Press, 2009.

Course Code: ECL461

Course Title: Wireless Communications

Structure (L-T-P): 3-0-0

Prerequisite: ECL355

Contents:

Cellular engineering concepts; frequency reuse, frequency

management and channel assignment, handoff and handoff

strategies, trunking theory, coverage and capacity improvements,

medium access techniques, FDMA, TDMA, CDMA, SDMA.

Wireless Mobile Communication channel characterization: large

scale path loss, free space propagation model, propagation effects

such as reflection, diffraction, scattering etc. Outdoor and indoor

propagation models, ray tracing and coverage prediction. Small

scale fading effects: time-variant impulse response model, channel

correlation functions and spectral densities, coherence time,

coherence bandwidth, channel models for Rayleigh, Ricean and

Nakagami fading.

Spread Spectrum methods: basics; generation and properties of PN

sequences, DS-SS system analysis; slow and fast FH-SS system;

performance analysis.

Interference measurement and reduction, co-channel and other

interference, Diversity methods for Mobile Wireless Radio Systems,

concepts of diversity branch and signal paths, combining and

switching methods, C/N and C/I ratio improvements, average error

probability improvements.

Review, and discussion on fundamental design issues of 2/3G

systems:

GSM, GPRS, CDMA2000, UMTS, LTE

IEEE 802.11 Wireless LAN‘s system and protocol architecture,

physical layer and MAC, options like 802.11b, a g etc. and their

purpose. Bluetooth: User scenarios, layered architecture, link

management, L2CAP, SDP, IEEE 802.15

Text Books:

1. Rappaport, T.S., Wireless Communication: Principles and

Practices, 2nd ed., Pearson Education, 2013.

Reference Books:

1. Feher, K., Wireless Digital Communication, Prentice Hall of

India, 2011.

2. Proakis, J.G. and Salehi, M., Digital Communications, 5th ed.,

McGraw Hill, 2010.

3. Haykin, S., Digital Communication, Wiley India, 2012.

4. Haykin, S., Communication Systems, 5th ed., Wiley India,

2013. Schiller, J., Mobile Communication, 2nd ed., Pearson

Education, 2012

Course Code: ECL462

Course Title: Electronic System Design

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents:

Design of Power supply system: Unregulated D.C.. power supply

system with rectifiers and filters. Design of emitter follower

regulator, series regulators, overload protection circuits for

regulators. Design of SMPS: Step up and step down.

Design of class A small signal amplifiers: Emitter follower,

Darlington pair amplifiers with and without Bootstrapping, Two

stage direct coupled amplifier. Design of class A, Class AB audio

power amplifier with drivers.

Design of sinusoidal oscillators: OPAMP based Wein bridge and

Phase Shift oscillators with AGC circuits, Transistor based Hartley,

Colpits and Crystal oscillators, Evaluation of figure of merit for all

above oscillator circuits.

Design of constant current sources, Design of function generators,

Design of tuned amplifiers. Design of Butterworth, Chebyshev

filters upto sixth order with VCVS and IGMF configuration.

Text Books:

1. Regulated Power supply Handbook. Texas Instruments.

2. Electronics : BJT‘s, FETS and Microcircuits – Anielo.

3. Monograph on Electronic circuit Design : Goyal & Khetan.

Course Code: ECL463

Course Title: Optical Communication Systems

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents:

Optical Fibers: Structure, Waveguiding. Step-index and graded index

optical fibers. Modal analysis. Classification of modes. Single Mode

Fibers. Pulse dispersion. Material and waveguide dispersion.

Polarization Mode Dispersion. Absorption, scattering and bending

losses. Dispersion Shifted Fibers, Dispersion Compensating Fibers.

Optical Power Launching and Coupling: Lensing schemes for

coupling improvement. Fiber-to-fiber joints. Splicing Techniques.

Optical fiber connectors.

Optical sources and detectors: Laser fundamentals. Semiconductor

Laser basics. LEDs. PIN and Avalanche photodiodes.

Design considerations of fiber optic systems: Analog and digital

modulation. Noise in detection process. Bit error rate. Optical

receiver operation.

Power Budget and Rise time Budget. WDM. GPON, FTTH

Text Books:

1. Senior, John M. Optical Fiber Communication. 3rd ed.

Pearson Education 2009.

Reference Books:

1. Keiser, G. Optical Fiber Communications .4th ed. TMH, 2013.

2. Agrawal, G. P. Fiber Optic Communication Systems.4th ed.

Wiley, 2010

3. Ramaswami R., Sivarajan K. N. Optical Networks. 3rd ed.

Elsevier, 2010.

4. Fiber Optic Communications, Harold B Killen, Prentice hall,

1991.

5. Fiber Optics Communications, Harold B Kolimbiris, United

states Edition , Pearson Educational International.

Course Code: ECL464

Course Title: Radar Systems

Structure (L-T-P): 3-0-0

Prerequisite: ECL253

Contents:

Principles of communication, Introduction to radar systems. Basic

radar functions, classifications.

Free space radar range equation, maximum unambiguous range,

Pulse radar System, Radar Receivers- General Principles/salient

features. Radar Displays: A-scope, B-scope, E-scope, F-scope and

pulse position indicator. Resolution, spatial frequency, Fourier

transforms, sampling theorem and spectrum replication, Signal

conditioning and Interference Suppression, Imaging.Target

Detection, Scanning and tracking with radars, Doppler Effect, CW

Doppler radar, Moving Target Indicator, blind Speeds, Frequency

Modulation CW Radar,

Signal Models: Amplitude Model, Frequency Model, Clutter, noise

model and SNR, Jamming.

Text Books:

1. Skolnik, Merrill I. Introduction to Radar Systems. Tata

McGraw-Hill Education; 2007.

Reference Books:

1. Raemer, Harold R. Radar Systems Principles. CRC

Press, 1996.

2. Lynn, Paul A. Radar Systems. Springer Science & Business

Media.

Course Code: ECL465

Course Title: Satellite Communication Systems

Structure (L-T-P): 3-0-0

Prerequisite: ECL253

Contents:

Basic Principles: General features, frequency allocation for satellite

services, properties of satellite communication systems.

Satellite Orbits: Introduction, Kepler's laws, orbital dynamics, orbital

characteristics, satellite spacing and orbital capacity, angle of

elevation, eclipses, launching and positioning, satellite drift and

station keeping.

Satellite Construction (Space Segment): Introduction; attitude and

orbit control system; telemetry, tracking and command; power

systems, communication subsystems, antenna subsystem,

equipment reliability and space qualification.

Satellite Links: Introduction, general link design equation, system

noise temperature, uplink design, downlink design, complete link

design, effects of rain.

Earth Station: Introduction, earth station subsystem, different types

of earth stations.

Satellite system: GPS, remote sensing etc.

Text Books:

1. Roddy, D. Satellite Communications. 3rd ed. McGraw-Hill

International, 2001.

Reference Books:

1. Pritchard, W. L., Sciulli, J. A. Satellite Communication

Systems Engineering. 2nd ed, Prentice-Hall, Inc., 1993

2. Kolawole, M. O. Satellite Communication Engineering. Marcel

Dekker, Inc., 2002.

3. Pratt, T., Charles, W. B. Satellite Communications. 2nd ed.

John Wiley & Sons, 2002.

Course Code: ECL466

Course Title: Finite Automata

Structure (L-T-P): 3-0-0

Prerequisite: ECL256

Contents:

Brief review of combinational and sequential circuit design and

optimization, functional decomposition and symmetric functions,

identification of symmetric functions. Threshold logic, synthesis of

threshold networks. Fault detection in combinational circuits,

Boolean differences and Path sensitization. Synchronous sequential

circuits and iterative networks, memory elements and their excitation

functions, synthesis of synchronous sequential circuits, Moore and

Mealy machines, Applications to controller design, finite state

machine flow charts, tables, ASM charts. Machine minimization,

Asynchronous Sequential circuits, synthesis, state assignment,

minimization.

Text Books:

1. Kohavi, Z. and Jha, N. K. Switching and Finite Automata

Theory, 3rd ed. Cambridge University Press, 2013.

Reference Books:

1. Kohavi, Z. Switching and Finite Automata Theory, 2nd ed. Tata

McGraw Hill, 1978.

2. Taub, H. Digital Circuits and Microprocessors. McGraw Hill,

1986.

3. Mano, M.M. Digital Logic and Computer Design. Pearson,

2011.

4. Lee, S.C. Modern Switching Theory and Digital Design.

Prentice-Hall, 1978.

Course Code: ECL467

Course Title: Radio Frequency and Microwave Engineering

Structure (L-T-P): 3-0-0

Prerequisite: ECL254

Contents:

Two port RF networks-circuit representation, Reciprocal and lossless

networks, transmission matrix, Introduction to component basics,

wire, resistor, capacitor and inductor.

Scattering matrix-Concept of N port scattering matrix representation.

Microwave junctions, Tee junctions, Magic Tee, Rat race, Corners,

bends and twists, Directional couplers, two hole directional coupler,

Ferrites microwave properties and applications, Termination,

Gyrator, Isolator, Circulator, Attenuator, Phase changer, S Matrix for

microwave components, Cylindrical cavity resonators.

Microwave semiconductor devices, operation, characteristics and

application of BJTs and FETs -Principles of tunnel diodes-Varactor,

Step recovery diodes, Gunn diode-Avalanche Transit time devices-

IMPATT and TRAPATT devices. Parametric devices-Principles of

operation- applications of parametric amplifier. Microwave

monolithic integrated circuit (MMIC) - Materials and fabrication

techniques

Microwave tubes and measurements, Microwave tubes- High

frequency limitations - Principle of operation of Multi cavity Klystron,

Reflex Klystron, Traveling Wave Tube, and Magnetron. Measurement

of power, wavelength, impedance, SWR, attenuation, Q and Phase

shift.

Text Books:

1. Liao, S.Y. Microwave Devices and Circuit. 3rd ed. Pearson

Education, 2012.

2. Ludwig, R., and Bogdanov, G. RF Circuit Design: Theory and

Applications. 2nd ed. Pearson Education, 2013.

Reference Books:

1. Collin, R.E. Foundation of Microwave Engineering. 2nd ed.

Wiley India, 2012.

2. Das, A. and Das, S.K. Microwave Engineering. 2nd ed Tata

McGraw Hill, 2012.

Course Code: ECL468

Course Title: Embedded System Design

Structure (L-T-P): 3-0-0

Prerequisite: ECL256, ECL353

Contents:

Microcontroller and Embedded Processors, Overview of 8051

Microcontroller family: Architecture, basic assembly language

programming concepts, The program Counter and ROM Spaces in

the 8051, Data types, 8051 Flag Bits ad PSW Register, 8051

instructions, Call Instructions, Time delay generations and

calculations, I/O port programming Addressing Modes, accessing

memory using various addressing modes, Arithmetic instructions and

programs, Logical instructions, BCD and ASCII application

programs, Single-bit instruction programming, Reading input pins

vs. port Latch, Programming of 8051 Timers, Counter Programming.

Communication with 8051: Basics of communication, Overview of

RS-232, I

C Bus, UART, USB, 8051 connections to RS-232, 8051

serial communication programming, 8051 interrupts, Programming

of timer interrupts, Programming of External hardware interrupts,

Programming of the serial communication interrupts, interrupt

priority in the 8051

Interfacing with 8051: Interfacing an LCD to the 8051, 8051

interfacing to ADC, Sensors, Interfacing a Stepper Motor, 8051

interfacing to the keyboard, Interfacing a DAC to the 8051, 8255

Interfacing with 8031/51, 8051/31 interfacing to external memory

Text Books:

1. Raj Kamal, ―Embedded Systems‖, TMH, 2004.

2. M.A. Mazidi and J.G. Mazidi, ―The 8051 Microcontroller and

Embedded Systems‖, PHI, 2004.

Reference Books:

1. David E.Simon, ―An Embedded Software Primer‖, Pearson

Education, 1999.

2. K.J. Ayala, ―The 8051 Microcontroller‖, Penram International,

1991.

3. Dr. Rajiv Kapadia, ―8051 Microcontroller & Embedded

Systems‖, Jaico Press

4. Dr. Prasad, ―Embedded Real Time System‖

Course Code: ECL469

Course Title: Hardware Description Language

Structure (L-T-P): 3-0-0

Prerequisite: ECL256

Contents:

Modeling digital systems, Hardware design environment, Design

Flow, Hard ware description languages, Various design styles.

Introduction to Verilog, elements of Verilog, basic concepts in

Verilog, simulation, synthesis. Dataflow modeling, Concurrent signal

assignment, delays, Behavioral modeling, processes. Design

organization, Structural specification of hardware, parameterization,

hierarchy, abstraction, configurations, utilities. Subprogram,

packages, libraries, Basic I/O, Programming mechanics Synthesis,

RTL description, constraints attributes, FPGA, CPLD structure,

technology libraries. Introduction to VHDL Programming

Text Books:

1. Palnitkar, S. Verilog HDL: A guide to Digital Design and

Synthesis. 2nd ed. Pearson, 2013.

Reference Books:

1. Bhasker, J. A System Verilog Primer. 1st Indian ed. B.S.

Publication, 2013.

2. Navabi, Z. VHDL: Analysis and Modeling of Digital Systems.

2nd ed. McGraw Hill, 2000.

3. Weste, N.H.E., Harris, D., and Banerjee, A.CMOS VLSI

Design: A Circuits and Systems Perspective. 3rd ed. Pearson

Education, 2012.

4. Pucknell, D.A. and Eshraghian, K. Basic VLSI Design. 3rd ed.

PHI Learning Private Limited, 2011.

5. Brown, S.D. and Vranesic, Z.G. Fundamentals of Digital Logic

with VHDL/Verilog Design. 3rd ed. McGraw-Hill, 2009.

Course Code: ECL502

Course Title: MOS Device Physics

Structure (L-T-P): 3-0-0

Prerequisite: Nil

Contents:

MOS Capacitor: Energy band diagram of Metal-Oxide-Semiconductor

contacts, Mode of Operations: Accumulation, Depletion, Midgap,

and Inversion, 1D Electrostatics of MOS, Depletion Approximation,

Accurate Solution of Poisson‘s Equation, CV characteristics of MOS,

LFCV and HFCV, Non-idealities in MOS, oxide fixed charges,

interfacial charges, Midgap gate Electrode, Poly-Silicon contact,

Electrostatics of non-uniform substrate doping, ultrathin gate-oxide

and inversion layer quantization, quantum capacitance, MOS

parameter extraction.

Physics of MOSFET: Drift-Diffusion Approach for IV, Gradual

Channel Approximation, Sub-threshold current and slope, Body

effect, Pao & Sah Model, Detail 2D effects in MOSFET, High field

and doping dependent mobility models, High field effects and

MOSFET reliability issues (SILC, TDDB, & NBTI), Leakage

mechanisms in thin gate oxide, High-K-Metal Gate MOSFET devices

and technology issues, Intrinsic MOSFET capacitances and

resistances, Meyer model.

SOI MOSFET: FDSOI and PDSOI, 1D Electrostatics of FDSOI MOS,

VT definitions, Back gate coupling and body effect parameter, IV

characteristics of FDSOI-FET, FDSOI-sub-threshold slope, Floating

body effect, single transistor latch, ZRAM device, Bulk and SOI FET:

discussions referring to the ITRS.

Nanoscale Transistors: Diffusive, Quasi Ballistic & Ballistic

Transports, Ballistic planer and nanowire-FET modeling: semi-

classical and quantum treatments.

Advanced MOSFETs: Strain Engineered Channel materials, Mobility

in strained materials, Electrostatics of double gate, and Fin-FET

devices

Text Books:

1. Yannis Tsividis, Operation and Modeling of the MOS

Transistor, 2

ed., Oxford University Press, 2016.

2. Arora, N. MOSFET Modeling for VLSI Circuit Simulation.

World Scientific, 2007.

Reference Books:

1. Yuan Taur & Tak H. Ning, Fundamentals of Modern VLSI

Devices, Cambridge, 1998.

2. S.M. Sze & Kwok K. Ng, Physics of Semiconductor Devices,

Wiley, 2007.

3. Mark Lundstrom & Jing Guo, Nanoscale Transistors: Device

Physics, Modeling & Simulation, Springer, 2005.

Course Code: ECL503

Course Title: CMOS Digital VLSI Design

Structure (L-T-P): 3-0-0

Prerequisite: ECL256, ECL252

Contents:

Digital ICs design flow, Issues in Digital Integrated Circuit Design,

MOS Transistor basics –Static and Dynamic Behavior, Secondary

effects.

CMOS Inverter Static and Dynamic Behavior, Noise Margin, Power

Consumption and Power Delay Product, Latch up, Technology

Scaling.

Logic gates- Static CMOS Design: Complementary CMOS, Ratioed

Logic, Pass Transistor Logic. Dynamic CMOS Design: basic

principles, performance of dynamic logic, Noise consideration,

Power consumption in CMOS gates – switching activity, Glitches,

Logical Efforts, Layout.

Sequential Circuits: Bistability, CMOS static flip-flop, Pseudo static

latch, Dynamic two-phase flip-flop, C

MOS latch, NORA (no race)-

CMOS logic design style, Schmitt Trigger, Astable and monostable

circuits.

Arithmetic Building blocks: Adder, Multiplier and Shifters, ALU

Timing Issues in synchronous design Interconnect Parasitics.

Memories and array structures: ROM and RAM cells design, SRAM

cell and arrays, memory peripheral circuits.

BiCMOS Logic Circuits: Introduction, Basic BiCMOS Circuit

behavior, Switching delay in BiCMOS logic circuits.

Text Books:

1. Rabaey, J. M. Digital Integrated Circuits - A Design

perspective. 2

ed. Pearson Education, 2003.

Reference Books:

1. Martin, K. Digital integrated circuit design. Oxford University

Press, 2000.

2. Kuo, J., and Lou, J. Low voltage CMOS VLSI circuits. John

Wiley, 1999.

3. Weste, N., and Eshraghian, K. Principles of CMOS VLSI

Design - A Systems perspective. 2nd ed. Addison-Wesley,

1993.

Course Code: ECL504

Course Title: CMOS Analog VLSI Design

Structure (L-T-P): 3-0-0

Prerequisite: ECL252

Contents:

Introduction: Motivation for analog VLSI and mixed signal circuits in

CMOS technologies and issues thereof. CMOS device fundamentals:

Basic MOS models, device capacitances, parasitic resistances,

substrate models, transconductance, output resistance, fT, frequency

dependence of device parameters.

Single stage amplifiers: Common source amplifier, source

degeneration, source follower, common gate amplifier, cascade

stage. Differential Amplifiers: Basic differential pair, common mode

response, differential pair with MOS loads, Gilbert Cell, device

mismatch effects, input offset voltage.

Current Mirrors, Current and Voltage Reference: Basic current

mirrors, cascode current mirrors, active current mirrors, low current

biasing, supply insensitive biasing, temperature insensitive biasing,

impact of device mismatch.

Frequency Response of Amplifiers: Miller effect, CS amplifier, source

follower, CG amplifier, cascade stage, differential amplifier,

Multistage amplifier. Feedback: Feedback topologies, effect of load,

modeling input and output ports in feedback circuits

Operational Amplifiers: Performance parameters, One-stage and two-

stage Op Amps, gain boosting, comparison, common mode

feedback, input range, slew rate, power supply rejection, noise in Op

Amps Stability and Frequency Compensation: Multi pole systems,

phase margin, frequency compensation

Text Books:

1. Razavi, Behzad. Design of Analog CMOS Integrated Circuits.

ed. Tata McGraw Hill, 2002.

Reference Books:

1. Allen, Phillip E., and Holberg, Douglas R. CMOS Analog Circuit

Design. Oxford University Press, 2002.

2. Carusone, Tony C., Johns, David A., and Martin, Kenneth W.

Analog Integrated Circuit Design. 2

ed. John Wiley and Sons,

1997.

3. Gray, Paul, and Meyer, Robert. Analysis and Design of Analog

Integrated Circuits. John Wiley and Sons, 1993.

4. R. Jacob Baker. CMOS Circuit Design, Layout, and

Simulation. 3

ed. IEEE press Wiley, 2010.

5. Gray, P.R., Hodges, D.A., R.W. Brodersen, Eds. Analog MOS

integrated Circuits. IEEE press Wiley, 1980.

Course Code: ECL519

Course Title: VLSI/ULSI Technology

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents:

Environment for VLSI Technology: Clean room and safety

requirements. Wafer cleaning processes and wet chemical etching

techniques. Impurity incorporation: Solid State diffusion modeling

and technology, Ion Implantation modeling, technology and damage

annealing; characterization of impurity profiles.

Wafer preparation and Crystal growth of Si and GaAs (Bridgeman,

CZ and Liquid encapsulation method), Process flow of Novel MOS

based devices.

Oxidation: kinetics of silicon dioxide growth both for thick, thin and

ultrathin films. Oxidation technologies in VLSI and ULSI.

Characterization of oxide films, high k and low k dielectrics for ULSI.

Lithography: Photolithography, E-beam lithography and newer

lithography techniques for VLSI/ULSI, mask generation. Chemical

Vapour Deposition techniques: CVD techniques for deposition of

polysilicon, silicon dioxide, silicon nitride and metal films. Epitaxial

growth of silicon, modeling and technology.

Metal film deposition: Evaporation and sputtering techniques.

Failure mechanisms in metal interconnects; Multi-level metallization

schemes Plasma and Rapid Thermal Processing: PECVD, Plasma

etching and RIE techniques; RTP techniques for annealing, growth

and deposition of various films for use in ULSI. Process integration

for NMOS, CMOS and Bipolar circuits; Advanced MOS technologies.

Text Books:

1. Sze, S.M. VLSI Technology. 2

ed. Tata McGraw-Hill, 2011.

Reference Books:

1. Ghandhi, S.K. VLSI Fabrication Principles. 2nd ed. Wiley

India, 2010.

2. Plummer, James D. Silicon VLSI Technology Fundamentals:

Practice and Modeling. Pearson Education, 2009.

3. Campbell, Stephen A. The Science & Engineering of

Microelectronics Fabrication. 2nd ed. Oxford University Press,

2001.

Course Code: ECL520

Course Title: Micro Electromechanical Systems

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents:

Introduction to MEMS, MEMs devices overview. Fabrication,

Mechanical Properties.

Surface micromachining, Oxide anchored Cantilever beam, poly

anchored beams, LPCVD poly silicon deposition, doping, oxidation,

Transport in Poly Si, 2 and 3 terminal beams.

Bulk micromachining; Wet etching –isotropic and anisotropic; Etch

stop – Electrochemical etching; Dry etching; Bonding, Comparison

of bulk and Surface micromachining: LIGA; SU-8; Moulding

processes; Stiction: process, in-use, Measuring stiction, Pull-in

parallel plate capacitor, Pressure Sensor: piezo-resisitivity, Diffused

Si, Poly, porous Si.

Beams: Structure; force, moments, equation, spring constant;

Stress, pull-in, pull-out; resonance freq, etc, Accelerometer.

Quasistatic, capacitive, equivalent circuit; Analog; Tunnel; Thermal

accelerometer, Rate Gyroscope ,Biosensor and BioMEMS;

Microfluidics; Digital Microfluidics; Ink jet printer.

Optical MEMS: Displays -DMDs, LGVs, active and passive

components, RF MEMS: switches, active and passive components,

Packaging; Reliability, Scaling.

Text Books:

1. Ananthasuresh, G. K. Micro and Smart Systems. Wiley India,

2014.

Reference Books:

1. Bao, M.-H. Micro Mechanical Transducers: Pressure Sensors,

Accelerometers and Gyroscopes. 1st ed., Elsevier, 2004.

2. Kovacs, G.T.A. Micromachined Transducers Source book. Tata

McGraw Hill, 1998.

3. Senturia, S.D. Microsystem Design. Kluwer Academic

Publishers, 2005.

Course Code: ECL521

Course Title: Internet of Thing

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents:

Introduction: Overview of IoT systems, Components of an IoT

system, Sensor Node: Wearable Electronics Sensors, Calibration,

Batteries, Power supply, Microprocessors, Data communication

Sensor Node: Firmware design, Basic firmware design concepts –

Digital arithmetic, Data format, H/w resources utilization, Power

optimization, Modularization, Data/command interfaces, Clock

budgeting.

Connectivity API development using Python and Android,

Networking, IoT Data Processing, IoT data management, Python

libraries for data analysis (Pandas, scikit), Cloud computing

Text Books:

1. Arshdeep Bahga and Vijay Madisetti. Internet of Things: A

Hands-on Approach, Universities Press, 2015.

Reference Books:

1. Edward Ashford Lee and Sanjit Arun kumar Seshia.

Introduction to Embedded Systems: A Cyber-Physical Systems

Approach, 2013.

2. John Guttag. Introduction to Computation and Programming

using Python, MIT Press, 2013.

Course Code: ECL542

Course Title: Image Processing

Structure (L-T-P): 3-0-0

Prerequisite: ECL352

Contents:

Image representation, gray scale and colour images, image sampling

and quantization. Two dimensional orthogonal transforms-DFT, FFT,

WHT, Haar trans-form, KLT, DCT. Image enhancement-filters in

spatial and frequency domains, histogram-based processing,

homomorphic filtering. Edge detection-non parametric and model

based approaches, LOG filters, localisation problem. Image

Restoration-PSF, circulant and block circulant matrices,

deconvolution, restoration using inverse filtering, Wiener filtering and

maximum entropy-based methods. Mathematical morphology,

binary morphology, dilation, erosion, opening and closing, duality

relations, gray scale morphology, applications such as hit-and-miss

transform, thinning and shape decomposition. Computer

tomography parallel beam projection, Radon transform, and its

inverse, Back-projection operator, Fourier-slice theorem, CBP and

FBP methods, ART, Fan beam projection. Image communication,

JPEG, MPEGs and H.26x standards, packet video, error

concealment.

Image texture analysis, co-occurrence matrix, measures of textures,

statistical models for textures. Hough Transform, boundary

detection, chain coding, and segmentation, thresholding methods.

Text Books:

1. Jain, A. K., Fundamentals of Digital Image Processing,

Prentice Hall of India, 2012.

2. Gonzalez, R.C. and Woods, R.E., Digital Image Processing,

3rd ed., Pearson Education, 2013.

Reference Books:

1. Haralick, R.M. and Shapiro, L.G., Computer and Robot Vision,

Addison Wesley, 1993.

2. Jain, R., Kasturi, R. and Schunck, B.G., Machine Vision,

McGraw-Hill, 1995.

3. Pratt, W. K., Digital Image Processing, 4th ed., Wiley India,

2012.

Course Code: ECL545

Course Title: Human and Machine Speech Communications

Structure (L-T-P):3-0-0

Prerequisite: ECL251

Contents:

Introduction: Human-machine speech communications aspects;

digital representations of speech; intensity level of sound.

Speech production: Anatomy and physiology of speech organs;

articulatory phonetics; acoustic phonetics; phonetics transcription,

Physiological and Mathematical Model.

Speech signal analysis: Time domain methods; Frequency domain

methods; Pitch estimation spectrogram analysis; Spectrum analysis,

MFCC.

Linear prediction coding: Least squares autocorrelation and

covariance methods; Line spectral frequencies.

Psychoacoustics and auditory perception: Hearing; critical bands;

phenomena of masking; Mel scale.

Speech signal coding: Speech coder attributes; Coding rates; PCM;

ADPCM; CELP; Coding standards.

Assessment of speech quality: Objective and subjective quality

evaluation measures.

Automatic Speech recognition: Pattern recognition approach;

Dynamic time warping; Feature extraction; HMM; Language

models.

Text Books:

1. Rabiner, L. R., and Schafer, R. W. Digital Processing of

Speech Signals. 4

ed. Pearson Education, 2009.

Reference Books:

1. Quatieri, Thomas F., Cloth. Discrete-Time Speech Signal

Processing: Principles and Practice. Pearson Education,

2008.

2. Young, S., and Bloothooft, G. Corpus-Based Methods in

Language and Speech Processing. Springer Science and

Business Media, 2013.

3. Deller, J, R., Proakis, J. G., and Hansen J. H. Discrete Time

Processing of Speech Signals. John Wiley and Sons, 2000

4. Gold, B., and Morgan, N. Speech and Audio Signal

Processing: Processing and perception of speech and music.

2nd ed. John Wiley and sons 2011.

5. Huang, X. D., Ariki, Y., and Jack, M. A. Hidden Markov

Models for Speech Recognition. Edinburgh University Press,

1990.

Course Code: ECL551

Course Title: Adaptive Signal Processing

Structure (L-T-P): 3-0-0

Prerequisite: ECL352

Contents:

Vectors, Matrices and Eigen Analysis. Application to adaptive signal

processing. Stochastic Processes, Ensemble average, mean, average

power, auto and cross correlation functions, stationarity and white

noise, Auto-regressive process. Optimal FIR (Wiener) filter, Method

of steepest descent, extension to complex valued signals.

Least Squares and LMS algorithms, Normal equations, properties.

Eigen System decomposition. Gradient search technique,

convergence properties of LMS. Normalized LMS algorithm.

Recursive solution techniques, RLS algorithm. Application to noise

cancellation, modeling of physical processes, communications.

Text Books:

1. Haykin, S., Adaptive Filter Theory, 4th ed., Pearson Education,

2012.

Reference Books:

1. Treichler, J.R., Theory and Design of Adaptive Filters, Prentice

Hall of India, 2010.

2. Widrow B., Stearns S.D., Adaptive Signal processing, Prentice

Hall, 1985.

Course Code: ECL552

Course Title: Introduction to Machine Learning

Structure (L-T-P): 3-0-0

Prerequisite: SCL253

Contents:

Introduction: Basic definitions, types of learning, Clustering vs.

Classification; Supervised vs. unsupervised, Relevant basics of

Linear Algebra, vector spaces, hypothesis space and inductive bias,

evaluation, cross-validation.

Linear regression, Decision trees, Over fitting.

Instance based learning, Feature reduction, Collaborative filtering

based recommendation.

Probability and Bayes learning.

Logistic Regression, Support Vector Machine, Kernel function and

Kernel SVM.

Neural network: Perceptron, Multilayer network, Back propagation,

Introduction to Deep Neural Network.

Clustering: introduction, k-means, Gaussian Mixture Model.

Text Books:

1. Tom Mitchell Machine Learning, 1

Ed., McGraw- Hill, 1997.

2. Ethem Alpaydin, Introduction to Machine Learning, 2nd ed.

3. R. O. Duda, P. E. Hart and D. G. Stork, Pattern Classification,

2nd edition, Wiley-Interscience, 2001.

Reference Books:

1. Bishop, Christopher M., Pattern Recognition and Machine

Learning, Springer, 2007.

2. Koller, D., and Friedman, N. Probabilistic Graphical Models:

Principles and Techniques. MIT Press, 2009.

3. Theodoridis, S. and Konstantinos Koutroumbas, Pattern

recognition, 4th Ed., Academic Press, 2008.

Course Code: ECL562

Course Title: Principles of Biomedical Instrumentation Design

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents:

Introduction and basic concepts of biomedical instrumentation-

Classification of Biomedical Instruments-Compensation Techniques-

Generalized static and dynamic characteristics-Design Criteria- Basic

Sensors and Principles

Measurement characteristics-Review of Circuit Analysis-Amplifiers

and Signal Processing-Inverting, Non-inverting, Differential and

logarithmic amplifiers-Integrators-Differentiators-Microcomputers in

Medical Instrumentation

The origin of Biopotentials-Biopotential electrodes-Biopotential

Amplifiers-Blood Pressure and Heart Sounds measurement-

Measurement of Blood flow and Volume-Measurement of Respiratory

System

Chemical Biosensors-Clinical Laboratory Instrumentation-Medical

Imaging Systems-Therapeutic and Prosthetic Devices

Electrical Safety-Physiological effects of electricity-Macroshock and

Microshock hazards-Electrical Distribution and Ground Faults-Basic

protection techniques against shock and equipment damage

Recent trends in Biomedical Instrumentation

Text Books:

1. Webster, J.G., Medical Instrumentation: Application and

Design, 4th ed., John Wiley and Sons, 2010.

2. Cromwell, L., Weibell, F.J. and Pfeiffer, E.A., Biomedical

Instrumentation and Measurements, 2nd ed., Prentice Hall of

India, 2013.

Reference Books:

1. Khandpur, R.S., Handbook of Biomedical Instrumentation, 2nd

ed., Tata McGraw Hill,2012.

2. Singh, M., Introduction to Biomedical Instrumentation, PHI

Learning Private Limited, 2010.

3. Ganong, W.F. et. al., Review of Medical Physiology, 24th ed.,

McGraw Hill, 2012.

4. Cook, A.M. and Webster, J.G., Therapeutic Medical Devices,

Application and Design, Prentice-Hall, 1982.

B.Tech. (Mechanical Engineering)

OVERALL CREDIT STRUCTURE

Departmental Core (DC)

Course

Code

Course L-T-P

Credit

MEL251

Mechanical Behaviour of Materials

3-0-0

MEL252

Engineering Thermodynamics

3-0-0

MEL253

Fluid Mechanics

3-0-0

MEP253

Fluid Mechanics Lab

0-0-2

MEL254

Solid Mechanics

3-0-0

MEP254

Solid Mechanics Lab

0-0-2

MEL255

Kinematics of Machines

3-2-0

MEL256

Machine Drawing

1-0-0

MEP256

Machine Drawing Lab

0-0-4

MEL257

Casting Welding and Forming

3-0-0

MEP257

Casting Welding and Forming Lab

0-0-2

MEL258

Machining and Machine Tools

3-0-0

MEP258

Machining and Machine Tools Lab

0-0-2

MEL351

Energy Conversion Techniques

3-0-0

MEP351

Energy Conversion Techniques Lab

0-0-2

MEL352

Fluid Machines

3-0-0

MEP352

Fluid Machines Lab

0-0-2

MEL353

Heat and Mass Transfer

3-0-0

MEP353

Heat and Mass Transfer Lab

0-0-2

MEL354

Dynamics of Machines

3-0-0

MEP354

Dynamics of Machines Lab

0-0-2

MEL355

Measurement and Control

3-0-0

MEP355

Measurement and Control Lab

0-0-2

MEL356

Operations Management

3-0-0

MEL357

Design of Machine Elements

3-2-0

MEL451

Refrigeration & Air Conditioning

3-0-0

MEP451

Refrigeration & Air Conditioning Lab

0-0-2

MEL452

Mechanical Vibrations

3-0-0

MEP452

Mechanical Vibrations Lab

0-0-2

MED351

Minor Project

MED451

Major Project

Departmental Elective (DE)

Course

Code

Course L-T-P

Credit

SCL453

Probability Theory and Statistics

3-0-0

MEL358

Metrology and SQC

3-0-0

MEP358

Metrology and SQC Lab

0-0-2

MEL453

Operation Research

3-2-0

MEL454

Industrial Engineering

3-0-0

MEL455

Fluid Dynamics

3-0-0

MEL456

Computer Aided Design

3-0-0

MEP456

Computer Aided Design Lab

0-0-2

MEL457

Computer Integrated Manufacturing

3-0-0

MEL458

Mechatronics

3-0-0

MEP458

Mechatronics Lab

0-0-2

MEL459

Gas Turbine and Compressor

3-0-0

MEL460

Quality Assurance

3-0-0

MEL461

Robotics

3-0-0

MEP461

Robotics Lab

0-0-2

MEL462

Automation in Production

3-0-0

MEL463

Power Plant Engineering

3-0-0

MEL464

Renewable Energy Sources

3-0-0

MEL465

Automobile Engineering

3-0-0

MEP465

Automobile Engineering Lab

0-0-2

MEL466

IC Engine

3-0-0

MEP466

IC Engine Lab

0-0-2

MEL467

Tool Design

3-2-0

MEL468

Machine Tool Design

3-2-0

MEL469

Material Resource Planning

3-0-0

MEL470

Computer Integrated Manufacturing

3-0-0

MEP471

Machine System Design Lab

0-0-4

Undergraduate Core(UC)

Undergraduate Elective (UE)

Category

Credit

Category

Credit

23 (minimum)

06 (minimum)

18 (Balance)

0 (03 Courses)

Total

113

Total

Grand Total (UC + UE)

160

Basic Science (BS)

Course

Code

Course

L-T-P

Credit

SCL152

Applied Mathematics-I

3-2-0

SCL153

Applied Mathematics-II

3-2-0

SCL251

Applied Mathematics-III*

3-0-0

SCL154

Applied Physics

3-0-0

SCP154

Applied Physics Lab

0-0-2

SCL155

Applied Chemistry

3-0-0

SCP155

Applied Chemistry Lab

0-0-2

Total

Humanities and Management (Core) (HM)

Course

Code

Course

L-T-P

Credit

HMP152

Technical Communication

2-0-2

HML151

Social Science

2-0-0

Total

Non Credit Requirement (UN)

Course

Code

Course

L-T-P

Credit

NCN101

NCC#

NCN102

NSS#

NCN103

NSO#

SPB101

Sports-I#

0-0-4

SPB102

Sports-II#

0-0-4

HMD251

Community Project

MET251

Practical Training

#A student has to opt at least one from NCC, NSS, NSO and

Sports (I & II both).

Engineering Arts and Science (ES)

Course

Code

Course

L-T-P

Credit

MEL152

Elementary Mechanical

Engineering

3-0-0

EEL151

Elementary Electrical Engineering

3-0-0

EEP151

Elementary Electrical Engineering

Lab

0-0-2

ECL151

Basic Electronics Engineering

3-0-0

ECP151

Basic Electronics Engineering Lab

0-0-2

MEL151

Engineering Drawing

3-0-0

MEP151

Engineering Drawing Lab

0-0-2

CSL151

Computer Programming and

Problem Solving

3-0-0

CSP151

Computer Programming Lab

0-0-2

MEP152

Mechanical Workshop

0-0-2

CEL151

Environmental Science

2-0-0

Total

Course Syllabi (Under Graduate)

Department of Mechanical Engineering

Course Code: MEL 151

Course Title: ENGINEERING DRAWING

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents: Scales-concept of representative fraction,

importance of scales, Orhographic projections, Projections of points,

Projections of Straight lines and practical applications, Projections of

planes, Projections of solids (right and regular prisms, pyramids,

cones and cylinders), Auxiliary Views of Planes and Solids, Sections

of solids, Development of surfaces of solids, Isometric projections.

Introduction to AutoCAD.

Text Book:

1. Bhatt, N.D, Engineering Drawing: Plane and Solid Geometry,

51st ed., Charotar Publishing House Pvt. Ltd., 2012.

Reference Books:

1. Luzadder, W. J. and Duff, J. M., Fundamentals of Engineering

Drawing: With an Introduction to Interactive Computer Graphics

for Design and Production, 11th ed., Prentice Hall, 2012.

2. Gill, P.S., A Text Book of Engineering Drawing: Geometrical

Drawing, 11th ed., S.K. Kataria& Sons, 2009.

3. Agrawal, B. and Agrawal, C.M., Engineering Drawing, 7th ed.,

Tata McGraw Hill Education, 2011.

4. Shah, M.B. and Rana, B.C., Engineering Drawing, 2nd ed.,

Pearson Education, 2012.

5. Jolhe, D.A., Engineering Drawing: With an Introduction to

AutoCAD, Tata McGraw Hill Education, 2011.

Course Code: MEL 152

Course Title: ELEMENTARY MECHANICAL ENGINEERING

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents: Mechanics Introduction: System of forces,

coplanar concurrent force system, equilibrium of rigid bodies, free

body diagram, Lami‘s theorem, varignon‘s theorem, Analysis of

framed structure: Reaction in beam with different end conditions,

determination of reactions in members of trusses. Centre of gravity

and moment of inertia: Concept of C.G and centroid, position of

centroid, theorem of parallel and perpendicular axes, moment of

inertia of simple geometrical figures. Types of Friction, Introduction to

stress and strain, Elastic constants.

Basics of Thermal and Fluid Science: Introduction, thermodynamics

properties, forms of energy, thermodynamic systems and control

volume, steady flow systems, types of work, thermodynamic

processes, Zeroth, first and second law of thermodynamics,

Reversible and Irreversible processes, steady-state energy equation

and its applications, Heat engine, Heat pump and refrigerator, COP.

Introduction to IC Engine: two-stroke engine, four stroke engine, Otto

Cycle, Diesel Cycle and dual cycle.Introduction to fluid mechanics,

Properties of fluids, surface tension, compressibility, pressure

measurement.

Text Book:

1. Beer and Johnston, Vector Mechanics for Engineers: Statics and

Dynamics, 10th ed., Tata McGraw-Hill, 2013.

2. Cengel Y. A., Boles M., Thermodynamics: An Engineering

Approach, 8th ed. McGraw- Hill, 2006.

Reference Book:

1. Shames, I.H., Engineering Mechanics: Statics and Dynamics,

4th ed., Pearson Education, 2011.

2. Nag P. K., Engineering Thermodynamics, 5th ed., Tata

McGraw- Hill, 2005.

3. Cengel Y. A., Cimbala, J. M., Fluid Mechanics: Fundamentals

and Applications, 3

ed., Tata McGraw- Hill, 2010.

Course Code: MEL 251

Course Title: MECHANICAL BEHAVIOUR OF MATERIALS

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents: Structures of materials – crystal structure,

substructure, microstructure, etc. Phase diagram and phase

transformation. Diffusion phenomenon, Mechanical behavior –

strength, hardness, deformation creep, fatigue, etc., Mechanisms of

strengthening and toughening of materials, Metallic alloys, Ceramics,

Polymeric and Composite materials, Non-destructive testing,

Standard numbering system including BIS designations of materials.

Text Book:

1. Raghavan, V, Materials Science and Engineering: A First Course,

ed., Prentice Hall, 2012.

Reference Books:

1. Avner, S.H., Introduction to Physical Metallurgy, 2

ed., Tata

McGraw Hill, 2012.

2. Dieter, G.E. and Bacon, D., Mechanical Metallurgy, Tata

McGraw Hill, 2001.

3. Lakhtin, Y.M., Engineering Physical Metallurgy and Heat

treatment, 6

ed., CBS Publishers, 1998.

4. Rollason E.C., Metallurgy for Engineers, 4

ed.,

EdwardArnoldPublications, 1982.

Course Code: MEL252

Course Title: ENGINEERING THERMODYNAMICS

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents: Introduction to basic concept of

thermodynamics: Types of system, state and properties of system,

thermodynamic equilibrium, heat and thermodynamic work. Laws of

thermodynamics. First Law of thermodynamics: Flow and non-flow

system, change in internal energy, heat transferred and work

transferred during various thermodynamic processes, P-V diagrams.

Applications of steady and unsteady flow processes. Second law of

thermodynamics: Kelvin-Plank & Clausius Statement. Heat engine,

refrigerator and heat pump, reversible and irreversible

processes.Carnot cycle, thermodynamic temperature scale. Entropy:

Clausiusinequality, entropy principle, change in entropy for closed

and open systems. Availability: Reversible work and irreversibility.

Properties of Ideal gas, equation of state, internal energy and specific

heats of gases.Properties of pure system and use of steam tables,

Mollier charts, P-V, T-S and H-S diagrams.Dryness fraction and its

measurement. Work and heat transfer during various thermodynamic

processes with steam as working fluid. Air standard cycles: Otto,

Diesel, Stirling, Ericsson, Atkinson and Brayton. Vapour power cycles:

Simple and Modified Rankine Cycle, combined cycle.

Text Book:

1. Cengel, Y.A. and Boles M.A., Thermodynamics: An Engineering

Approach, 8

ed., McGraw Hill, 2015.

2. Nag, P.K., Engineering Thermodynamics, 6

ed., Tata McGraw

Hill Education, 2017.

Reference Books:

1. Moran M.J. and Shapiro H.N., Fundamentals of Engineering

Thermodynamics, 6

ed., Wiley- India, 2012.

2. Eastop, T.D. and McConkey, A., Applied Thermodynamics: For

Engineering Technologists, 5

ed., Pearson Education, 2013.

3. Nag, P.K., Engineering Thermodynamics, 5

ed., Tata McGraw

Hill Education, 2013.

4. Holman, J.P., Thermodynamics, 4

ed., Mc-Graw Hill, 1988.

5. Joel, R., Basic Engineering Thermodynamics, 5

ed., Pearson

Education, 2014.

6. Arora, C.P., Thermodynamics, Tata McGraw Hill Education,

2011.

7. Borgnakke, C. and Sonntag, R.E., Fundamentals of

Thermodynamics, 7

ed., Wiley India, 2011.

Course Code: MEL253

Course Title: FLUID MECHANICS

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents: Introduction to Fluid Mechanics, fluid properties

and classification. Fluid statics: Pressure variation in a static fluid,

forces on submerged surfaces, stability of floating bodies, rigid body

motion. Kinematics of fluid Flow, Ideal Fluid Flow.Inviscid flow: Euler

equation, Bernoulli‘s equation and its applications, Reynolds

transport theorem, mass, momentum and energy conservation laws

with applications, governing equations for Newtonian fluids, exact

solutionsofNavier-Stokes Equation,Internal flows: pipe flow, hydraulic

diameter, laminar and turbulent flows, friction factor, Moody diagram,

minor and major losses, pipe networks, flow measurement,

Introduction to open channel flow.External flows: introduction to

boundary layer theory, flow over flat and curved surfaces, boundary

layer separation. Dimensional analysis and modeling, Buckingham Pi

theorem,

Text Books:

1. White, F.M., Fluid Mechanics, 7

ed., Tata McGraw Hill

Education, 2013.

2. Cengel, Y.A. and Cimbala, J.M., Fluid Mechanics: Fundamentals

and Applications, 3

ed., Tata McGraw Hill Education, 2015.

Reference Books:

1. Streeter, V.L., Wylie E.B. and Bedford, K.W., Fluid Mechanics,

ed., Tata McGraw Hill Education, 2011.

2. Som, S.K., Biswas, G. and Chakraborty, S., Introduction to Fluid

Mechanics and Fluid Machines, 3

ed., Tata McGraw Hill

Education, 2011.

3. Kundu, P.K., Cohen, I.M. and Dowling, D.R., Fluid Mechanics,

ed., Elsevier, 2012.

4. Khan, M.K., Fluid Mechanics and Machinery, 1

ed. Oxford

University Press India, 2015.

5. Bansal, R.K., A Textbook of Fluid Mechanics and Hydraulic

Machines, 9

ed., Laxmi Publication, 2014.

6. Fox, R.W., Pritchard, P.J. and Mcdonald, A.T., Introduction to

FluidMechanics, 7

ed., Wiley India, 2012.

7. Munson, B.R. and et al., Fundamentals of Fluid Mechanics,

ed., Wiley India, 2012.

Course Code: MEL254

Course Title: SOLID MECHANICS

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents: Introduction, Definition of stress, Equations of

equilibrium, Principal stress, Maximum shear stress, Plane stress,

Concept of strain, Strain displacement relations, Principal strains,

Plane strain, Constitutive relations, Uniaxial tension test, Idealized

stress-strain diagram, Isotropic linear elastic, viscoelastic and plastic

materials, Uniaxial deformations, Thermal stresses, Torsion of shafts,

Bending and shear of beams, Energy methods, Fracture, Deflection,

Stability. Mechanical Engineering Design vis-à-vis Solid Mechanics,

factor of safety, standards and design equations, Selection of

materials and processes, Applicationof theories of failure to design,

Design procedure and its application to static strength, Design of thin

and thick pressure vessels and pipes. Design of shrink fit.

Text Books:

1. Gere, J.M. and Timoshenko, S.P., Mechanics of Materials,

ed., CBS Publishers, 2012.

2. Beer, F.P. and Others, Mechanics of Materials, 6

ed., Tata

McGraw HillEducation, 2013

Reference Books:

1. Shames, I.H. and Pitarresi, J.M., Introduction to Solid

Mechanics, 3

ed., Prentice Hall India, 2013.

2. Popov, E.P., Engineering Mechanics of Solids, 2

ed., Prentice

Hall India,2012.

Course Code: MEL255

Course Title: KINEMATICS OF MACHINES

Structure (L-T-P): 3-2-0

Prerequisite: NIL

Contents: Basic concept of mechanisms, links, kinematic

pairs, kinematic chain, mechanisms, machine, Types of mechanisms,

Degree of freedom of link and planer mechanism, Classification of

four-bar chain (Class I and Class II) Inversion of four bar chain, Slider

crank chain and double slider crank chain.

Velocity, acceleration analysis of planer mechanism by graphical

method using relative velocity/acceleration, Instantaneous centre of

velocity method, Concept of velocity and acceleration image, Coriollis

component of acceleration, Synthesis of four-bar/ slider crank

mechanism for gross motion, Input/Output coordination and quick

return ratio, Transmission angle.

Types of cams, follower and applications, Synthesis of cam for

different types of follower motion like constant velocity, parabolic

SHM, cycloidal etc., Construction of eccentric cam, tangent cam and

circular arc cam, Analysis of follower motion for cams with specified

contours like eccentric cam, tangent cam and circular arc cam.

Introduction to Belt drive, clutches and brakes, ratio of belt tension,

initial tension for flat and V belts, types of clutches and relations for

torque transmitted, types of brakes and braking torque relations.

Types of gears, gear tooth terminologies, concept of conjugate action,

law of conjugate action, kinematics of involute gear tooth pairs during

the contact, number of pairs of teeth in contact, path of approach and

path of recess Interference, undercutting for involute profile teeth,

introduction to cycloidal profile, types of gear trains, kinematic

analysis of gear trains including simple epicyclic and double epicyclic

gear trains, Static force analysis, free body diagram, condition of

equilibrium, Analysis of all links of given linkages, cams, gears

mechanism and their combinations without friction.

Text Book:

1. Norton, R.L., Kinematics and Dynamics of Machinery, 1st ed.,

Tata McGraw Hill Education, 2013

2. Rattan, S. S., Theory of Machines, 3rd ed., Tata McGraw Hill

Education, 2012.

Reference Books:

1. Uicker, J.J., Pennock, G.R. and Shigley, J.E., Theory of Machines

and Mechanisms, 3

ed., Oxford University Press, 2013.

2. Bevan, T., Theory of Machines, 3

ed., Pearson Education,

2012.

3. Rao, J.S. and Dukkipati, R.V., Mechanism and Machine Theory,

2nd ed., New Age International, New Delhi, 2012.

4. Ghosh, A. and Mallik, A.K., Theory of Mechanisms and

Machines, 3rd ed., East-West Press, 2011.

5. Waldron, K.J. and Kinzel, G.L., Kinematics, Dynamics and

Design of Machinery, 2nd ed., John Wiley & Sons, 2004.

6. Ambedkar, A.G., Mechanism and Machine Theory, 3

ed.,

Prentice Hall, 2011.

Course Code: MEL 256

Course Title: MACHINE DRAWING

Structure (L-T-P): 1-0-0

Prerequisite: MEL151

Contents: Introduction to the generation of drawings as a

design process for machine assembly. Sectioning, dimensioning and

version control in drawings.

Standardized representation of threads, fasteners, welds, bearings,

springs and related components.

Introduction to limits fits, and tolerances, dimensional and geometric

tolerances, surface finish symbols.

Generation of assembly drawings including sectioning and bill of

materials.

Evolving details of components from assembly considerations.Solid

modeling of components involving shafts, bearing, pulleys, gears,

belts, brackets, gearbox, plumber block and tailstock for assembly.

Text Book:

1. Naryana, K.L., Kannaiah, P. and Reddy, K.V. Machine Drawing,

4th ed., New Age International, 2013.

Reference Books:

1. Bureau of Indian Standards, Engineering Drawing Practice for

Schools and Colleges, 1st ed., 1998

2. Bhatt, N.D. and Panchal, V.M., Machine Drawing, 47th ed.,

Charotar Publishing House, 2012.

3. PSG College of Technology, Design Data, 1st ed., DPV Printers,

Coimbatore, 2002.

4. Junnarkar, N.D., Machine Drawing, Pearson Education, 2011.

Course Code: MEL257

Course Title: CASTING WELDING AND FORMING

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents: Casting: Casting Process and its classifications,

Heating and Pouring, Fluidity, Porosity, Solidification and Cooling,

Shrinkage, Riser and Gating Design, Sand Casting, Shell Moulding,

Vacuum Casting, Investment Casting, Permanent Mould Casting - Die

Casting, Squeeze Casting, Centrifugal Casting, Foundry Practices,

Casting Quality, Product Design Considerations, Casting of Ferrous

and Non-ferrous alloys, Economics of Casting, Shaping processes for

plastics.

Welding: Classifications, Gas Welding and Cutting, Electric Arc

Welding – Principle, Equipment and Electrodes, MMAW, Carbon Arc

Welding, TIG, MIG, SAW, PAW, Resistance Welding – Spot, Seam,

Upset, Flash, Welding Design, Welding Defects, Thermit Welding,

Electroslag Welding, Electron Beam Welding, Laser Beam Welding,

Forge Welding, Friction Welding, Diffusion Welding, Explosion

Welding, Brazing and Soldering.

Metal Forming: Hot/Cold Working, Material Behaviour in MF, Strain

Rate Sensitivity, Friction and Lubrication in MF, Rolling, Forging,

Extrusion, Wire Drawing, Rod and Tube Drawing, Swaging, Sheet

Metal Operations – Shearing, Drawing, Spinning, Bending,

Embossing, Coining, Sheet Metal Die Design.

Text Book:

1. Kalpakjian S. and Schmid S.R., Manufacturing Engineering and

Technology, 4th ed., Pearson Education, 2013.

Reference Books:

1. Groover M.P., Fundamentals of Modern Manufacturing: Material

Processes and Systems, 3rd ed., Wiley India, 2011.

2. Rao P.N., Manufacturing Technology (Vol.1), 2nd ed., Tata

McGraw Hill Education, 2012.

3. Ghosh A. and Malik A.K., Manufacturing Science, 2nd ed.,

Affiliated East-West Press Private Limited, 2010.

4. Bawa H. S., Workshop Technology, Tata McGraw Hill, 2001.

Course Code: MEL258

Course Title: MACHINING AND MACHINE TOOLS

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents: Metal machining: Chip Formation, Shear Zone,

Orthogonal Cutting, Shear Angle and its Relevance, Cutting-Tool

Geometry, Dynamometers, Cutting-Tool Materials, Thermal Aspects,

Tool Wear and Tool Life, Surface Finish, Cutting Fluids, Empirical and

Analytical Determination of Cutting Forces, Economics.

Cutting- Tool Materials and Cutting Fluids

Machining processes: Turning, Hole making, Milling, Broaching,

Sawing, Filing, Gear Manufacturing, Abrasive machining and finishing

operations

Non-Traditional Machining - Electric-Discharge Machining,

Electrochemical Machining, Ultrasonic Machining, Chemical

Machining, Laser-Beam Machining, Abrasive Water-Jet Machining

(AWJM), Electron-Beam Machining (EBM), Ion-Beam Machining

(IBM), Plasma-Arc Machining (PAM)

Text Book:

1. Kalpakjian, S. and Schmid, S.R., Manufacturing Engineering and

Technology, 4th ed., Pearson Education, 2013.

Reference Books:

1. Groover, M.P., Fundamentals of Modern Manufacturing : Material

Processes And Systems, 3rd ed., Wiley India, 2011

2. Rao, P.N., Manufacturing Technology (Vol.1), 2nd ed., Tata

McGraw Hill Education, 2012

3. Ghosh, A. and Malik, A.K., Manufacturing Science, 2nd ed.,

Affiliated East-West Press Private Limited, 2010.

4. Boothroyd, G. and Knight, W.A., Fundamentals of Machining and

Machine Tools, 3rd ed., CRC Taylor and Francis, 2013

5. Shaw M.C., Metal Cutting Principles, CBS Publishers, 2012.

Course Code: MEL351

Course Title: ENERGY CONVERSION TECHNIQUES

Structure (L-T-P): 3-0-0

Prerequisite: MEL202

Contents: Fundamentals and elementary treatment is

expected to be covered in this course. Introduction to I.C. Engines:

Two/Four stroke engine. SI and CI engines carburation and fuel

injection.Indicated/brake power.Air standard, mechanical, thermal

efficiencies.Compressors: Classifications, working principle.

Reciprocating compressor: Ideal Cycles, multi stage compression,

intercooling, condition for minimum work.Volumetric efficiency and

power required. Introduction to Gas Turbines and Jet propulsion:

Ideal cycles (open and close cycles), and working of turbojet,

turboprop, ramjet & pulsejet, performance. Components of Steam

power plant, their functions and processes involved there in. Such as

boilers: Classification based on type of fuel, fire tube/water tube, and

very high pressure boilers. Steam Turbines: Classifications, Velocity

diagrams, Blade/Diagram efficiency. Condensers: Classifications,

cooling tower. Law of Partial pressure, air leakage in

condenser.Calculations of Condenser efficiency and vacuum

efficiency. Introduction to Refrigeration and air conditioning: Vapor

compression and vapor absorption system. Ideal Cycles, effect of Sub

cooling and Superheating on C.O.P. and performance calculation.

Psychometric chart and processes such as heating, cooling,

humidification and dehumidification.

Text Books:

1. Eastop, T.D. and McConkey, A., Applied Thermodynamics: For

Engineering Technologists, 5

ed., Pearson Education, 2013.

2. Nag, P.K., Power Plant Engineering, 4

ed., Tata McGraw Hill,

2014.

Reference Books:

1. Rogers, G.F.C. and Mayhew, Y.R., Thermodynamics and

Transport Properties of Fluids, 5

ed., Blackwell Publishers,

2013.

2. Ganesan, V., Internal Combustion Engines, 4

ed., Tata McGraw

Hill Education, 2013.

3. Dixon, S.L. and Hall, C.A., Fluid Mechanics and

Thermodynamics of Turbomachinery, 6

ed., Elsevier, 2010

4. Arora, C.P., Refrigeration and air conditioning, 3

ed., Tata

McGraw Hill Education, 2013.

5. Yadav, R., Steam and Gas Turbines and Power Plant

Engineering, 7th ed., Central Publishing House, 2012

6. Joel, R., Basic Engineering Thermodynamics, 5

ed., Pearson

Education, 2014.

7. Ballaney, P.L., Thermal Engineering, 5

ed.,Khanna Publishers,

2012.

8. Heywood, J.B., Internal Combustion Engine Fundamentals,

ed., Tata McGraw Hill Education, 2012.

Course Code: MEL352

Course Title: FLUID MACHINES

Structure (L-T-P): 3-0-0

Pre-requisite: MEL253

Contents: Introduction to Hydraulic Machines, Impulse

momentum principle, dynamic action of jet on fixed and moving flat

plates and curved vanes, series of plates and vanes, water wheels,

velocity triangles and their analysis, jet propulsion of ships. Principles

and classification of hydraulic machines, element of hydroelectric

power plant. Hydraulic Turbine: impulse turbines i.e. Pelton wheel.

Reaction turbines i.e. Francis turbines, Propeller turbine, Kaplan

turbine and bulb turbine.Principle of operation, construction, design,

installation, characteristics, governing, accessories, selection, model

testing, degree of reaction, velocity diagram and analysis, unit and

specific quantities. Pump: centrifugal pump, reciprocating pump and

rotary pumps. Principle of operation, classification, components

installation, priming, velocity triangles and their analysis, slip factor,

performance characteristics, multistaging of pumps, design, indicator

diagram, cavitation, air vessels, model testing, NPSH, unit and

specific quantities. Introduction to axial pump, mixed flow pump, self-

priming pump, gear pump, sliding vane pump, screw pump & hand

pump. Miscellaneous fluid machines: airlift pumps, hydraulic rams,

hydraulic cranes, fluid couplings and torque converter.

Text Book:

1. Ojha C.S.P., Berndtsson R., Chandramouli P.N., Fluid Mechanics

and Machinery, 1

ed., Oxford University Press 2010.

2. Cengel, Y.A. and Cimbala, J.M., Fluid Mechanics: Fundamentals

and Applications, 3

ed., Tata McGraw Hill Education, 2015.

Reference Books:

1. Yahya, S.M., Turbines, Fans and Compressors, 4

ed., Tata

McGraw Hill, 2012.

2. Lal, J., Fluid Mechanics and Hydraulics, 9

ed., Metropolitan

Book Corporation .Private Limited, 2012.

3. Khan, M.K., Fluid Mechanics and Machinery, 1

ed. Oxford

University Press India, 2015.

4. Nag, P.K., Power Plant Engineering, 3

ed., Tata Mc-Graw Hill

Education, 2013.

5. Bansal, R.K., A Textbook of Fluid Mechanics and Hydraulic

Machines, 9

ed., Laxmi Publication, 2014.

Course Code: MEL353

Course Title: HEAT AND MASS TRANSFER

Structure (L-T-P): 3-0-0

Pre-requisite: MEL252, MEL253

Contents: Modes of heat transfer in various applications.

Conduction: Heat diffusion equation, 1-D steady state conduction in

extended surfaces, infinite and semi-infinite walls, heat generation,

lumped capacitance and simple transient models. Convection: Forced

and free convection - mass, momentum and energy conservation

equations, non-dimensional numbers, hydrodynamic and thermal

boundary layers, basics of heat transfer in external and internal

laminar and turbulent flows, and use of co-relations. Boiling and

condensation: Physical phenomena and co-relations. Mass transfer:

Fick‘s law, similarity with convection and correlations. Radiation:

Properties, laws, 3- surface network for diffuse-gray surfaces, Heat

exchanger fundamentals and design.

Text Books:

1. Cengel, Y.A. and Ghajar A. J., Heat and Mass Transfer, 5

ed.,

Tata McGraw Hill Education, 2015.

2. Incropera, F.P, and Others. Fundamentals of Heat and Mass

Transfer,6

ed., Wiley India, 2013

Reference Books:

1. Holman, J. P.and Bhattacharyya, S., Heat Transfer, 10

ed., Tata

McGraw Hill Education, 2012.

2. Sukhatme, S.P., A Textbook on Heat Transfer, 4

ed., Universities

Press, 2013.

3. Ghoshdastidar, P.S., Heat Transfer, 2

ed., 2012, Oxford

University Press, 2012.

4. Nag, P.K., Heat and Mass Transfer, 3

ed. Tata McGraw Hill

Education, 2011.

Course Code: MEL354

Course Title: DYNAMICS OF MACHINES

Structure (L-T-P): 3-0-0

Prerequisite: MEL255

Contents: Dynamics: Concept of free body and its

equilibrium, work-done-energy equation, general plane motion with

translation and rotation, impulse-linear momentum, angular impulse-

angular momentum, impact, generalized angular impulse-angular

momentum, static force analysis, friction effects, D‘Alembert‘s

principle, dynamic force analysis, equivalent dynamical systems,

simple gyroscopic motion.

Application: Gyroscopic effect and application, Flywheel and turning

moment diagram, Dynamics of slider-crank mechanism, concept of

offsets, governors and its types, brakes and dynamometer, Balancing

of engines, analysis of friction devices (belt drives, pivots and collars,

plate and cone clutches, band and block brakes), applications of Cam

and follower.

Vibrations: Free vibration of single-degree-of-freedom undamped and

damped systems, resonance, natural frequency, damping, forced

vibration of single-degree-of-freedom systems, base excitation,

vibration isolation, vibration transmission.

Text Books:

1. Uicker, J.J., Pennock, G.R. and Shigley, J.E., Theory of Machines

and Mechanisms, 3

ed., Oxford University Press, 2013.

Reference Books:

1. Bevan, T., Theory of Machines, 3

ed., Pearson Education,

2012.

2. Rao, J.S. and Dukkipati, R.V., Mechanism and Machine Theory,

ed., New Age International, New Delhi, 2012.

3. Ghosh, A. and Malik, A.K., Theory of Mechanisms and Machines,

ed., Affiliated East-West Press, 2011.

4. Rattan, S. S., Theory of Machines, 3

ed., Tata McGraw Hill

Education, 2012.

5. Norton, R.L., Kinematics and Dynamics of Machinery, 1

ed.,

Tata McGraw Hill Education, 2013.

6. Rao, J.S. and Gupta, K., Theory and Practice of Mechanical

Vibration, 2nd ed., New Age International, 2012.

7. Meirovitch L., Fundamentals of Vibrations, 2

ed., Waveland

Press, 2010.

8. Waldron, K.J. and Kinzel, G.L., Kinematics, Dynamics and

Design of Machinery, 2

ed., John Wiley & Sons, 2004.

9. Ambedkar, A.G., Mechanism and Machine Theory, 3

ed.,

Prentice Hall, 2011.

Course Code: MEL355

Course Title: MEASUREMENT AND CONTROL

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents: Definition, need, Precision & Accuracy,

Standards of Measurements, linear and angular measurements,

Comparators: Mechanical, Fluid displacement & Pneumatic,

Electrical, Screw thread measurement, Gear measurement.

Measurement of surface texture, straightness, flatness parallelism,

circularity, Co-ordinate Measuring Machine (CMM), Automatic

Gauging and Sorting machine, Interferometry: principle and types,

optical flat Introduction, tolerances, interchangeability, selective

assembly, limits & fits, types of fits, shaft basis system, hole basis

system, allowances, IS specifications, Taylor principle, design of limit

gauges. Limit gauges & its types, process planning sheet and

tolerance chart preparation. Definition, function, objectives, concepts,

characteristics, quality, quality of design & conformance, Statistical

Quality Control, Process control charts & process capability,

acceptance sampling techniques, sampling plans, inspection types

and objectives Basics of ISO 9000 and ISO 14000, TQM concepts,

quality assurance, quality circles.

Text Book:

1. Venkateshan, S.P., Meachincal Measurements, 2

Ed., John

Wiley and Sons Ltd., 2015.

2. Montgomery, D. C., Statistical Quality Control, 6

Ed., John

Wiley and Sons Inc., 2009.

Reference Books:

1. Logonthesis, Managing for Total Quality: from Deming to Taguchi

and SPC, Prentice Hall, 1997

2. Gitlow, H., Quality Management, 3rd ed., Tata McGraw Hill,

2005.

3. Grant, E.L. and Leavenworth, R.S., Statistical Quality Control,

7th ed., TataMcGraw Hill, 2000.

4. Feigenbaum, A.V., Total Quality Control, 4th ed., I.K

International Publishing House, New Delhi, 2008.

5. Jain, R.K., Engineering Metrology, 20th ed., Khanna Publishers,

2013.

Course Code: MEL356

Course Title: OPERATIONS MANAGEMENT

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents: Production systems and performance

measures.Life Cycle of a production system, Major managerial

decisions in the life of a production system, Just in Time (JIT), Theory

of Constraints (TOC), Product design and process selection.Location

and Layout of production systems, Product, Process and Cellular

layouts, Demand Forecasting, Aggregate production planning,

Inventory and MRP, Scheduling decisions and emerging trends.

Text Book:

1. Russell, R.S. and Taylor, B.W., Operations Management, 7th

ed., Wiley India, 2013.

Reference Books:

1. Martinich, J.S., Production and Operations Management, Wiley

India, 2009

2. Gaither, N. and Frazier, G., Operations Management, 9th ed.,

Cengage Learning, 2002.

3. Krajewski, L.J., Operations Management: Processes and Supply

Chains withMyOMLab, Pearson Education, 2013.

4. Boeuf, M.L., Essence of Time Management, Jaico Publishing

House, 2001.

5. Gupta, A.K. and Sharma, J.K., Management of Systems,

Macmillan India Limited, 2010.

Course Code: MEL357

Course Title: DESIGN OF MACHINE ELEMENTS

Structure (L-T-P): 3-2-0

Prerequisite: MEL254, MEL255

Contents: Introduction to Design of Machine Elements,

Review of Failure theories, Introduction to design for fatigue strength,

Endurance limit and modifying factors, surface strength, Design

procedure for fatigue failure, Design of elements subjected to simple

and fatigue loading, Design of Shafts and Couplings, Power Screws,

Springs, Belts, Chain, Brakes, Bearing, Gears and Mechanical Joints.

Text Books:

1. Norton, R.L., Machine Design : An Integrated Approach, 2

ed.,

Pearson Education, 2013

2. Bhandari, V. B., Design of Machine Elements, 4

ed., McGraw

Hill, 2016.

Reference Books:

1. Spotts, M. F., Design of Machine Elements, 8

ed., Pearson

Education India, 2006.

2. Black, P.H. and Adams, O.E., Machine Design, 3

ed., McGraw

Hill, Kogakusha, 1981.

3. Maleev, V.L. and Hartman, J.B., Machine Design, CBS Publishers

and Distributors, 1983.

4. Schmid, S.R., Hamrock, B.J. and Jacobson B.O., Fundamentals

of Machine Elements, 3

ed., CRC Press, 2014.

5. Budynas, R.G. and Nisbett, J.K., Shigley‘s Mechanical

Engineering Design, 9

ed., Tata McGraw Hill Education,

2013.

6. Juvinall, R. C. and Marshek, K. M., Machine Component Design,

5th ed., Wiley India, 2012.

Course Code: MEL358

Course Title: METROLOGY AND SQC

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents: Mechanical Measurements: Purpose, structure

and elements of measuring system, Static performance

characteristics, Generalized model of system element and calibration,

linearity, static sensitivity, accuracy, precision, repeatability,

hysteresis, threshold, resolution and readability. Measurement error:

Sources of errors, error analysis, propagation of uncertainties, theory

of experimentation. Dynamic Performance characteristics, Input

types, instrument types, zero, first, and second order instruments.

Measurements and methods applications: Classification, Principle,

Construction, Range and working of instruments for following

measurements, Displacement, Speed, Force, Torque, Temperature,

Flow, Level, Pressure, Sound, Light intensity. Classical Control:

Laplace Transformation, Block diagram and its reduction, Time

response, Root Locus Analysis, Routh Stability, Frequency response,

Bode, Polar, Nyquist, Nichols charts, Nyquist stability,

Compensation: Lead, Lag, Lead-Lag, PID controller. Modern Control:

State space method, Signal Flow Graph (SFG), State Transition

Matrix, Stability, Steady state error. Advanced Control: Digital control,

z-transformation, Digital transformation, Stability, Performance plot,

Root Locus, Compensation, PID controller, Robust control, Concept of

system sensitivity, Sensitivity function, Perturbation: additive,

multiplicative, Robust stability, Uncertain system and its stability,

Robust PID controller

Text Books:

1. Doeblin, E.O. and Manik, D. N., Doeblin‗s Measurement

Systems, 6th ed., McGraw Hill, 2012

2. Nakra, B.C and Chaudhry, K.K., Instrumentation Measurement

and Analysis, 3rd ed., Tata McGraw Hill, 2013

Reference Books:

1. Bentley, J.P., Principles of Measurement Systems, 4th ed.,

Pearson Education, 2011.

2. Beckwith, T.G, Lienhard, V J.H., and Morangoni, R.D.,

Mechanical Measurements, 6th ed., Pearson Education, 2012.

3. Rangan, C.S., Sarma, G.R. and Mani, V.S.V., Instrumentation

Devices and Systems, 2nd ed., McGraw Hill, 2011

4. Bewoor, A K. and Kulkarni, V.A., Metrology and Measurement,

McGraw Hill, 2012

5. Dally, J.W., Riley, W. F. and Meconnell, K. G., Instrumentation

for Engineering Measurements, 2nd ed., Wiley India, 2012.

6. Ogata K., Modern Control Engineering, 5th ed., Pearson

Education,2015.

7. Dorf, R. C., & Bishop, R. H., Modem control systems., 6th ed.,

Addison-Wesely Publishing, Reading, MA, 1995.

8. Nagrath, I. J., Control systems engineering. New Age

International, 2006.

Course Code: MEL451

Course Title: REFRIGERATION AND AIR CONDITIONING

Structure (L-T-P): 3-0-0

Pre-requisite: MEL253, MEL353

Contents: Fundamentals of refrigeration and air

conditioning. Vapor compression system: Ideal and real cycle

analyses, Refrigerants: designation, properties, and environmental

considerations. Actual vapor compression cycles, Multi-stage

compression. Air refrigeration cycle Components: condensers,

evaporators, compressors and expansion devices – construction,

operation and performance. Vapor absorption cycles: operation,

system design, components. Psychrometry: definitions, heating,

cooling, humidification and dehumidification processes, evaporative

cooling systems. Environmental comfort specifications and standards.

Cooling load estimation and use of standards. Air-conditioning

systems and apparatus, air flow ducts, air quality. Control and

optimization of HVAC systems.Applications and environmental issues.

Text Book:

1. Arora, C.P., Refrigeration and Air Conditioning, 3rd ed., Tata

McGraw Hill Publication, 2013.

2. Prasad, M., Refrigeration and Air Conditioning, 2

ed., New Age

International Publishers, 2006.

Reference Books:

1. Dossat, R.J., Principles of Refrigeration, 4

ed., Pearson

Education, 2010.

2. Ballaney, P.L., Refrigeration and Air Conditioning, 7

ed.,

Khanna Publishers, 1992.

3. Khurmi, R.S. and Gupta, J.K., Textbook of Refrigeration and Air

Conditioning, 5

ed., S. Chand Publication, 2011.

4. Arora, S.C. and Domkundwar, S., A Course in Refrigeration and

Air Conditioning, 7

ed., DhanpatRai and Co., 1999.

5. Pita, E.G., Air Conditioning Principles and Systems: An Energy

Approach, 4

ed., PHI Learning Private Limited, 2008.

6. American Society of Heating, Refrigerating and Air-Conditioning

Engineers, 2013 Ashrae Handbook: Fundamentals, Inch-

Pound ed., ASHRAE, 2013.

Course Code: MEL452

Course Title: MECHANICAL VIBRATIONS

Structure (L-T-P): 3-0-0

Prerequisite: MEL354

Contents: Fundamentals of Vibration: Basic concepts of

vibration, classification, importance, vibration analysis procedure.

Single degree of freedom system: Free vibration analysis of undamped

translational and torsional system, Rayleigh‘s energy method, Free

vibration with various types of dampings (viscous, coulomb,

hysteresis), Free vibration response under harmonic and other general

forcing conditions, transient response through Du-hamel‘s integral.

Two degree of freedom systems: Free vibration analysis of damped

and undamped translational and torsional system, Coordinate

coupling and principle coordinates, Semi-defined system.

Multi degree of freedom systems: Modeling of continuous systems as

multi degree of freedom system using Newton‘s second law, Influence

coefficients, eigenvalue problem, forced vibration of undamped and

damped systems using modal analysis.

Determination of natural frequencies and mode shapes: Dunkerley‘s

formula, Rayleigh‘s method, Jacobi‘s method.

Vibration of Continuous systems: Longitudinal vibration of bar/rod,

lateral vibration of beams and torsional vibration of shafts.

Vibration Control: Control of vibration, control of natural frequencies,

vibration isolation and absorbers.

Vibration measurement and applications: Role of vibration

measurement and analysis in machine design and machine condition

monitoring.

Text Book:

1. Rao, S.S., Mechanical Vibrations, 4

ed., Pearson Education,

2012.

2. Grover, G.K, Mechanical Vibrations, 8

ed., Nem Chand & Bros,

2009.

Reference Books:

1. Rao, J. S. and Gupta, K., Introductory Course on Theory and

Practice of Mechanical Vibrations, 2

ed., New Age

International Publishers, 2012.

2. Meirovitch L., Fundamentals of Vibrations, 2

ed., Waveland

Press, 2010.

3. Timoshenko, S., Vibration Problems in Engineering, 2

ed.,

Oxford City Press, 2011

4. Thomson, W.T. and Dahleh, M.D., Theory of Vibration with

Applications, 5

ed., Pearson, 2014.

Course Code: MEL453

Course Title: OPERATIONS RESEARCH

Structure (L-T-P): 3-2-0

Prerequisite: NIL

Contents: Introduction to OR & basic OR models,

definition, characteristics and limitations of OR, linear programming:

solutions of LPP by graphical method and simplex method,

formulation of dual of LPP. Assignment model, travelling salesman

problem, transportation Problems, transhipment model. Dynamic

programming, structure and characteristics of dynamic programming,

application of dynamic programming to resource allocation, inventory

control & linear programming, Project management: drawing of

network, CPM & PERT, Probability of completion of project, cost

analysis of project, allocation and updating of networks.

Replacement models: concept of equivalent, interest rate, present

worth, economic evaluation of alternatives, group replacement

models. Inventory control models, analysis of single product

deterministic models. Waiting line situations, queuing theory and

models (no derivations expected). Simulation concept and its

application in waiting line situations, inventory and networks

Text Book:

1. Taha, H.A., Operations Research: An Introduction, 9th ed.,

Pearson Education, 2013.

Reference Books:

1. Sharma, J.K., Operations Research, 4th ed., Macmillan India

Ltd., 2009.

2. Vohra, N.D, Quantitative Techniques in Management, 4th ed.,

Tata McGraw Hill, New Delhi, 2011.

3. Hillier, F.S. and Lieberman, G. J., Introduction to Operations

Research, 10th ed., McGraw Hill, 2014.

4. Gupta, P.K. and Hira, D.S., Operations Research, S. Chand and

Co. Ltd., 2012.

Course Code: MEL454

Course Title: INDUSTRIAL ENGINEERING

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents: Organization: Factory system, principles of

organization, types of organization and their selection. Work study:

Introduction, Scientific management – Productivity - Advantages of

work study to Management. Method Study: Introduction - Process

charts, Critical Examination, Identification of key activities on process

charts, Diagrams and Templates, Therbligs, Micro motion analysis,

Memo motion study. Ergonomics: Basics of Ergonomics and its

industrial applications, Anthropometry. Principles of Motion Economy:

Related to human body, work place, equipment. Work Measurement:

Work measurement techniques – Rating - Measuring the job –

Allowances - Standard time - Synthetic data - Analytical estimating –

PMTS, Work factor, MTM, Activity sampling, Its applications. Job

analysis, Job Evaluation, Techniques of job evaluation - Merit rating –

Incentive plans, Value engineering and analysis. Industrial Relations:

Labour welfare, wage and incentives, absenteeism and labour

turnover. Quality and Quality Control: Types of inspections, statistical

quality control; Control charts for variables and attributes: X bar, R, p

and c charts; Sampling, concepts and scope of TQM and QFD.

Text Books:

1. Buffa, E.S., and Sarin, R.K., Modern Production / Operations

Management, John Wiley & Sons, 1994.

Reference Books:

1. Kanawaty, G., Introduction to work study, International Labour

Organization, 1992.

2. Barnes R.M., Motion and Time Study; Design and Measurement

of Work, John Wiley, 1980.

3. Bridger, R., Introduction to ergonomics. Crc Press, 2008.

4. Jocobs, C.A., Production and Operations Management, Tata

McGraw-Hill, 1999.

5. Maynard, H.B., Industrial Engineering Handbook, McGraw-Hill,

2001.

Course Code: MEL455

Course Title: FLUID DYNAMICS

Structure (L-T-P): 3-0-0

Pre-requisite: MEL253

Contents: Basic of fluid kinematics, Concept of boundary

layer,General properties of boundary layer,flow over a flat plate,

Reynolds Transport theorem, Navier-Stokes‘s equations and it‘s

applications, Von-Karmann momentum equation, Exact solution using

two dimensional method, Correlation coefficient, Concept of

compressible flow, one dimensional isentropic flow, normal shock,

Oblique shock, flow with frictional heat transfer.

Text Book:

1. Yahya, S.M., Fundamentals of Compressible Flow with Aircraft

and Rocket Propulsion, 4

ed., New Age International, 2012.

2. Som, S. K., Biswas, G. and Chakraborty, S., Introduction to Fluid

Mechanics and Fluid Machines, 3

ed., Tata McGraw Hill

Education, 2012.

Reference Books:

1. White, F.M., Fluid Mechanics, 7

ed., Tata McGraw Hill

Education, 2013.

2. Kundu, P. K., Cohen I. M. and Dowling, D.R., Fluid Mechanics,

ed, Elsevier, 2013

3. Streeter, V.L., Wylie E.B. and Bedford, K.W., Fluid Mechanics,

ed., Tata McGraw Hill Education, 2011.

Course Code: MEL456

Course Title: COMPUTER AIDED DESIGN

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents: Introduction to computer aided design, brief

history. Two and three-dimensional transformations: Introduction,

representation of points, transformation of points and straight lines,

rotation, reflection, scaling, combined transformations, translations

and homogeneous coordinates and associated transformations; affine

and perspective geometry, transformations for parallel and

perspective projections.

Design of curves: Introduction, wireframe models and curve

representation.

Plane curves: non-parametric and parametric curves; Space curves:

representation of space curves, cubic splines, normalized cubic

splines, Bezier curves, B-spline curves, rational B-spline curves.

Design of surfaces: Introduction, surface models and surface

representation, surface of revolution, sweep surfaces, quadric surface,

bilinear surface, ruled and developable surface, brief introduction of

the following surface patches: linear Coons surface, Coons bicubic

surface, Bezier surface, B-spline surface, Rational B-spline surface.

Solid modeling: Introduction, solid models and solid representation,

Boundary Representation (B-rep), Constructive Solid Geometry (CSG),

half spaces and other representations.

Text Books:

1. Rogers, David F. and Adams, J. Alan, Mathematical Elements

for Computer Graphics, McGraw-Hill, 2

ed., 2005 .

2. Zeid, Ibrahim and Sivasubramanian, R., CAD/CAM: Theory and

Practice, 2

ed., McGraw Education, 2010.

Reference Books:

1. Faux, I.D. and Pratt, M.J., Computational Geometry for Design

and Manufacture, Ellis Horwood Limited (a division of John

Wiley & Sons), 1987.

2. Rooney, J. and Steadman P., Principles of Computer-aided

Design, Affiliated East-West Press Pvt Ltd.

3. Mortenson, Michael E., Geometric Modeling, 3

Ed., John Wiley

& Sons, 2006

4. Foley, J.D., van Dam, A., Feiner, S.K. and Hughes, J.F.,

Computer Graphics: Principles and Practice, Pearson

Education.

5. Hearn, Donald and Baker, M. Pauline, Computer Graphics,

Prentice Hall of India.

6. Rao, P. N., CAD/CAM: Principles and Applications, 3

Ed.,

McGraw Hill Education (India) Pvt Ltd, 2010.

Course Code: MEL457

Course Title: COMPUTER INTEGRATED MANUFACTURING

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents: Brief introduction to CAD and CAM –

Manufacturing Planning, Manufacturing control- Introduction to

CAD/CAM – Concurrent Engineering-CIM concepts – Computerised

elements of CIM system –Types of production – Manufacturing

models and Metrics – Mathematical models of Production

Performance – Simple problems – Manufacturing Control – Simple

Problems – Basic Elements of an Automated system – Levels of

Automation.

Programmable control – Introduction, NC controller technology,

computer numerical control combined with DNC/CNC systems,

adaptive control machining systems.

Process planning – Computer Aided Process Planning (CAPP) –

Logical steps in Computer Aided Process Planning – Aggregate

Production Planning and the Master Production Schedule – Material

Requirement planning – Capacity Planning- Control Systems-Shop

Floor Control-Inventory Control – Brief on Manufacturing Resource

Planning-II (MRP-II) & Enterprise Resource Planning (ERP).

Group Technology(GT), Part Families – Parts Classification and

coding – Simple Problems in Opitz Part Coding system – Production

flow Analysis – Cellular Manufacturing – Composite part concept –

Machine cell design and layout – Quantitative analysis in Cellular

Manufacturing – Rank Order Clustering Method – Arranging Machines

in a GT cell – Hollier Method.

Types of Flexibility – FMS – FMS Components – FMS Application &

Benefits – FMS Planning and Control– Quantitative analysis in FMS –

Simple Problems. Automated Guided Vehicle System (AGVS) – AGVS

Application – Vehicle Guidance technology – Vehicle Management &

Safety

Text Book:

1. Groover M.P., Automation, Production Systems and Computer

Integrated Manufacturing, 3rd. ed., Pearson Education, 2014

Reference Books:

1. Ranky, P.G., The Design and Operation of FMS: Flexible

Manufacturing Systems, IFS, 1983.

2. Harrington, J., Computer Integrated Manufacturing, Krieger

Publication, 1985.

3. Shover, R.N., An Analysis of CAD/CAM Application with

Introduction to CIM, Prentice Hall.

4. Bedworth, D.D. and et.al., Computer Integrated Design and

Manufacturing, McGraw Hill, 1991

5. Scholz-Reiter, B., CIM Interfaces, Chapman and Hall, 1992.

6. Goetsch, D.L., Fundamentals of CIM Technology: Automation in

Design, Drafting and Manufacturing, Delmar Publication, 1988.

Course Code: MEL458

Course Title: MECHATRONICS

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents: System Integration, Scope of Mechatronics,

Measurement system, open and closed loop system, architecture of

mechatronic system, approach towardsmechatronic design. Basic

electrical terminologies, basic electrical elements, semiconductor

electronics, junction diode, Bipolar junction transistor, Field effect

transistor. Function of Sensors, Performance terminology.

Displacement / Position Sensors, Proximity sensors, Velocity / Motion

sensors, Force Sensors, Temperature sensors, Fluid pressure sensor,

Light sensors. Factors for selection of sensors.Purpose of signal

conditioning.Interfacing with a microprocessor, Signal conditioning

processes, protection circuits.A/D converters, D/A converter,

Multiplexer, Data Acquisition.Analog and Digital Indicators, Digital

display, Alarm Indicators, Recorders, magnetic recording.

Hydraulic/Pneumatic Actuation: Power supplies, Direction control

valves, Pressure control valves, Cylinders, Process control valves,

Rotary actuators. Mechanical Actuation: Types of motion, Kinematic

chain, cams, gears, belt and chain drives, ratchet and pawl, Geneva

mechanism. Electrical Actuation: Switching devices, solenoids,

electrical motors i.e. A.C. motor and its types, D.C. motor and its

types, stepper motor. Continuous and discrete processes, control

modes.Proportional mode, derivative mode, integral mode, PID

controllers, adaptive control.Digital controllers. Logic gates, Boolean

algebra, application of logic gates, sequential logic, logic families,

Fuzzy logic. Microcomputer Structure, Micro controller, Applications

and Programming.Basic structure of PLC, Input/Output processing,

PLC programming, mnemonics, selection of PLC.Digital

communication and interfacing.

Text Book:

1. Bolton, W., Mechatronics: Electronic Control Systems in

Mechanical and Electrical Engineering, 4

ed., Pearson Education,

2013.

Reference Book:

1. Alciatore, D.G. and Histand, M.B., Introduction to Mechatronics

and Measurement Systems, 4

ed., McGraw Hill, 2012.

Course Code: MEL459

Course Title: GAS TURBINE AND COMPRESSOR

Structure (L-T-P): 3-0-0

Prerequisite: MEL351

Contents: Introduction to gas turbines and compressor, its

classification and application, Gas Turbine Cycles: Ideal and actual

cycles, multi-stage compression, reheating, regeneration, combined

and cogeneration. Energy transfer between fluid and rotor, axi-

symmetric flow in compressors and gas turbines.Centrifugal

Compressors: Principles of operation, compressor losses, adiabatic

efficiency, slip factor, pressure coefficient, power unit and design

consideration for impeller and diffuser systems, performance

characteristics. Axial Flow Compressors: Elementary theory, vortex

theory, degree of reaction, simple design, elementary air-foil theory,

isolated airfoil and cascade theory, three dimensional flow, stages,

stage efficiency and overall efficiency, performance characteristics.

Turbines: Axial flow and radial flow turbines, impulse and reaction

turbines, fundamental relations and velocity triangles, elementary

vortex theory, limiting factors in turbine design, application of airfoil

theory to the study of flow through turbine blades, aerodynamic and

thermodynamic design considerations, blade materials, blade

attachment and blade cooling.

Gas Turbine Power Plants: Fuel and fuel feed systems, combustion

systems-design considerations and flame stabilization, regenerator

types and design, gas turbine power plant performance and matching,

application

Text Books:

1. Saravanamuttoo, H.I.H., Rogers, G.F.C., Cohen, H.

andStraznicky, P.V., Gas Turbine Theory, 6

ed., Pearson

Prentice Hall, 2008.

2. Ganesan, V. Gas Turbines, 3

ed., Tata McGraw-Hill Education,

2010.

Reference Books:

1. Bathie, W. W., Fundamentals of Gas Turbines, 2

ed., John

Wiley & Sons, 1995.

2. Lefebvre, H. and Ballal, D. R., Gas Turbine Combustion, 3

ed.,

CRC Press, 2010.

Course Code: MEL 460

Course Title: QUALITY ASSURANCE

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents: Introduction to quality assurance and quality

control, Various elements in Quality Assurance program, On-line and

Off-line quality control, Statistical concepts in quality, probability

distributions, Central limit theorem, Chance and assignable causes of

quality variation, Process control charts for variables, Control chart

parameters, Target process setting/Centering, Control limits and

specification limits. Process capability studies, Capability indices,

Quality remedial/Corrective actions, Special purpose control charts,

Reject limits, Variables inspection and attributes Inspection, Quality

rating, Defects classification, Average run length. Economics of

product inspection, Quality costs, ISO 9000 quality system, Product

quality and reliability, Failure data analysis and life testing. Problems

and illustrations in Quality Assurance, Automatic gauging, automatic

measuring machines for inspecting multiple workpiece dimensions,

measurement with coordinate measuring machines.

Text Book:

1. Mitra A., Fundamentals of quality control and improvement, John

Wiley & Sons, 2016.

Reference Books:

1. Leavenworth R.S., Grant E.L., Statistical Quality Control, Tata

McGraw-Hill Education, 2000.

2. Bestefield D.H., Quality Control, Prentice Hall, 2003.

3. Feigenbaum A.V., Total Quality Control, McGraw-Hill, 1983.

Course Code: MEL 461

Course Title: ROBOTICS

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents:

Common Robot configurations, coordinate system, work envelop,

Elements of robotic system, actuators, controller, teach pendant,

sensors, Specification of robots, Applications.

Robot Kinematics: Forward and reverse Kinematics of 3 DOF Robot

arms, Homogeneous transformations, Kinematics equation using

homogeneous transformations.

Actuators: Hydraulic actuators, Pneumatic actuator, Electrical

actuators, Directional control, Servo Control Flow control valves.

End Effectors: Classification of end effectors, Drive systems,

Magnetic, Mechanical, Vacuum and Adhesive Grippers, force analysis

in Grippers.

Sensors: Need for sensing systems, Sensory devices, Types of

sensors, Robot vision system. Robot Programming: Types of

Programming, Motions Programming, Robot Languages - VAL

systems.

Text Book:

1. Groover, M. P., Industrial Robotics: Technology, Programming

and Applications, 2

ed., Tata McGraw Hill, 2013.

Reference Books:

1. Deb, S. R., Robotics Technology and Flexible Automation, 2

ed., Tata McGraw Hill, 2010

2. Niku, S., Introduction to Robotics: Analysis, Control, Applications,

ed., Wiley, 2011.

3. Radhakrishnan, P., Subramanyan, S. and Raju, V.,

CAD/CAM/CIM, 3

ed., New Age International Publishers, 2011

4. Koren, Y., Robotics for Engineers, 2

ed., McGraw Hill, 1987.

Course Code: MEL 462

Course Title: AUTOMATION IN PRODUCTION

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents:

Modern developments in automation in manufacturing and its effect

on global competitiveness, Need and implications of automation in

Manufacturing, Different types of production systems and automation,

hard/fixed automation including process automation, Rapid

prototyping and tooling. Hydraulic and pneumatic actuators, their

design and control devices, sequence operation of

hydraulic/pneumatic actuators, designing of complete systems with

hydraulic, electro-hydrolic and digital control devices, applications in

manufacturing, material handling systems, feeders, orienting and

escapement devices, their analysis and design, Automatic assembly

machines, designing for automatic assembly.

Text Book:

1. Groover M.P., Automation, Production Systems and Computer

Integrated Manufacturing, 3rd. ed., Pearson Education, 2014.

Reference Books:

1. Grover, M.P. and Zimmers, E.W., CAD/CAM: Computer-Aided

Design and Manufacturing, Pearson Education, 2008.

2. Kundra, T.K., Rao, P.N. and Tewari, N.K., Computer Aided

Manufacturing, Tata McGraw Hill, 2010.

3. Koren, Y., Computer Control of Manufacturing Systems, 3rd ed.,

Tata McGraw Hill, 2005.

Course Code: MEL 463

Course Title: POWER PLANT ENGINEERING

Structure (L-T-P): 3-0-0

Pre-requisite: MEL351

Contents:

Introduction to power systems and technologies, Demand variation

and forecasting, Diesel generators: Systems, equipment and layout.

Fossil-fuelled steam power plants: Boiler and accessories, turbine and

accessories, feed cycle equipment, generator. Combined cycle power

plants: Gas turbine, heat recovery boiler. Nuclear power: Nuclear

reactions, fuel, moderator and coolant, neutron life cycle. Reactors:

Light water, heavy water, gas-cooled and fast reactors. Hydroelectric

plants: Features and siting, Pelton, Francis, Kaplan and propeller

turbines construction, mini- and micro-turbines. Introduction to

renewable energy sources, Co-generation systems, Environmental

issues, sustainability and future scenarios.

Text Book:

1. Nag, P.K., Power Plant Engineering, 4

ed., Tata McGraw Hill,

2014.

2. El-Wakil, M.M., Power Plant Technology, 4

ed., Tata McGraw

Hill, 2011.

Reference Books:

1. British Electricity International, Modern Power Station Practice,

ed., Pergamon Press, 1992.

2. Babcock and Wilcox Company, Steam: Its Generation and Use,

ed., Kessinger Pub. Co., 2008.

3. O‘Hayre, R.P. and et. al., Fuel Cell Fundamentals, 2

ed., John

Wiley and Sons, 2009.

4. Skrotzki, B.G.A. and Vopat, W.A., Power Station Engineering and

Economy, Tata McGraw Hill, 2009

5. Arora, S.C. and Domkundwar, S., A Course in Power Plant

Engineering, 3

ed., DhanpatRaiand Sons, 1988.

6. Frederick, T.M., Power Plant Engineering, 3

ed., East-West

Press, 1989.

7. Woodruff, E.B., Lammers, H.B. and Lammers, T.F., Steam Plant

Operation, 9

ed., McGraw Hill, 2012

Course Code: MEL 464

Course Title: RENEWABLE ENERGY SOURCES

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents:

Need for alternative sources of energy, various options available,

principles of energy conversion using solar energy, wind energy,

Ocean energy, Geothermal energy and MHD power generation.

Introduction, Spectral distribution of solar radiation, beam and

diffused radiations, Liquid flat plate collector & their analysis,

collector efficiency factor and heat removal factor, Solar air heaters

and their analysis. Solar tracking system and Solar energy storage.

Water heating, space heating, drying, refrigeration, distillation,

cooking, PV systems. Introduction to biogas generation, fixed dome &

floating drum biogas plants, their constructional details, factors

affecting generation of biogas, utilization of biogas. Introduction,

methods of obtaining energy from biomass, inceneration, thermal

gasification.Up draft and down draft gasifiers, their constructional

details, Applications of producer gas.Power in wind, basic principles

of wind energy conversion, basic components of WEC Systems,

Savonius and Darrieus rotors, application of wind energy.

Introduction, Ocean Thermal Electric Conversion (OTEC), open and

closed cycle of OTEC, hybrid cycle, energy from tides, generation

components of tidal power plants, single and double basin design

arrangement, estimation of tidal power and energy.

Text Book:

1. Rai, G.D., Non-Conventional Sources of Energy, 4th ed.,

KhannaPublishers, 2009.

2. El-Wakil, M.M., Power Plant Technology, 4th ed., Tata McGraw

Hill, 2011.

Reference Books:

1. Beckman, W.A. and Duffie, J.A., Solar Engineering of Thermal

Processes, John Wiley & Sons, 2013

2. Sukhatme S.P. and Nayak J. K., Solar Energy: Principles of

Thermal Collection and Storage, 3

ed., Tata McGraw Hill, 2013.

3. Parulekar, B.B. and Rao, S., Energy Technology, 3

ed.,Khanna

Publishers, 1995.

4. Garg, H.P. and Prakash J., Solar Energy: Fundamentals and

Applications, 8

ed., Tata McGraw Hill, 2007.

5. Khandelwal, K.C. and Mahdi, S.S., Biogas Technology: A Practical

Handbook, 1

ed., Tata McGraw Hill, 1988.

Course Code: MEL 465

Course Title: AUTOMOBILE ENGINEERING

Structure (L-T-P): 3-0-0

Pre-requisite: MEL301

Contents:

Brief history of automobile development, present scenario of

automobiles in India and abroad.Chassis, articulated and rigid

vehicles, vehicles layout. Engine construction: structural components

and materials, Steering system: principle of steering, centre point

steering, steering linkages, geometry and wheel alignment, power

steering, special steering systems. Tyres specifications, factors

affecting tyre performance, special tyres, wheel balancing,

Suspension system: function of spring and shock absorber,

conventional and independent suspension system, telescopic shock

absorber, Clutch: requirements of a clutch system, types of clutches.

Transmission: necessity of transmission, principle, types of

transmission, sliding mesh, constant mesh, synchromesh, transfer

gear box, gear selector mechanism, propeller shaft, universal joint,

constant velocity joint. Differential: need and types of rear axle and

front axles. Brakes: mechanical brakes, hydraulic, pneumatic brakes,

electrical brakes, engine exhaust brakes, drum and disc brakes,

comparison.

Introduction to hybrid and electric vehicles: Configuration and control

of DC Motor drives, Configuration and control of Induction Motor

drives, configuration and control of Permanent Magnet Motor drives,

Configuration and control of Switch Reluctance Motor drives, drive

system efficiency.Basic concept of electric traction, introduction to

various electric drive-train.

Energy Storage: Introduction to Energy Storage Requirements in

Hybrid and Electric Vehicles, Battery based energy storage and its

analysis,

Text Book:

1. Singh K., Automobile Engineering (Vol. I & II), 13

ed., Standard

Publishers and Distributors, 2012.

2. Iqbal Hussein, Electric and Hybrid Vehicles: Design

Fundamentals, CRC Press, 2003.

Reference Books:

1. Ramalingum, K.K., Automobile Engineering, 2

ed., Scitech

Publications, Chennai, 2011.

2. Srinivasan, S., Automotive Engines, 2

ed., Tata McGraw Hill,

New Delhi, 2004.

3. Crouse, W.H. and Anglin, D.L., Automotive Mechanics, 10

ed.,

Tata McGraw Hill, 2007.

Course Code: MEL 466

Course Title: I. C. ENGINES

Structure (L-T-P): 3-0-0

Pre-requisite: MEL351

Contents:

Thermodynamics of fuel-air cycles, actual cycles.Ignition, normal and

abnormal combustion in SI and CI engines.Conventional and

alternative fuels for engines.Conventional and electronic fuel

management systems for SI and CI engines.Design of combustion

chamber for SI and CI engines.Engine emissions.Lubrication, cooling.

Supercharging and turbocharging. Modern developments in IC

engines.

Text Book:

1. Ganesan, V., Internal Combustion Engines, 4

ed., Tata McGraw

Hill, 2013.

2. Heywood, J.B., Internal Combustion Engine Fundamentals,

McGraw Hill, 2012.

Reference Books:

1. Obert, E.F., Internal Combustion Engines and Air Pollution,

Intext Educational Publishers, 1974.

2. Dankundwar, A.V., Course in Internal Combustion Engines,

DhanpatRai and Sons, 2002.

3. Mathur, M.L. and Sharma, R.P., Course in Internal Combustion

Engines, 8

ed., Dhanpat Rai and Sons, 2003.

4. Pulkrabek, W.W, Engineering Fundamentals of the Internal

Combustion Engine, 2

ed., Pearson Education, 2014.

Course Code: MEL467

Course Title: TOOL DESIGN

Structure (L-T-P): 3-2-0

Pre-requisite: NIL

Contents:

Tool design procedure, Tool making practices, Tooling materials and

heat treatment, Cutting tools design, Locating and clamping methods,

Design of drill jigs, Design of fixtures, Design of sheet-metal bending,

forming and drawing dies, Design of sheet-metal blanking and

piercing dies.

Text Book:

1. Donaldson, C. and et.al., Tool Design, 4th ed., Tata McGraw Hill,

New Delhi, 2013.

Course Code: MEL468

Course Title: MACHINE TOOL DESIGN

Structure (L-T-P): 3-2-0

Pre-requisite: NIL

Contents:

Design requirements of machine tools. A design approach for

machine tools. Identification and quantification of objectives and

constraints in machine tool design. Estimation of power requirements

and selection of motor for metal cutting machine tool spindles. Design

of gearbox, spindle and guideways. Principles of design of structural

components, namely, head stock, tail stock, carriage, table, knee,

column and overarms to achieve desired static & fatigue strength,

stiffness, dynamic characteristics and other requirements. Exercises

on the design of machine tools using existing CAD software

packages.Introduction to computer integrated manufacturing systems

and CNC machine tools. Design/selection of linear motion systems,

ball, screws, CNC feedback devices, controllers, feed drives and

servomotors for CNC machine tools.Recent developments in CNC and

other machine tools.

Text Book:

1. Basu, S.K., and Pal, D.K., Design of Machine Tools, 5th

ed., Oxford and IBH Publishing House, 2011

Reference Book:

1. Mehta, N.K., Machine Tool Design and Numerical Control,

3rd ed., Tata McGraw Hill, 2012.

Course Code: MEL469

Course Title: MATERIAL RESOURCE PLANNING

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents:

Role of materials management techniques in material productivity

improvement, cost reduction and value improvement. Purchase

management, incoming material control. Acceptance sampling and

inspection.Vendor rating system.Inventory management, various

inventory control models.aterial requirement planning

systems.Discrete lot sizing techniques.Wagner and whitin

algorithm.Silver-Meal algorithm. Algorithms for multi-product lot

sizing with constraints inventory management of perishable

commodities. Design of inventory distribution systems. Inventory

management in Kanban and Just-in-time.

Reference Books:

1. Gopalakrishnan, P., Purchasing and Materials

Management, TMH, New Delhi, 2010.

2. Tersine, R.J., Material Management and Inventory

Systems, North Holland, New York, 1979.

Course Code: MEL 470

Course Title: COMPUTER INTEGRATED MANUFACTURING

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents:

Brief introduction to CAD and CAM – Manufacturing Planning,

Manufacturing control- Introduction to CAD/CAM – Concurrent

Engineering-CIM concepts – Computerised elements of CIM system –

Types of production – Manufacturing models and Metrics –

Mathematical models of Production Performance – Simple problems

– Manufacturing Control – Simple Problems – Basic Elements of an

Automated system – Levels of Automation.

Programmable control – Introduction, NC controller technology,

computer numerical control combined with DNC/CNC systems,

adaptive control machining systems.

Process planning – Computer Aided Process Planning (CAPP) –

Logical steps in Computer Aided Process Planning – Aggregate

Production Planning and the Master Production Schedule – Material

Requirement planning – Capacity Planning- Control Systems-Shop

Floor Control-Inventory Control – Brief on Manufacturing Resource

Planning-II (MRP-II) & Enterprise Resource Planning (ERP).

Group Technology(GT), Part Families – Parts Classification and

coding – Simple Problems in Opitz Part Coding system – Production

flow Analysis – Cellular Manufacturing – Composite part concept –

Machine cell design and layout – Quantitative analysis in Cellular

Manufacturing – Rank Order Clustering Method – Arranging Machines

in a GT cell – Hollier Method.

Types of Flexibility – FMS – FMS Components – FMS Application &

Benefits – FMS Planning and Control– Quantitative analysis in FMS –

Simple Problems. Automated Guided Vehicle System (AGVS) – AGVS

Application – Vehicle Guidance technology – Vehicle Management &

Safety

Text Book:

1. Groover M.P., Automation, Production Systems and Computer

Integrated Manufacturing, 3

ed., Pearson Education, 2014

Reference Books:

2. Ranky, P.G., The Design and Operation of FMS: Flexible

Manufacturing Systems, IFS, 1983.

3. Harrington, J., Computer Integrated Manufacturing, Krieger

Publication, 1985.

4. Shover, R.N., An Analysis of CAD/CAM Application with

Introduction to CIM, Prentice Hall.

5. Bedworth, D.D. and et.al., Computer Integrated Design and

Manufacturing, McGraw Hill, 1991

6. Scholz-Reiter, B., CIM Interfaces, Chapman and Hall, 1992.

7. Goetsch, D.L., Fundamentals of CIM Technology: Automation in

Design, Drafting and Manufacturing, Delmar Publication, 1988.

Course Code: MEP 471

Course Title: MACHINE SYSTEM DESIGN LAB

Structure (L-T-P): 0-0-4

Pre-requisite: NIL

Contents:

Design of a small Mechanical system consisting of shaft, bearing,

gear/belt. Only output expected shall be provided. Complete concept

shall be developed by students. Final report shall consist of concept,

Power and Force calculations, Component design report, Production

Drawing of compounds, Assembly and sub assembly drawing of

components.

This task can be done by a group of not more than 3 students

Text Book:

1. PSG Design Data Book.

Course Syllabi (Under Graduate)

Department of Chemistry

Course Code: SCL155

Course Name: APPLIED CHEMISTRY

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents:

Quantum Chemistry: Operators, Eigen functions & Eigen values,

Schrodinger Equation & its applications, Particle in a box, wave

function for hydrogen atom, Atomic orbital and molecular orbitals.

Kinetics: Rate of chemical reaction, Factors influencing rate of

reactions, Order & molecularity of reactions, 1

, 2

and Zero order

reactions, Study of kinetics of reaction: Hydrolysis of EtOAc, Concept

of activation energy, Significance, Arrhenius equation, Effect of

catalyst and temperature on reaction rate, Theory of absolute reaction

rates, Chain reaction, Enzyme Kinetics.

Electrochemistry: Introduction, Arrhenius ionic theory, Debye-Huckel

theory of strong electrolytes, conductance, specific conductance and

equivalent conductance, Ostwald‘s dilution law, Different concepts of

acids & bases concept of pH & pOH, Buffer solution, Henderson-

Hasselbalch equation, common ion effect. Conductometric titration.

Corrosion: Dry & wet corrosion, mechanism of wet corrosion, galvanic

corrosion, concentration cell corrosion, pitting corrosion, waterline

corrosion, Electrochemical Series, Factors influencing corrosion,

Corrosion control.

Co-ordination Chemistry: Properties, coordination compounds, Terms

used in Co-ordination Complex, Nomenclature of complex

compounds, Valence bond theory, Explanation of formation of some

complex, Crystal field theory, Crystal field splitting in octahedral and

tetrahedral complex, Catalysis by metal salts: Wilkinson‘s catalyst,

Role of metal ions in Biological systems: Structure of Hemoglobin.

Stereochemistry: Stereochemistry, geometrical isomerism, optical

activity, Optical Isomerism, diastereomers, Optical activity without

asymmetric carbons, E, Z & R, S System of nomenclature.

Nano Chemistry: Synthesis of nanoparticles, Nano molecules,

applications.

Green Chemistry: Introduction, Goal & signification, Basic

Components, Alternative feedstock‘s, alternative regents, Alternative

reaction conditions, atom economy, optimization of frameworks for

greener synthetic pathways, Industrial applications of green

chemistry.

Text books:

1. Kuriacose, J. C., Rajaram, J., Chemistry in Engineering and

Technology; Vol. I & II, Mc.GrawHill

2. Jain & Jain, Engineering Chemistry, 15

ed. Dhanpat Rai

Publishing Company (P) Ltd., 2012.

Reference Books:

1. Narula, A. K., Vermani O. P., Industrial Chemistry; Galgotia

Publication.

2. Alanna, O. G., Engineering Chemistry; Mc Graw Hill.

3. Vairam, S., Engineering Chemistry; Wiley India.

4. Dara, S. S., A Textbook of Engineering Chemistry; S. Chand &

Company Ltd. New Delhi.

Course Code: SCL464

Course Name: ENGINEERING CHEMISTRY

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents:

Polymer Science: Nomenclature, Types of Polymerization,

Classification of Polymers, bonding in polymers, Mechanism of

Polymerization, stereochemistry of polymers, molecular weight of

polymer, methods of polymerization-free radical, anionic, cationic and

coordination polymerization, Characterization of polymers,

thermoplastic (low and high density polythenes PMMA) and

thermosetting resins (bakelite, epoxy), PVC (Polyvinyl chloride), PVA

(polyvinyl acetate), rubbers (natural and synthetic) Inorganic

polymers- preparation and uses of silicones.

Water Chemistry: Sources, hard & soft water, Temporary &

Permanent hardness, Units of Hardness, Disadvantages of hard

water, Scale & Sludge formation in boilers, estimation of hardness by

EDTA method, softening of water, zeolite process & demineralization

by ion exchangers, specifications for drinking water, treatment of

water for domestic use, desalination - Reverse Osmosis &

Electrodialysis, industrial waste water treatment.

Lubricants: Lubricants - Definition, theories of lubrication,

characteristics of lubricants, viscosity, viscosity index, oiliness, pour

point, cloud point, flash point, fire point, additives to lubricants, Solid

lubricants.

Dyes: Introduction, Classification, Azo dyes, Triarylmethane dyes,

Malachite Green, Rosaniline, Phenolphthalein, Alizarin, Methylene

Blue, Other uses of Dyes.

Fuels: Fuels - Classification, examples, relative merits, types of coal,

determination of calorific value of solid fuels, Bomb Calorimeter,

theoretical oxygen requirement for combustion, Coal, Types of

carbonization of coal, proximate & ultimate analysis of coal,

manufacture of metallurgical coke, Petroleum, Cracking, Synthetic

Petrol, Knocking, LPG, desulphurization of petrol.

Text Books:

1. Vermani, O.P. and A.K. Narula, Applied Chemistry: Theory and

Practice. 2

-Edition. New Age International Publishers, New

Delhi, 2008.

2. Morrison, R.T. and R.N. Boyd, Organic Chemistry. 7

-Edition.

Pearson Publisher, 2010.

Reference Books:

1. Jain and Jain, Engineering Chemistry. 15

-Edition. Dhanpat Rai

& Sons, New Delhi, 2012.

2. Sharma, Deepa, Textbook of Engineering Chemistry. 1

-Edition.

MedTech, Scientific International Pvt. Ltd., New Delhi, 2015.

3. Bahl, A. and B.S. Bahl, Advanced Organic Chemistry. Reprint.

S. Chand & Company Ltd., New Delhi, 2012.

Course Code: SCL466

Course Name: QUANTUM CHEMISTRY

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents:

Mathematical concepts: Vectors, Vector product, linearly dependant

and independent vectors, linear vector space (introduction only) and

basis set of LVS, Matrix, Types of Matrix (Symmetric, skew-

symmetric, Hermitian, skew-Hermitian, unit, diagonal, unitary, etc)

and their properties, Matrix equations, concept of eigen value and

eigen vectors.

Quantum mechanics: Origin of Quantum mechanics, postulates of

Quantum Mechanics, concepts of operators, Schrodinger equation,

solution of the Schrodinger equation for simple systems viz. particle

in a box, the harmonic oscillator, rigid rotor, the hydrogen atom,

Born-Oppenheimer approximation. Variation theorem, linear variation

principle. Perturbation theory (first order and non-

degenerate).Application of perturbation theory to the Helium atom.

Concept of Angular momentum. Eigen value of angular momentum

operator, method of ladder operator, spin. Slater determinant wave

functions. Term symbol (R-S and j-j coupling) and spectroscopic

states. Molecular orbital theory, LCAO principle, formation of

molecular orbitals from atomic orbital, construction of molecular

orbitals of H

by LCAO principle, physical picture of bonding and

anti-bonding molecular orbitals, VB and MO theory. Huckel theory of

conjugated systems, application to ethylene, butadiene, cyclopropenyl

system, cyclobutadiene, etc.

Text Books:

1. Levine, I.N., Quantum Chemistry, 7

-Edition. PHI Learning Pvt.

Ltd.,2014.

2. Szabo, A., and Neil S. Ostlund, Modern Quantum Chemistry:

Introduction to the Advanced Electronic Structure Theory,

Revised Edition. Dover Publications, Inc., 1996.

Reference Books:

1. McQuarrie, D.A. Quantum Chemistry, University Science Books,

2011.

Course Code: SCL467

Course Name: REAGENT CHEMISTRY

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents:

1. Organolithium reagents: Use of lithium in organic synthesis:

Lithium diisopropyl amide (LDA)

2. Organocupper regents: Use of Cupper in organic synthesis:

Gilman‘s reagent

3. Organopalladium Chemistry: Use of Palladium in organic

synthesis

4. Organosilicon Chemistry: Use of Siliconin organic synthesis:

trimethylsilyliodide

5. Organotitanium Chemistry: Use of Titanium in organic synthesis:

Tebbe‘s reagent

6. Organotin Chemistry: Use of Tin in organic synthesis: tri-n-butyl

tin hydride

7. Organomagnesium Reagent: Use of Grignard reagents in organic

synthesis

8. Oxidation reaction: Use of DDQ, Selenium dioxide, Osmium

tetroxide in organic synthesis

9. Reduction Reaction: Use of complex metal hydrides, Wilkinson‘s

catalyst, Lithium aluminium hydride (LAH), Sodium Borohydride,

Di iso butyl aluminium hydride (DIBAL-H) etc.

10. Use of Baker‘s Yeast, Phase transfer catalyst, DCC etc. in organic

synthesis.

Text Books:

1. Carruthers, W. and I. Coldham, Modern Methods in Organic

Synthesis, 4

-Edition, Cambridge University Press, 2015.

2. March, J., Advanced Organic Chemistry, 4

-Edition. Wiley,

2007.

Reference Books:

1. Smith, M.B. and J. March, March’s Advanced Organic

Chemistry: Reactions, Mechanisms and Structures, Wiley,

2007.

2. Morrison, R.T. & R. N. Boyd, Organic Chemistry, 7

-Edition.

Pearson Publisher, 2010.

Course Syllabi (Under Graduate)

Department of English

Course Code: HML151

Course Title: SOCIAL SCIENCE

Structure (L-T-P): 2-0-0

Prerequisite: NIL

Contents:

Introduction:Social Sciences, Relationship between an individual and

society, Humanities and Social Sciences in Technology Institutes.

Human civilization, History of science and Technology in India.

Society and Culture: What is society, Components of society. Culture,

characteristics of culture, Ethnocentrism, Sub-culture and

Assimilation

Industry and Society:Industrialisation in India, Industrial Policy

Resolutions, Privatization, Liberalization and Globalization, Impact on

Indian Society.

Group Behaviour, Group Properties (Roles, Norms, Status, Size and

Cohesiveness) & Group Decision Making.

Motivation: What is Motivation, Early Theories & Classical Theories

Leadership: What is Leadership, Trait Theories, Behavioural Theories,

Contingency Theories & Decision Theory

Study of Political Organization: Indian Constitution, Fundamental

Rights, directive principals and RTI.

Main Social Problems in India: Corruption & Public Perception,

Slums, Social JusticeMigration, Poverty, Violence, Rise of religious

fundamentalism and Terrorism.

Text Books:

1. Elgin F. Hunt and David C. Colender, Social Science: An

Introduction to the Study of Society, 13

edition Pearson

Education, 2009.

2. Shabbir, S., Sheikh, A.M and Dwadashiwar, J., A New Look into

Social Sciences, S. Chand and Company Ltd., 2012.

3. Ahuja, R., Social Problems in India, 2

ed., Rawat Publications,

2013.

Reference Books:

1. Bhushan,V. and Sachdeva, D. R., Fundamentals of Sociology,

Pearson Education, 2012.

2. Sirohi, A., Fundamentals of Sociology, 1

ed., Dominant

Publishers, New Delhi, 2012.

3. Chandra, R., Globalisation, Liberalisation, Privatisation and

Indian Polity (set of 8 Vols.), Isha Books, Delhi, 2004.

4. Ahuja, R., Indian Social System, Rawat Publications, Jaipur,

2009.

5. Baber, Zaheer. ―Science, Technology and Colonial Power‖ in

Social History of Science in Colonial India, edited by S. Irfan

Habib & Dhruv Raina, Oxford University Press. pp.102-158,

2009.

6. Babbie, Earl. The Practice of Social Research, 10th Edition,

Thomson, Singapore, 2006.

7. Giddens, Anthony and Sutton Philip, W. Sociology, 7

edition,Wiley: Delhi, 2013.

8. Haralambos,M. and Heald, R.M., Sociology-Themes and

Perspective, Oxford University Press, New Delhi, 2008.

9. Kaur, Ravinder. "Locating the Humanities and the Social Sciences

in Institutes of Technology" Sociological Bulletin, Volume 54,

Number 3, pp. 412-427, 2005.

10. Ritzer, George."The McDonaldization of Society" in Sociological

Odyssey: Contemporary Readings in Sociology, Edited by

Patricia A. Adler and Peter Adler, Belmont: Wadsworth, pp.

371-379, 2001.

11. Srinivas, M. N. Social Change in Modern India, Orient

Blackswan, New Delhi, 2007.

Course Code: HML152

Course Title: PRINCIPLES OF INDUSTRIAL MANAGEMENT AND

PSYCHOLOGY

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents:

Industrial Management, Scope and relevance, allied disciplines,

Psychology, Industrial Psychology, Basic concepts Psychology,

Learning, Perception and Motivation. Causes of Behaviour, Individual

differences, Intelligence and Personality,

Industrial Sociology and Management, Evolution of Management

thought, Principles of Industrial Management, Planning, Co-ordination

and Communication, Types of Communication.

Personnel and Human Resource Management, Fundamentals of

Marketing Management, Consumer Behaviour and advertising,

Materials Management, ABC Analysis, ISO 9000 and ISO 14000.

Theories of Motivation, Maslow, Alderfer, Herzberg and Norms theory

of Motivation, Leadership in Industry, Nature and Types, Theories of

Leadership.

Conflict and Negotiation, Conflict Management. Fatigue in Industry.

Work stress. Nature and sources of stress, Individual difference,

coping strategies, Employee counselling. Quality of work life.

Text Books:

1. Kaila, H.L. Industrial and Organisational Psychology (2 vols.),

Kalpaz

Publications, Delhi, 2006.

2. Talwar, P. Human Resource Management, Isha Books, Delhi,

2006.

Reference Books:

1. Mittal, M.L., Essentials of Educational Technology and

Management, Pearson Education, 2012.

2. Baron, R.A. and et.al., Fundamentals of Social Psychology,

Pearson Education, 2012.

3. Srivastava, S.K. and Kumari, P., Organisational Behaviour: A

Comprehensive Study, Global Vision Publishing House, 2009.

Course Code: HML153

Course Title: INDUSTRIAL PSYCHOLOGY AND HUMAN RESOURCE

MANAGEMENT

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents:

Industrial Psychology, Basic concepts of Psychology, Learning,

Perception and Motivation. Causes of Behavior, Individual differences,

Intelligence and Personality, History of Industrial Psychology in India.

Job analysis, Job design and Job appraisals.Selection and

recruitment, Selection procedure, Selection Methods, Types of

Selection Tests.Intelligence, Personality, Aptitude and Psycho-Motor

Tests.Training, Types of Training, Job Satisfaction.

Foundation of Group Behaviour, Work Team Morale, Motivation,

Importance and Nature, Theories of Motivation, Maslow, Alderfer,

Herzberg and Norms theory of Motivation, Leadership in industry,

Nature and Types, Theories of Leadership.

Conflict and Negotiation, Conflict Management. Fatigue in Industry.

Work stress. Nature and sources of stress, Individual differences,

coping strategies, Employee counseling. Quality of work life.

Human Resource Management. Participation in Decision making.

Collective bargaining. Trade Union Movement in India. MBO and

Quality Circle Movement, Wage and Salary Administration.H.R.M.in

Asia, Europe and U.SA.

Text Books:

1. Pandey, A., Psychology and Industrial Efficiency, Global Vision

Publishing

House, New Delhi, 2006.

2. Baer, R., Stress Management, Global Vision Publishing House,

New Delhi,

2010.

Course Code: HML154

Course Title: INDUSTRIAL ECONOMICS

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents:

Industrial Economics its scope and utility Economics systems:

Capitalist, Communist and mixed economy. Land system and

agriculture, taxes, money and credit, trade and exchange rate.

Population, size composition, quality and growth trend, occupational

distribution. Division of Economy into private and public sector Role

of public sector in Indian economy.Privatization, Urbanization,

Westernization, Modernization and Globalization. Scope and

significance of productivity, Measurement of productivity, Tools of

productivity, Factors influencing on industrial productivity, National

productivity council. Globalization India and WTO. Trade policy of

government of India, Import and Export Policy, New trade policy IMF,

World Bank and associates Economic planning in India, Employment

and economics.

Text Books:

1. Mishra, R.C. and Pandey, R.S., Fundamentals of Financial

Management, Global Vision Publishing House, 2010.

2. Chaudhary, M.A., History of International Trade and Monitory

Economy, Global Vision Publishing House, 2008.

Reference Books:

1. Sivayya, K.V. and Das, V.B.M., Indian Industrial Economy, 5

rev. ed., S. Chand and Company, 1983.

2. Mishra, S.K. and Puri, V.K., Indian Economy: Its Development

Experience, 29

rev. ed., Himalaya Publishing House, Mumbai,

2011.

3. Dutta, R. and Sundaram, K.P.S., Indian Economy, S. Chand and

Company, New Delhi, 2002.

Course Code: HML155

Course Title: INDUSTRY AND SOCIETY

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents:

Factory as a social system Formal and informal organization.Impact of

social structure on industry.Impact of industry on society.Changing

profile of labour. Labour management Relation Participative

Management Industrial Dispute and Trade unions, tripartite and

Bipartite Body. Preventive and settlement machinery, Industrial

health and safety Impact of Industrialization on family, education, and

stratification. Class and class conflict in industrial sector obstacles

and limitation of industrialization. Migration of work force

Types of Productive Systems: Guild System of Production, Factory

system of Production, Putting-Out system of Production,

Industrialisation and Daniel Bell's Model of Post Industrial Society

Organisational Theories: Max Weber's Model of Bureaucracy,

Classical Management Principles, F.W.Taylor's Principle of Scientific

Management, Human Relations Approach, Fordism and Japanese

Organisational Structure

Recent Trends in Work and Industry: IT Industry in India,

McDonaldisation of Society, Future of Work Social Exclusion in Indian

MNCs

Text Books:

1. Moore, F., Environment and Society, 1

ed., Dominant

Publishers and Distributors, New Delhi, 2003.

2. Sen, S., Human Rights in a Developing Society, APH Publishing

Corporation, 2011.

Reference Books:

1. Khanna, O.P., Industrial Engineering and Management, 7

ed.,

Dhanapat Rai and Sons, 1985.

2. Bhagoliwal, T.N, Economics of Labour and Industrial Relations,

ed., Sahitya Bhawan, 1982.

3. Murthy, C.S.V, Business and Ethics, APH Publishing House, New

Delhi, 2003.

4. Bhowmik, S., Industry, Labour and Society, Orient Blackswan,

New Delhi, 2012.

5. Balakrishnan, Pulapre. (2006)"Benign Neglect or Strategic Intent?

Contested Lineage of Indian Software Industry" Volume XLI,

Number 36, Economic and Political Weekly, pp: 3865-3872.

6. Bell, Daniel. " Welcome to the Post-Industrial Society" Physics

Today, Volume 29, Number 2, pp.46-49, 1976.

7. Bhoumik, Sharit, K. "The Working-Class Movement in India:

Trade Unions and the State" in People's Rights: Social

Movements and the State in the Third World, Eds. Manorajan

Mohanty , Partha Nath Mukherji and OlleTornquist, New Delhi:

Sage.pp.311-334,1998.

8. Giddens, Anthony and Sutton Philip, W. Sociology, 7

edition,

Wiley: Delhi, 2013.

9. Jodhka, S. Surinder and Newman, Katherine. "In the Name of

Globalisation Meritocracy, Productivity and Hidden Language of

Caste" Volume XLII, Number 41, Economic and Political Weekly.

pp: 4125-4132, 2007.

10. Ritzer, George. "The McDonaldization of Society" in Sociological

Odyssey: Contemporary Readings in Sociology, Edited by Patricia

A. Adler and Peter Adler, Belmont: Wadsworth, pp. 371-379,

2001.

11. Ritzer, George. The McDonaldization of Society, 6th edition.

Thousand Oaks: Pine Forge,2011.

12. Schneider, Eugene.V. "Types of Productive Systems" in Industrial

Sociology: The Social Relations of Industry and the Community,

Chapter 3, New York: McGraw-Hill.pp.32-53,1969.

13. Thorat, Sukhadeo and Attewell, Paul. "The Legacy of Social

exclusion: A Correspondence Study of Job Discrimination in India"

Volume XLII, Number 41, Economic and Political Weekly.

pp:4141-4145, 2007.

14. Weber, Max. "Characteristics of Bureaucracy" in Readings in

Industrial Sociology, Edited by William A. Faunce, Chapter 6,

New York: ACC, pp.133-135, 1967.

Course Code: HML156

Course Title: PERSONNEL MANAGEMENT AND INDUSTRIAL

RELATION

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents:

Human behaviour of an individual as a member as a small group and

as a member of an organization, Influence of organizational culture on

individuals.

Analysis of dynamic behaviour of organization by simulation structure

of organization and flow of men, money, material, information capital,

equipment and order, system models on the basis of policy of

management to evolve effective policies for management.

Scope and objectives of personnel management, personnel planning,

labour market, Job design,recruitment and selection, training and

placement.

Job evaluation, merit rating wage incentives, employee health,

security and welfare, morale and motivation, industrial disputes,

voluntary and compulsory settlement machinery.

Labour legislations, Performance appraisal and evaluation

Text Books:

1. Sharma, A., Management and Job Performance, Gyan

Publication House, 1986.

2. Mathur, K.M., Managing Human Resource Development: An

Indian Perspective, Gyan Publication House, 2001.

Reference Books:

1. Knouse, S.B., Human Resources Management Perspectives on

TQM:Concepts and Practices, ASQC Quality Press, 1996.

2. Schuler, R.S., Managing Human Resources, 6

ed., South-

Western College Publishing, 1998.

3. Mamoria, C.B., Mamoria, S. and Gankar, S.V., Dynamics of

Industrial Relations, Himalaya Publishing House, New Delhi,

2008.

Course Code: HMP151

Course Title: PREPARATORY ENGLISH

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Objective: To enhance the linguistic competence of the weaker

section of the students.

Contents:

1. Understanding of spoken and written English

2. Writing simple sentence

Practical Exercises:

1. Sentence: Structure, Types of Sentences

2. Parts of Speech

3. Tenses & Voice

4. Paragraph Construction

5. Reading and Listening Comprehension

Text Books:

1. Wren and Martin. English Grammar and Composition. New

Delhi: S. Chand, 2012.

Reference Book:

1. Sinha, R.P. Current English Grammar and Usage with

Composition. Delhi: OUP, 2001.

Course Code: HMP152

Course Title: Technical Communication

Structure (L-T-P): 2-0-2

Prerequisite: NIL

Contents:

Objective: The primary objective is to develop in the under-graduate

students of engineering a level of competence in English required for

independent and effective communication for academic and social

needs.

Unit-I Communication Fundamentals: Analysing Communication;

Technical Communication: objectives and definitions; Information and

Communications technology (ICT) in organizations; Levels of

Communication, Barriers to Communication, Communication in

Professional Context, and Importance of Effective Communication.

Unit-II Listening Skills: Kinds of Listening, Hearing and Listening,

Barriers in Listening, Enhancing Listening Skills.

Speaking Skills: Art of Speaking, Stages of Speaking, Speech Style

and Techniques, Types- Extempore, impromptu, debate.

Reading Skills: Introduction of different kinds of reading materials:

technical & non-technical; Reading Comprehension: Effective Reading

Skills, Reading Strategies, Textual Reading of Essays—(i) CEM

Joad‘s ―A Dialogue on Civilization‖; (ii) A G Gardiner‘s ―On Saying

Please‖

Writing Skills: Effective writing practice; brevity & clarity in writing –

Cohesion & coherence in writing; Report Writing, Proposals, Writing

Minutes, Professional Correspondences-Letter Writing, Job Application

Letter, Résumé and CV.

Unit-III Speech Mechanism: Focus on organs of Speech, Sound and

Speech, Vowels and Consonants, Diphthongs, Speech Process

Phonetics; Phonology, Phonemes, Stress, Rhythm, Intonation,

Morphemes, Register, Style, Cluster, Variety in English; Places and

Manners of Articulations.

Developing Speaking Skills: Instructions, Face to Face

Communication, Meetings, Public Speaking, Group Discussion, Team

Talk, Presentations, Seminars, Conferences, Interviews Techniques,

and Mock Interviews, Conversation Practice Based on Audio and

Visual Aids, Dialogues Delivery, Speech and Debate, Speaking on a

given topic, Extempore, Words Exercise and Words Games to enhance

Self-Expression, Pronunciation Practices.

Unit-IV Remedial Grammar: Parts of Speech, Determiners, Modals,

Tenses-Verb Agreement, Active and Passive Voice, Direct and Indirect

Speech, Transformation of Sentences, Sentence Structure, Finding

Common Errors.

Vocabulary Building: Synonyms, Antonyms, One Word Substitutions,

Word Formations, Idioms and Phrases, Homophones, Prefix, Suffix

and Vocabulary Usage, Spelling.

Text Books:

1. Bansal, R. K. and J B Harrison. Spoken English: A Manual of

Speech and Phonetics. Orient BlackSwan, 2013.

2. Green, David. Contemporary English Grammar Structures and

Composition. Macmillan Publishers India Limited, 2013.

3. Sharma, Sangeeta and Binod Mishra. Communication Skills for

Engineers and Scientists. Prentice-Hall of India Pvt.Ltd, 2009,

Sixth Reprint 2015

4. Kumar, Sanjay & Pushp Lata. Communication Skills. New Delhi:

OUP, 2016.

Reference Books:

1. Allen, W.S. Living English Speech. Orient Longman, 1984.

2. Wallace, H.R. and Masters, L.A. Personality Development for

Work. South-Western Educational Publication, 1996.

3. Carnegie, D. and Napoleon Hill. Public Speaking & Pleasing

Personality. BN Publishing, 2006.

4. Balasubramanian, T. A Textbook of English Phonetics for

Indian Students. MacMillan, 2000.

5. Mohan, Krishna and Meera Banerji. Developing Communication

Skills. MacMillan, 2013.

Course Code: HMP153

Course Title: URBAN SOCIOLOGY

Structure (L-T-P): 0-1-0

Pre-requisite: NIL

Contents:

Introduction to Urban Sociology: Origin, Nature and scope, Relevance

of the study of Urban Sociology

Basic concepts: The City, Urbanization, Urbanism, Urbanity, Suburb,

Metropolitan

Theories of Urban Sociology:

(a) Classical sociological traditions as urban and city dimensions,

Emile Durkheim, Karl Marx, Max Weber and Ferdinand Tonnies

(b) Urban community and spatial dimensions. Park, McKenzie

of Life and Redfield: Rural Urban Continuum.

(d) Concentric Zone Theory and Sector Theory.

(e) Richard Florida-The Creative Class

Process of Urbanization in India: Growth of Urban Population in

India, Emergence of Cities, Causes and Consequences of Urbanization

Urban Social Structure: Urban family, urban social stratification –

Caste and Class, Occupational Divisions.

Urban Slums: Problems and challenges, urban development

programmes.

Urban Planning: Meaning and Principles of Urban Planning, Urban

Policy in India.

Text Book:

1. Patel, Sujata and Kushal Deb. Urban Studies. New Delhi: Oxford

University Press, 2006.

Reference Books:

1. Sharma, Rajendra. Urban Sociology. New Delhi: Atlantic

Publishers, 2010.

2. Ronnan, Paddison. Handbook of Urban Studies. New Delhi: Sage,

2000.

Course Code: HML351

Course Title: INDUSTRIAL MANAGEMENT

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents:

General/Operation Management: Principles of Management, Forms of

Companies ,Direct and Indirect taxes, Introduction to Export-Import,

GST(Goods and Service Tax).Basics of Operation Management, Total

Quality Management, 6Sigma, JIT and Concepts of Supply

Management. Case Studies in Operation management

Finance Management: Basic Accounts, Balance-Sheet and Profit

&Loss Statement, Capital Structure, Working Capital Management,

Stock Market, Investment Management, Sources of Finance. Current

Case Studies in Finance

Marketing Management: Basics of Marketing, Marketing Strategies,

Sales and Distribution, Advertisement and Branding, Consumer

Behaviour. Current Case Studies in Marketing

Human Resource Management: Concepts of HRM, Job Analysis &

design, Job Description, Recruitment, Selection and Induction,

Performance Appraisal, Training and Development. Case Studies in

HRM

Text Books:

1. Philip Kotler and Kevin Lane Keller, Marketing Management,

Pearson India Education, Pvt. Ltd., 2016.

2. Bedi, Kanishka , Production and Operations Management, Oxford

University Press, 2018

3. Maheshwari, S. N, Management Accounting and Financial

Control, Sultan Chand & Sons, 2015.

Reference Books:

1. Fischer, Cythia and James B Shaw, Human Resource

Management, Houghton Mifflin Company, 1993.

2. Prasad, L. M. Principles and Practices of Management, Sultan

Chand & Sons, 2015.

Course Code: HML451

Course Title: SOCIAL DEMOGRAPHY

Structure (L-T-P): 3-0-0

Prerequisite: HML101

Contents:

Social Stratification and Change: Features of Stratification, Types of

Stratification, Social Mobility, Vertical Social Mobility, Horizontal

Social Mobility, Marxist, Weberian and Functionalist Perspectives on

Stratification; Caste System; Sankritisation; Westernisation,

Secularisation and Modernisation

Research Methods in Social Science: Ethnography, Case Study,

Sampling, Survey Method, Experimental Method, Life History,

Comparative Research, Historical Analysis, Human Subjects and

Ethical Problems in Research.

Population Studies: Nature and Scope, Sources of Population Data,

India‘s Population Policy, Growth and Distribution, Population

Theories, Population Structure and Characteristics, Mortality, Fertility,

Socio-Cultural Context of Fertility, Migration: The Concept of

Migration, Emigration, immigrationand Assimilation, The Second

Generation, Migration and Brain Drain, Remittance, Illegal

Immigration, ,

Text Book:

1. Bhende, A. Asha and Kanikar Tara, Principle of Population

Studies.

Himalaya Publishing House, New Delhi, 2010.

Course Code: HML452

Course Title: ECONOMICS FOR ENGINEERS

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Contents:

Introduction to principles of economics: Micro and macro, The

economy: Its basic Problems and working system, Demand and

Supply analysis, Elasticity of Demand and Supply: Price elasticity,

Cross elasticity, Income elasticity, application of demand elasticity,

elasticity and sales revenue, Theory of Consumer Demand- Cardinal

and Ordinal approach, Consumer surplus. Analysis of Production and

Cost: Theory of Production, Law of variable proportion, Marginal Rate

of Technical substitution, Isoquant, Cost Analysis- Short run and Long

run, Break even analysis. Market structure and Pricing of products:

Pricing and Output determination under perfect competition,

monopoly, monopolistic and oligopoly market.

Text Books:

1. Pindyck and Rubinfeld, Microeconomics, 7

edition, PHI, New

Delhi, 2009.

2. Ahuja H.L., Business Economics, S Chand and Company

publishers, 2008.

Reference Books:

1. Gupta G. S., Managerial Economics, 2

edition, Tata Mcgraw-

Hill, New Delhi, 2011.

2. Dwivedi D.N., Microeconomics: Theory and Applications, 2

edition, Dorling Kindersley (India) Pvt. Ltd., 2012.

3. Peterson. H. C. and Lewis W. C., Managerial Economics, PHI,

New Delhi, 4

edition, 2006..

Course Code: HML 453

Course Title: STUDIES IN CONTEMPORARY INDIAN ENGLISH

LITERATURE

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Objective: to familiarize students with contemporary thought

manifested in different genres of Indian English Writing and enable

them to study and interpret such texts.

Contents:

Unit-1.GirishKarnad, The Fire and the Rain

Unit-2.Vikram Seth, ―The Frog and the Nightingale‖, Amitav Ghosh:

―The March of the Novel through History: The Testimony of My

Grandfather's Bookcase‖ from The Imam and the Indian

Unit- 3.Kiran Desai: The Inheritance of Loss

Unit- 4.Mahesh Dattani, Brief Candle: Three Plays

Unit- 5.Arundhati Roy: The God of Small Things

Unit-6.Meenakshi Mukherjee: The Twice Born Fiction: Themes and

Techniques of the Indian Novel in English

Text Books:

4. GirishKarnad. The Fire and the Rain, Oxford University Press,

2004.

5. Vikram Seth. The Collected Poems, Penguin India, 2000.

6. Amitav Ghos. The Imam and the Indian, Penguin India, 2010.

7. Kiran Desai. The Inheritance of Loss, Penguin, 2014.

8. Mahesh Dattani, Brief Candle, Penguin India, 2010.

9. Arundhati Roy: The God of Small Things,Penguin India, 1

edition, 2002.

10. Meenakshi Mukherjee: The Twin Born Fiction: Themes and

Techniques of the Indian Novel in English. Heinemann, 1971.

Reference Books:

1. K.R.Srinivasa Iyenger. Indian Writing in English. Revised Edition,

Sterling Publishers, 2012.

2. Arvind Krishna Mehrotra, ed. Illustrated History of Indian

Literature in English. Orient Blackswan, 2005.

3. M.K. Naik. Indian English Poetry: From the Beginnings upto

2000.1 ed. Pencraft International, 2006.

4. A History of Indian English Literature. SahityaAkademi, 2009.

Course Code: HML454

Course Title: CREATIVE WRITING IN ENGLISH

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Objective: To nurture writing skills for different forms of creative and

professional writings.

Contents:

Introduction to Creative Writing: Creativity, Imagination and

Resistance, Writer and the Text, Processes of Creative Writing and Its

Development, Reading and the Individual Writer, Composition of

Creative Writing; Creativity and Propaganda.

Art and Craft: Tropes and Figures, Varieties of English, Playing with

Words, Grammar and Word Order, Tense and Time, Textual Reading

of Stephen Leacock‘s ―On The Need For A Quiet College‖; Francis

Bacon‘s ―Of Studies‖.

Fiction Writing: Writing Literary Fiction, Creative Non Fiction-History

and Popular Fiction, Short Story and the Novel, Plot, Character,

Modes of Narration, Setting, Literature of Reality Writing for Media:

Print Media: Reportage, Feature Writing, Editorials, Columns, Textual

Reading of Popular Columnists including M.J. Akbar, Tavleen Singh,

Guru Charan Das and Shobha De.

The Broadcast Media: Radiobroadcast,

The New Media: Internet, Advertising: Writing and Sensitivity, Public

Taste and Demand, Novelty of Ideas and Expression, Brevity and

Focus, Verisimilitude,

Travel Writing: Reporting the World, Revealing the Self, Representing

the Other, Elements of Style, Getting Published, Tools of the Art of

Good Travel Writing, Finding and Focusing the Story, Crafting

Structure, What it takes to be a Good Travel Writer

Studies of Masterpiece Scripts with screening of visual clips

Text Book:

1. Dev, Anjana Neira, Anuradha Marwah and Swati Pal. Creative

Writing: A Beginner's Manual. New Delhi: Pearson & Longman,

2009.

2. Morley, David. The Cambridge Introduction to Creative Writing.

New York: Cambridge University Press, 2007.

Reference Books:

1. Blair, Beth. Break Into Travel Writing. USA: McGraw-Hill, 2012

2. Forster, E.M. Aspects of the Novel. New Delhi: Atlantic

Publishers, 1995.

3. Kaufman, Scott Berry and James C. Kaufman. The Psychology of

Creative Writing. New York: Cambridge University Press, 2009.

4. Lonely Planet's Guide to Travel Writing: Expert Advice from the

World Leading Travel Publisher. 3rd ed. Lonely Planet

Publications, 2013.

5. Ramet, Adele. Creative Writing. 7

Edition. Begbroke: How to

Books, 2007.

Course Code: HML455

Course Title: CORPORATE COMMUNICATION FOR TECHNOCRATS

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Objective: To develop professional skills in students to prepare them

for job opportunities. To facilitate them to meet the requirements of

mushrooming corporate affairs.

Contents:

Corporate Communication in Theory:

Communication: What is Corporate Communication?: An Overview;

Verbal and Non-verbal communication; Corporate Communication:

Discipline or Job Description?; Barriers in Business Communication;

Corporate Communication and Public Affairs; Leadership and

Communication; Communication and Public Opinion; Corporate

Communication Management; Advancements of Technical

Communication in the Software Industry; Changing Business

Environments; Communicating Strategically: Corporate

Culture/Citizenship/Philanthropy/Social Responsibility; Negotiation

Skills and Strategies.

Corporate Communication in Practice:

Comprehensions: Reading and Listening Comprehension, Expansion

(Paragraph Writing), Note-making, Professional Letter Writing;

Writing executive Summary; Research Writing: Articles for publication

(Journals), dissertation, qualities of research writing and

documentation; Styles of Business Writing.

Presentation: PPT Presentation, Group Presentation, Solo

Presentation, Poster Presentation: Picture/Placard/Advertisement;

Netiquette: Concept, components and evolution, etc. Reading and

Analysing Text/s: Aravind Adiga: The White Tiger. Reading, reviewing,

analysing and summarizing and paraphrasing. VAT: Video

Apperception Test, Reviewing Video Clips/Movies, etc.

Text Books:

1. Kaul, Asha. Business Communication. New Delhi: Prentice Hall,

2000.

2. Sharma, Sangeeta and Binod Mishra. Communication Skills for

Engineers and Scientist. 6

rprt. Delhi: PHI, 2009.

Reference Books:

1. Groves, William Bill. Leadership Made Easy. Speedy Publication,

2014.

2. Hartley, Peter and Clive Bruckmann. Business Communication.

London & New York: Routledge, 2002.

3. Murphy, Herta, Herbert William Hildebrandt. Effective Business

Communication. New York: McGraw Hill, 1991.

4. Mirel, Barbara. Reshaping Technical Communication. London:

Lawrence Erlbaum, 2002.

5. Lesikar, Raymond V., John D. Pettit. Business Communication.

McGraw-Hill, 1999.

Course Code: HML456

Course Title: SCREENWRITING AND DOCUMENTARY

FILMMAKING Structure (L-T-P): 3-0-0

Prerequisite: NIL

Objective: To foster writing skills for screen and stage including the

technicality of the vocation.

Contents:

Introduction to Screenwriting: What Is a Screenplay?, Screenplay

Structure, Knowing the Subject, Creation of a Character, Building a

Character, Story and Character, How to Begin, Know Your Ending,

Setting Up the Story, Plot Points, Scene, Sequence, Building the Story

Line, Screenplay Form, Screenplay-Terms, Writing the Screenplay,

Adaptation and Collaboration, After It is Written, Editing

Introduction to Documentary Film Making: What is a Documentary?,

Planning a Documentary, Idea and Script, Documentary Research,

Documenting Behaviour, Visual Evidence, Conducting Interviews,

Reality and Credibility and Ethics, Directing, Verisimilitude in

Documentary, Location, Improvisation in Setting, Closing Thoughts on

Cameras, Learning Camera Skills, Shots and Angles, Lighting and Set,

Sound Effects and Sound Technicalities, Post Production Jobs, Editing

Screening of movies and documentaries: Study of docu-fiction and

videos like ―Children of the Pyre‖, ―Gulabi Gang‖, ―Seeds of Plenty

Seeds of Sorrow,‖ ―Udaan,‖ ―Life of Pi,‖ ―The Mistress of Spices,”

etc.

Text Book:

1. Field, Syd. Screenplay: The Foundations of Screenwriting. Newly

Revised and Updated Edition. New York: Delta Trade, 2005.

2. Hampe, Barry. Making Documentary Films and Videos: A

Practical Guide to Planning, Filming, and Editing

Documentaries. 2

Edition. New York: Henry Holt and Company,

2007.

Reference Books:

2. Holden, Tom. Get Started in Filmmaking. Teach Yourself Series.

John Murray Learning. 2010.

3. Horton, Andrew and Julian Hoxter, eds. Screenwriting. New

Brunswick and New Jersey: Rutgers University Press, 2014.

4. Mckee, Robert. Story: Style, Structure, Substance and the

Principles of Screenwriting. Methuen Publishing Ltd., 1999.

Course Code: HML457

Course Title: INTERPRETING LITERATURE, THEATER AND

CINEMA

Structure (L-T-P): 3-0-0

Prerequisite: NIL

Objective: To facilitate students to interpret multiple modes of literary

and performative texts to hone their softs-skills. To sharpen their

communication competence through various audio-visual toolkits.

Contents:

Introduction to literature and communication; Interpreting texts,

Reading, writing and paraphrasing; Texts and its cinematic

adaptations. Literary studies in India. Leadership Skills: reading &

application: William Shakespeare‘s Macbeth, Jhumpa Lahiri‘s The

Namesake (text and movie).

Introduction to theatre & personality development; Mime and one

act play; Texts and its theatrical adaptations; Creative Writing;

Interaction with public; Role play. Vijay Tendulkar‘s Silence! The

Court is in Session, Girish Karnad‘s Tuglaq.

Introduction to cinema as a mode of communication; Character

analysis; Youth, cinema and politics of communication; Interpreting

commercial advertisements; Juvenile cinema and adolescent

communication. Film studies in India. Crises Management: 3 Idiots,

Guru, Manjhi: The Mountain Man.

Practice sessions: PPT presentations; Enactment of plays; Reading

novels, short stories; Reciting poems, public interactions.

Text Books:

1. Lahiri, Jhumpa. The Namesake. Mariner Books, 2004.

2. Karnad, Girish. Tuglaq. Delhi: OUP, 1997.

1. Shakespeare, William. Macbeth. Rupa, 2003.

2. Tendulkar, Vijay. Silence! The Court is in Session. Delhi: OUP,

2017.

Reference Books

1. Prasad, B. A Background to the Study of English Literature.

Laxmi Publications, 2016.

2. Miller, Katherine. Communication Theories: Perspectives,

Processes and Contexts. McGraw Hill, 2004.

3. Nellhaus, T. Theatre, Communication, Critical Realism (What is

Theatre?). Palgrave Macmillan, 2010.

4. Sharma, Sangeeta, Binod Mishra. Communication Skills for

Engineers and Scientists. Delhi: PHI, 2009.

5. Sell, Roger D. Literature as Communication: The Foundations of

Mediating Criticism. John Benjamins Publishing, 2000.

Course Syllabi (Under Graduate)

Department of Mathematics

Course Code: SCL151

Course Title: PREPARATORY MATHEMATICS

Structure (L-T-P): 0-0-0

Pre-requisite: NIL

Contents:

Differential Calculus: Set theory, concept of functions, types of

functions, limit, continuity, differentiability of functions, graphical

representation of functions.

Integral Calculus: Basic concepts, Integration as a limit of sum,

Elementary methods of integration (Integration by parts, by substitution

and by partial fraction) Definite Integral basic rules, properties of

definite integrals.

Geometry: Two dimensional geometry; straight lines, circle, conic

sections. Three dimensional geometry; coordinate system, planes and

straight lines.

Text Books:

1. Thomas, G.B. and Finney R.L., Calculus and Analytic Geometry,

ed., Addison-Wesley, 2003.

2. Loney, S.L., The Elements of Coordinate Geometry: Cartesian

Coordinates Part-1, AITBS Publishers, India, 2014.

Course Code: SCL152

Course Title: APPLIED MATHEMATICS-I

Structure (L-T-P): 3-2-0

Prerequisite: NIL

Contents:

Differential Calculus: Limit, continuity and differentiability of functions

of two variables, partial derivatives and their geometrical

interpretation. Euler‘s theorem on homogeneous functions, Total

differentiation, chain rules, Jacobian, Taylor‘s formula, maxima and

minima, Lagrange‘s method of undetermined multipliers

Integral Calculus: Fundamental theorem of Integral calculus, mean

value theorems, evaluation of definite integrals, Applications in Area,

length, volumes and surface of solids of revolutions, Improper integrals:

Beta and Gamma functions, Multiple Integrals: Double and triple

integrals, change of order of integration, change of variables,

application to area, volumes and C.G.

Vector Calculus: Scalar and vector fields, gradient of scalar point

function, directional derivatives, divergence and curl of vector point

function, solenoidal and irrotational vector fields.Vector integration:

line, surface and volume integrals, Green‘s theorem, Stoke‘s theorem

and Gauss divergence theorem (without proof)

Infinite series: Sequences, Infinite series of real and complex numbers,

Cauchy criterion, tests of convergence, absolute and conditional

convergence, uniform convergence, power series, radius of

convergence.

Text Books:

1. Jain, R.K. and Iyengar, S.R.K., Advanced Engineering

Mathematics, 4

ed., Narosa Publishers, 2014.

2. Thomas, G.B. and Finney R.L., Calculus and Analytic Geometry,

Edition, 2014.

Reference Books:

1. Kreyszig, E., Advanced Engineering Mathematics, 9

ed., Wiley-

India, 2013.

2. Piskunov, N.S., Differential and Integral Calculus (Vol. 1 and Vol.

2), CBS Publishers and Distributors Pvt. Ltd., 2000

3. Greenberg, M.D., Advanced Engineering Mathematics, 2

ed.,

Pearson Education, 2014.

Course Code: SCL153

Course Title: APPLIED MATHEMATICS-II

Structure (L-T-P): 3-2-0

Pre-requisite: NIL

Contents:

Matrices: Linear dependence and independence, Rank of matrix,

consistency of a system of linear equations, Eigen values and Eigen

vectors, Cayley – Hamilton theorem, reduction to diagonal form,

Orthogonal matrices, Hermitian and skew Hermitian matrices, bilinear

form, Quadratic forms.

Ordinary Differential Equations: Degree and order of differential

equation, First order differential equations: Separation of variables and

homogeneous, Exact equation, Integrating factors, Reducible to exact

differential equations, Linear and Bernoulli‘s form, orthogonal

trajectories, Picard's existence and uniqueness theorem (without proof),

First order simultaneous differential equations. Second order linear

ODE with Constant Coefficient, general solutions of homogeneous

equations, Wronskian, reduction of order. Non-homogeneous

equations: undetermined coefficients, variation of parameters, Euler-

Cauchy equation, Series Solution of ODE, Frobenious Method, Bessel

& Legendre equations and properties of their solutions.

Laplace Transforms: Definition of Laplace Transforms, condition for

existence of Laplace Transform, Linearity property, first and second

shifting properties, transforms of derivatives and integrals, evaluation of

integrals by Laplace Transform. Inverse Laplace Transform,

Convolution Theorem, Laplace Transform of periodic functions, unit

step function and Dirac delta function. Applications of Laplace

Transform to solve second order ordinary differential equations.

Fourier Series: Periodic functions, Fourier series for interval length ,

Fourier series for general interval, Fourier series for even and odd

functions, half range sine and cosine series expansions, exponential

form of Fourier series.

Text Books:

1. Kreyszig, E., Advanced Engineering Mathematics, 9th ed., Wiley-

India, 2013.

2. Jain, R.K. and Iyengar, S.R.K., Advanced Engineering

Mathematics, 4th ed., Narosa Publishers, 2014.

Reference Books:

1. Greenberg, M.D., Advanced Engineering Mathematics, 2nd

ed., Pearson Education, 2014.

2. Boyce, W.E. and DiPrima, R.C. Elementary Differential Equations

and Boundary Value Problems, 10th ed., John Wiley and Sons,

2013.

Course Code: SCL251

Course Title: APPLIED MATHEMATICS III

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents:

Fourier Transforms: Fourier integral theorem, Fourier transform,

Fourier Sine and Cosine Transforms, Linearity, Scaling, frequency

shifting and time shifting properties, Convolution theorem.

Z-transform: Z-transform, Properties of Z-transforms, Convolution of

two sequences, inverse Z-transform, Solution of Difference equations.

Numerical Methods Errors: absolute error, relative error, round off

error, truncation error, Solutions of algebraic and

transcendental equations: Bisection Method, Regula Falsi method,

Secant Method, fixed point iteration method, Newton-Raphson method

and convergence of these methods. Newton Raphson method for

system of nonlinear equations and their convergence. Solution of

algebraic system of linear equations: Gauss elimination,

LU Decomposition, Jacobi and Gauss-Seidal iterative methods.

Diagonally dominance and convergence, Solution of tridiagonal

system. Interpolation, Newton‘s Divided Difference, Lagarange‘s

Interpolation, Cubic Spline Interpolation. Numerical Differentiation,

Numerical Integration: Trapezoidal, Simpson‘s Rule, Composite Rule

and their errors. Numerical Solutions of First Order Ordinary Differential

Equations and Simultaneous Differential Equations (IVP): Taylor‘s

Series Method, Euler‘s Method, Runge-Kutta Methods; FDM

Approximations for Derivatives, BVP with Explicit Boundary Conditions,

Implicit Boundary Conditions.

Complex Analysis: Functions of a complex variable: continuity,

differentiability, CR-equations, analytic functions, entire functions,

complex integration, Cauchy‘s integral theorem. Cauchy‘s integral

formula, Pole and Residue, Cauchy‘s residue theorem, Taylor‘s series,

Laurent‘s series, singularities, zeros of an analytic function, contour

integration, the fundamental theorem of algebra. Conformal mapping,

bilinear transformation, transformation by elementary functions.

Text Books:

1. Kreyszig, E., Advanced Engineering Mathematics, 9th ed., Wiley-

India, 2013.

2. Jain, M.K., Iyengar, S.R.K. and Jain, R.K., Numerical Methods for

Scientific and Engineering Computation, 6

ed., New Age

International, 2012.

Reference Books:

1. Gerald, C.F. and Wheatley, P.O., Applied Numerical Analysis, 7

ed., Pearson Education, 2009.

2. Jain, R.K. and Iyengar, S.R.K., Advanced Engineering

Mathematics, 4th ed., Narosa Publishers, 2014.

Course Code: SCL253

Course Title: PROBABILITY AND NUMERICAL METHODS

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents:

Random Variable & Probability Distributions: Random Variable,

Distribution Functions for Continuous and Discrete Random Variables.

Some Special Probability Distributions Like Binomial, Poisson,

Geometric, Normal, Uniform, Exponential and Gamma Distributions.

Bivariate Random Variable and Distribution Functions for Continuous

and Discrete Bivariate Random Variables. Mathematical Expectation,

The Variance and Standard Deviation. Moment Generating Function,

Characteristic Function. Random Processes, Continuous and Discrete,

Deterministic, Stationary, Ergodicity Etc., Correlation Functions,

Autocorrelation and Cross-Correlation, Properties and Applications of

Correlation Functions.

Numerical Methods: Errors: Absolute Error, Relative Error, Round Off

Error, Truncation Error, Solutions of Algebraic and Transcendental

Equations: Bisection Method, Regula Falsi Method, Secant Method,

Newton-Raphson Method and Convergence of these Methods. Newton

Raphson Method for a System of Nonlinear Equations and their

Convergence. Solution of Algebraic System of Linear Equations: Gauss

Elimination, LU Decomposition, Jacobi and Gauss-Seidal Iterative

Methods. Diagonally Dominance and Convergence, Solution of

Tridiagonal System.

Interpolation, Newton‘s Divided Difference, Lagarange‘s Interpolation,

Cubic Spline Interpolation. Numerical Differentiation, Numerical

Integration: Trapezoidal, Simpson‘s Rule, Composite Rule and their

errors. Numerical Solutions of First Order Ordinary Differential

Equations and Simultaneous Differential Equations(IVP): Taylor‘s Series

Method, Euler‘s Method, Runge-Kutta Methods; FDM Approximations

for Derivatives, BVP with Explicit Boundary Conditions, Implicit

Boundary Conditions.

Text Books:

1. Papoulis, A., Probability, Random Variables and Stochastic

Processes, 4th ed., McGraw Hill, 2012.

2. Ravichandran, J., Probability and Statistics for Engineers, Wiley-

India Pvt. Ltd., Reprint Edition: 2015.

3. Jain, M.K., Iyengar, S.R.K. and Jain, R.K., Numerical Methods

for Scientific and Engineering Computation, 6th ed., New Age

International, 2012.

Reference Books:

1. Spiegel, M.R., Schiller, J.J. and Srinivasan, R.A., Probability and

Statistics, 4th ed., McGraw Hill, 2013.

2. Gerald, C.F. and Wheatley, P.O., Applied Numerical Analysis, 7th

ed.,Pearson Education, 2009.

3. Atkinson, K.E., an Introduction to Numerical Analysis, 2nd ed.,

John Wiley and Sons, 2004.

Course Code: SCL254

Course Title: DISCRETE MATHEMATICS

Structure (L-T-P): 3-2-0

Pre-requisite: NIL

Contents:

Set theory, operations on sets-relation and functions, continuity, partial

order, equivalence relations, Peano axioms and induction, recursive

algorithms, program correctness, complexity of algorithms.

Mathematical logic, propositions, predicates and quantifiers, nested

quantifiers, Rules of inference, Introduction to proofs, method of

proofs.

Algebra, homomorphism automorphism, Elements of Theory of some

algebras, semigroups, monoids, groups. Rings, fields, lattices, bolean

Algebra

Graphs: Connectivity, Euler and Hamiltonian Paths, Shortest Path,

Planar Graph, Graph Coloring, transitive closure

Trees: tree traversal, spanning trees, minimum spanning tree

Basics of Counting, The Pigeonhole principle, Combinatorics,

generating functions, recurrences, Counting theorem and applications.

Text Books:

1. Kolman, B., Discrete Mathematical Structures, 6th ed., Pearson

Education, 2014.

2. Garnier, R. and Tayor, J., Discrete Mathematics: Proofs,

Structures and Applications, 3rd ed., Taylor and Francis, 2010.

Reference Books:

1. Rosen,Keeneth H, Discrete Mathematics and Its Applications, 7th

Edition, McGraw Hills Publications, 2012.

2. Liu, C.L., Introduction to Combinatorial Mathematics, McGraw

Hill, 1986.

Course Code: SCL452

Course Title: LINEAR ALGEBRA

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents:

Matrices: Review of Matrix Algebra; Rank of matrix, Row reduced

Echelon form, Solution of the matrix Equation   , Vector Space,

Subspaces, Linear Dependence/Independence, Basis, Dimension,

Range Space and Rank, Null Space and Nullity; Rank nullity theorem,

Linear transformation, Matrix Representation of a linear transformation,

Linear transformation on 



and their representation as square

matrices, Invertible linear operators, Inverse of a non-singular matrix,

Eigen values and eigenvectors of a linear operator; properties of eigen

values and eigen vectors of Hermitian, skew-Hermitian, Unitary, and

Normal matrices (including symmetric, skew-symmetric, and

orthogonal matrices), Characteristic Equation, Bounds on eigenvalues,

Cayley Hamilton theorem, Diagonalizability of matrix.

Inner Product Spaces, Norm, Orthonormal Sets, Gram Schmidt

orthogonalisation process; projections and least squares approximation.

Optimization: Modeling and formulation of optimization problems,

Linear programming and Simplex Algorithm (Big M and Two Phase

Method), Duality and the primal dual method.

Text Books:

1. Hoffman, K. and Kunze, R.A., Linear Algebra, 2nd ed., Pearson

Education, 2012.

2. Bazaraa, M. S., Jarvis, J. J., & Sherali, H. D. (2011). Linear

programming and network flows. John Wiley & Sons.

Reference Books:

1. Krishnamurthy, V., Mainra, V.P. and Arora, J.L., An Introduction

to Linear Algebra, East-West Press, 1976.

2. Bhattacharya, P.B., Jain, S.K. and Nagpaul, S.R., First Course in

Linear Algebra, New Age International Publishers, 2005.

3. Datta, K.B., Matrix and Linear Algebra, Prentice Hall of

India, New Delhi, 2006.

Course Code: SCL453

Course Title: PROBABILITY THEORY AND STATISTICS

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents:

Random Variable & Probability Distributions: Random Variables,

Density function, distribution function for continuous and discrete

R.V.Joint distributions, Distributions of functions of R.V. Mathematical

Expectation, The variance and Standard deviation, Moment Generating

Function, Characteristic Function. Some special probability

distributions like Binomial, Poisson, Geometric, Normal, Uniform,

Exponential Gamma Beta, Chi-Square, Students ‗t‘, F-distribution and

Weibull Distribution.

Statistics: Sampling Theory: Population Parameter, Sample Statistics,

Sampling distributions, Sample mean, Sampling distribution of means,

The Sample variance, and the sampling distribution of variance.

Estimation Theory: Point estimate and Interval Estimates, Reliability,

Confidence interval estimates of population parameters, confidence

intervals for means, proportions and variance.

Tests of Hypothesis and Significance: Statistical decisions, Tests of

hypothesis and significance. Type I and Type II errors. Level of

significance, one tailed and two tailed tests. Tests involving small

samples and large samples .Fitting theoretical distributions to sample

frequency distribution .The chi-square test for goodness of fit.

Text Books:

1. Miller, I. and Miller, M., John E. Freund‘s Mathematical Statistics

with Applications, 7th ed., Pearson Education, 2013.

2. Ravichandran, J., Probability and Statistics for Engineers, Wiley-

India Pvt. Ltd., Reprint Edition: 2015.

3. Parzen, E., Modern Probability Theory and Its Applications, John

Wiley and Sons, 2013.

Reference Book:

1. Spiegel, M.R., Schiller, J.J. and Srinivasan, R.A., Probability and

Statistics, 4th ed., McGraw Hill, 2013.

Course Code: SCL454

Course Title: APPLIED SINGULAR INTEGRAL EQUATIONS

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents:

Introduction: Integral Equations, Basic Definitions, Singular Integral

Equations, Weakly Singular Integral Equation(Able type), Cauchy Type

Singular Integral Equations, Hyper singular Integral Equation.

Elementary Methods of Solution of Singular Integral Equations: Able's

Integral Equation and its Generalization, Integral Equations with

Logarithmic Type of Singularities, Integral Equations with Cauchy Type

Kernels, Solution of Simple Hyper singular Integral Equations,

Application to Boundary Value Problems in Elasticity.

Riemann-Hilbert Problems and Their Uses in Singular Integral

Equations: Cauchy Principal Value Integrals, Solution of Singular

Integral Equations Involving Closed Contours, Riemann-Hilbert

Problems, Generalized Abel Integral Equations, Singular Integral

Equations with Logarithmic Kernels.

Special Methods of Solution of Singular Integral Equations: Integral

Equations with Logarithmically singular Kernels, Integral Equations

with Cauchy Type Kernels, Use of Poincare-Bertrand Formula.

Numerical Methods for Singular Integral Equations: General

Numerical Procedure for Cauchy Singular Integral Equation, Numerical

Solution of Hyper singular Integral Equation using Simple Polynomial

Expansion.

Text Books:

1. Mandal B.N. &Chakrabarti A.N., Applied Singular Integral

Equation, CRC Press, Taylor & Francis, 2011.

Reference Books:

1. Dzhuraev A., Methods of Singular Integral Equation, Longman

Scientific & Technical, John Wiley & Sons, 1992.

2. Jerry A.J., Introduction to Integral Equations with Applications

(2nd Edition), John Wiley & Sons, 1999.

Course Code: SCL455

Course Title: FINITE ELEMENT METHOD STRUCTURE

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents:

Mathematical Preliminaries, Integral Formulations, and Variational

Methods: Weighted Residuals Methods- Galerkin‘s, Collocation and

Least Square Methods. Variational Principles and Methods, Variational

Formulations, Elements of Calculus of Variations, Integral

Formulations, Variational Methods, Bilinear form and weak

formulation,The Ritz Method, Equivalence of Ritz‘s and Galerkin‘s

method for a self-adjoint differential equation.

Finite Element Models for Second-Order Differential Equations in One

Dimension: Basic concepts of Second-Order Differential Equations in

One Dimension, Basic Steps of Finite Element Analysis (Model

Boundary Value Problem, Discretization of the Domain, Derivation of

Element Equations, Connectivity of Elements, Imposition of Boundary

Conditions, Solution of Equations and Post computation of the solution,

Convergence Criteria, h and p Approximations), Applications of Second-

Order Differential Equations in One Dimension to Discrete

Systems/Heat Transfer/Fluid Mechanics/Solid and Structural Mechanics

and Plane Trusses.

Finite Element Models for Boundary Value Problems in Two

Dimensions: Introduction to Boundary Value Problems, The Model

Equation, Finite Element Discretization, Weak Form, Finite Element

Model, Derivation of Interpolation Functions, Evaluation of Element

Matrices and Vectors, Assembly of Element Equations, Imposition of

Boundary Conditions and Post computations, Natural Coordinates,

Numerical Integration, Elemental Equations, Connectivity and

Assembly, Applications to Conduction and Convection Heat Transfer.

Text Books:

1. J.N. Reddy, An Introduction to the Finite Element Method (3rd

Edition), Tata McGraw-Hill Publishing Company Limited.

2. Cook, R. D., Malkus, M.E. P. and Witt, R.J., Concepts and

Applications of Finite Element Analysis, John Wiley and Sons

(2001).

Reference Books:

1. Bathe, K. J., Finite Element Procedures, Prentice Hall (2002).

2. Rao S. S., The Finite Element Method in Engineering (Fourth

Edition), Butterworth-Heinemann (2005).

3. Bhatti M.A., Fundamental Finite Element Analysis and

Applications: with Mathematica and Matlab Computations, John

Wiley & Sons (2005).

4. Fish J. and Belytschko T., A First Course in Finite Elements, John

Wiley & Sons (2007).

5. Zienkiewicz O.C., Taylor R. L. and Fox D.D., The Finite Element

Method for Solid and Structural Mechanics, Seventh Edition,

Butterworth-Heinemann (2013).

Course Code: SCL456

Course Title: FRACTURE MECHANICS

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents:

Overview of Fracture Mechanics: Brief Overview of Theory of

Elasticity, Historical Aspects of Fracture, Kinds of Failure, Brittle &

Ductile Fracture, Modes of Fracture Failure.

Energy Release Rate: Introduction, Griffith's Dilemma, Realization and

Analysis, Energy Release Rate: Definition, Mathematical Formulation,

Change in Compliance & Strain Energy Approach, An elastic

Deformation at Crack-tip, Crack Resistance, Stable & Unstable Crack

Growth, R-curve for Brittle Cracks, Critical Energy Release Rate.

Stress Intensity Factor: Introduction, Stress & Displacement Fields in

Isotropic Elastic Materials, Mathematical Analysis, Westergaard's

Approach, Stress Intensity Factor (SIF) for Wedge Loads on Cracked

Surfaces, Collinear cracks in an Infinitely Long Strip, Principle of

Superposition, Edge cracks, Embedded cracks, Relation between

Energy Release Rate & SIF, Critical SIF.

An elastic Deformation at the Crack Tip: Investigation at the crack-tip,

Approximate Shape & Size of the Plastic Zone, Effective Crack Length,

Irwin Plastic Zone Correction, Plastic Zone Size through the Dugdale's

Approach, Effect of Plate Thickness, J-Integral, Numerical Evaluation of

J-Integral, Crack-tip Opening Displacement.

Mixed Mode Crack Initiation & Growth: Introduction, Mixed Mode

crack Propagation Criteria, Modified Griffith Criterion, Maximum

Tangential Stress Criterion, Strain Energy Density Criterion, Crack

Growth.

Finite Element Analysis of Cracks in Solids: Finite Element Method,

Direct Methods to Determine Fracture Parameters, Indirect Methods to

Determine Fracture Parameters as J-Integral, Energy Release Rate,

Stiffness Derivative, Singular Element &Barsoum Element Method.

Text Books:

1. Kumar Prashant, Elements of Fracture Mechanics, Tata McGraw-

Hill Education Private Limited, 2009.

2. Broek D., Elementary Engineering Fracture Mechanic, Kluwer

Academic Publishers, Dordrecht, 1986.

Reference Books:

1. Anderson T. L., Fracture Mechanics - Fundamentals and

Applications, 3

Edition, Taylor and Francis Group, 2005.

2. Gdoutos E. E., Fracture Mechanics: An Introduction (Solid

Mechanics and Its Applications), 2

Edition, Springer Publications,

2005.

Course Code: SCL462

Course Title: NUMERICAL METHODS FOR DIFFERENTIAL

EQUATIONS

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents:

Variational Methods: Variational Principles and Methods, Variational

Formulations, Elements of Calculus of Variations, Integral

Formulations, Variational Methods (The Ritz Method, Approximation

Functions and the Method of Weighted Residuals).

Finite Element Method for Differential Equations in One

Dimension:Basic concepts of Second-Order Differential Equations in

One Dimension, Basic Steps of Finite Element Analysis (Model

Boundary Value Problem, Discretization of the Domain, Derivation of

Element Equations, Connectivity of Elements, Imposition of Boundary

Conditions, Solution of Equations and Post-computation of the solution,

Convergence Criteria, h and p Approximations), Applications of FEM for

Solving Second-order Differential Equations in One Dimension.

Finite Difference Method for Solving Partial Differential Equations:

Introduction to partial differential equations, Finite Difference Method

for Solving One Dimensional Parabolic Differential Equations (explicit,

fully implicit, C-N scheme), Discussion of Convergence, Stability and

Compatibility, Finite Difference Methods for Elliptic Partial Differential

Equations (Standard five point formula and Diagonal five point

formula).

Text Book:

1. Kreyszig, E. Advanced Engineering Mathematics. 9

-Edition. Wiley

India Edition, 2013.

2. Reddy, J.N. An Introduction to the Finite Element Method. 18

Reprint-2013. Tata McGraw-Hill Publishing Company Limited,

2006.

Reference Books:

1. Bathe, K. J. Finite Element Procedures. 7

Indian Reprint. Prentice

Hall, 2003.

2. Cook, R. D., M.E. P. Malkus and R.J. Witt. Concepts and

Applications of Finite Element Analysis. 4

-Edition. Reprint-2102.

John Wiley and Sons, 2004.

3. Fish, J. and T. Belytschko. A First Course in Finite Elements. John

Wiley & Sons, 2007.

4. Gerald, C.F. and P.O. Wheatley. Applied Numerical Analysis. 6th

Edition. Wesley, 2002.

5. Reddy, J.N. Applied Functional Analysis and Variational Methods

in Engineering. McGraw-Hill, 1986.

6. Smith, G.D. Numerical Solution of Partial Differential Equations.

-Edition. Oxford University Press, 1985

Course Code: SCL463

Course Title: INTRODUCTION TO PARTIAL DIFFERENTIAL

EQUATIONS

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents:

First Order PDEs: Introduction & Formation of PDE's,First order PDE:

Classification of first order PDEs; Complete integral, General integral,

singular integral; Solutions of linear first order PDEs: Lagrange's

Method; First order Non-linear partial differential equation, Method of

characteristic Compatible systems; Charpit's method, special types of

first order equations, Jacobi's Method for nonlinear first order

equations.

Second Order PDEs: Classification of second order PDEs; Canonical

forms for Hyperbolic, Parabolic & Elliptic PDEs; Method of

characteristics; Initial and Boundary value problems (Dirichlet and

Neumann type) involving wave equation, heat equation, Laplace's

equations (solutions by method of separation of variables and Fourier

Transform).

Text Book:

1. Rao, K. S. Introduction to Partial Differential Equations. 3

–

Edition. PHI Learning Pvt.Ltd. ,2011.

2. Snnedon, I.N. Elements of Partial Differential Equations. Dover

Publications, 2006

Reference Books:

1. Jain, R.K. and S.R.K. Iyengar. Advanced Engineering Mathematics.

–Edition. Narosa Publisher, 2014.

2. Kreyszig, E. Advanced Engineering Mathematics. 9

-Edition. John

Wiley & Sons, 2013.

3. Strauss, W.A. Partial Differential Equations: An Introduction. 2

–

Edition. John Wiley & Sons Publisher, 2008.

Course Code: SCL465

Course Title: CONVEX OPTIMIZATION

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents:

Introduction: Basic definition, problem formulation and illustrative

examples. Miscellaneous Application and Model Construction. Convex

Analysis: convex sets, closest point theorem, existence of minimum,

Weierstrass's Theorem, Separation and Support Sets, Convex Cones,

Extreme Points and Extreme Directions, Theorem of alternatives,

Farka's lemma, Gordan's theorem, convex functions, minima and

maxima of convex functions, generalizations. Necessary conditions for

unconstrained nonlinear minimization, Sufficient conditions for

unconstrained nonlinear minimization. Linear programming:

Motivation, formulation, optimality conditions, simplex method, duality

theory: weak and strong duality theorem, dual simplex method.

Constrained optimization: role and definition of constraints, Fritz John

optimality conditions, KKT optimality conditions. Quadratic

Programming,; interior-point methods; Case studies: signal processing,

statistics and machine learning, control and mechanical engineering,

digital and analog circuit design, and finance.

Text Books:

1. Bazaraa, M. S., Hanif D. Sherali, and Chitharanjan M. Shetty.

Nonlinear programming: theory and algorithms, 3

-Edition. John

Wiley & Sons, 2013.

2. Rao, Singiresu S., and S. S. Rao. Engineering optimization: theory

and practice, 4

-Edition. John Wiley & Sons, 2009.

Reference Books:

1. Fletcher R. Practical Methods of Optimization, 2

Edition. John

Wiley, 2009.

2. Belegundu, A. D., and Tirupathi R. Chandrupatla. Optimization

concepts and applications in engineering. 2nd-Edition. Cambridge

University Press, 2011.

3. Boyd, Stephen, and LievenVandenberghe. Convex optimization.

1st-Edition. Cambridge University Press, 2004.

4. Mohan, C., and K. Deep. Optimization techniques. 1st-Edition,

New Age Science, 2009.

Course syllabi (Under Graduate)

Department of Physics

Course Code: SCL154

Course Title: APPLIED PHYSICS

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents:

Quantum mechanics: Wave nature of a particle, Planck‘s quantum

hypothesis, Black body radiation, Photoelectric effect, X-ray

production, Compton effect, Davisson Germer experiment, De-Broglie

concept, Heisenberg Uncertainty Principle. Physical significance of

Wave function, Probability density, Expectation value, Eigen value

equation, Operators, Postulates of Quantum theory, Schrödinger wave

equation: Time dependent & Time independent, Particle in 1-D Box,

1-D Harmonic Oscillator, Boundary Conditions, k-space, Density of

states 1D, 2D, 3D systems, Fermi Dirac distribution, Electron

energies, Fermi surface for the free electrons.

Electromagnetics: Maxwell‘s Electromagnetic equations,

Electromagnetic waves, Poynting vectors, Cyclotron.

Optics: Interference, Young‘s Interference, Thin films interference,

Diffraction, Diffraction of gratings, Dispersion, Resolving power, X-ray

diffraction, Polarisation, Introduction to Lasers, Fibre Laser, Ruby

Laser, He-Ne Laser, Semiconductor laser, Optical fiber, Transmission

of light through fibers.

Solid state physics: Atomic potentials, Molecules, Solids, Energy

Bands, Types of solids, Crystal structures: The basis and crystal

structure, Atomic packaging: Simple Cubic Structure, Body Centred

Cubic, Face Centred, Hexagonal Close Packed Structure, Miller

indices, Band theory, Band density of states, Bloch function, Fermi

surface of Solids, Electrical conductivity, Semiconductors, Intrinsic

Semiconductors, p and n-type semiconductors, Hall effect, p-n

junction diodes, Drift current and diffusion current.

Text Books:

1. Beiser, A., Concepts of Modern Physics, 6th Ed., Tata McGraw

Hill, 2009.

2. Ghatak A. K., Optics, 5th Ed., Tata McGraw Hill Education, New

Delhi, 2012.

Reference Books:

1. Halliday, D., Resnick R. and Walker, J., Principles of Physics,

9th Ed., Wiley India, 2013.

2. Krane Keneth S, Modern Physics, Wiley, 3rd Ed., 2012.

3. Pillai, S.O., Solid State Physics, 6th ed., New Age International,

New Delhi, 2010.

4. Dommelen, L.V., Quantum Mechanics for Engineers, Dommelen,

2004.

5. Jenkins, F.A. and White, H.E., Fundamentals of Optics, 4th Ed.,

Tata McGraw Hill, 2001.

6. Ghatak, A.K. and Thyagarajan, K., Fiber Optics and Lasers: The

Two Revolutions, Macmillan India Ltd., 2006.

7. Eisberg, R. and Resnick, R., Quantum Physics, 2nd Edition,

Wiley, 2006.

Course Code: SCL252

Course Title: ELECTRONIC AND ELECTROMAGNETIC MATERIALS

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Contents:

Electrical Conduction: Electrical conductivity, resistivity of materials

and their applications, Effect of temperature and impurity on

conductivity, Conductivity of pure metals and alloys, Mechanical

effect on electrical resistance, Conductivity at high frequencies, Joules

law, Temperature coefficient of resistivity, Heating element, Fixed and

variable resistor.

Lasers: Basic concepts of Lasers, Different types of laser and their

applications.

Optical Fiber: Introduction to optical fiber, Types of optical fiber,

Attenuation and transmission in optical fibre, Manufacturing and their

applications.

Polarization of Dielectrics: Polar and non-polar dielectrics, Basic

concept of polarization, Types of polarization, Dielectric constant,

Internal field in dielectrics, Ferroelectric, Spontaneous polarization,

Curie-Weiss law, Piezoelectric and Pyroelectric, Dielectric loss,

Breakdown in dielectrics. Ceramic, dielectrics used in cables and

transformers.

Magnetic Properties of Materials: Atomic interpretation of

diamagnetic, Paramagnetic, anti-ferromagnetic and ferromagnetic

materials, Ferromagnetic domain, permanent magnets and non-

magnetic steels, nonmetallic magnetic materials, ferrites, Applications

of Magnetic materials in ferromagnetic tapes and memory devices,

Superconductivity and applications.

Text Books:

1. Pillai, S. O., Solid State Physics, 6th Ed., New Age International,

New Delhi, 2010.

2. Dekker, A. J., Electrical Engineering Materials, Prentice Hall of

India, New Delhi, 2013.

Reference Books:

1. Krane, K. S., Modern Physics, 3rd Ed., John Wiley, 2012.

2. Omar, M.A., Elementary Solid State Physics: Principles and

Applications, 4th Ed., Pearson Education, 2008.

3. Kasap, S. O., Principles of Electronic Materials and Devices, 3rd

Ed., Tata McGraw Hill, 2007.

4. Balasubramaniam, R., Callister‘s Materials Science and

Engineering, Wiley India, 2009.

5. Puri, R.K. and Babbar, V.K., Solid State Physics and Electronics,

S. Chand Limited, 2008.

6. Kittel, C., Introduction to Solid State Physics, 8th Ed., Wiley

India, 2008.

Course Code: SCL351

Course Title: INTRODUCTION TO MATERIAL SCIENCE

Structure (L-T-P): 3-0-0

Pre-requisite: SCL154

Contents:

Crystalline structures, Imperfection in solids: Point defects,

Thermodynamics of point defects. Dislocations, Grain Boundaries,

Low and high angle grain boundaries. Heat Treatment, Diffusion

Mechanisms: Steady and non-steady state diffusion, Factors

influencing diffusion. Thermal Behaviour, Phase Diagrams: Unary

phase diagram, Gibbs Phase Rule, Binary Isomorphous Systems,

Lever Rule, Interpretation of phase diagrams, Determination of phase

amounts, Equilibrium and non-equilibrium solidification, Phase

Transformations: Kinetics of phase transformations, Homogeneous

and heterogeneous nucleation, Kinetic considerations of solid-state

transformations. Structural Materials: Nanomaterials, Metals, Non-

metals, Ceramics and Glasses, Polymers composites. Optical and

Magnetic properties of materials.

Text Books:

1. Raghwan, V., Material Science and Engeenearing, Prentice Hall,

India, 5th Ed., 2007.

2. Callister, W. D., Fundamentals of Materials Science and

Engineering, Wiley, 2007.

Reference Books:

1. R. Balasubramaniam, Callister‘s Materials Science and

Engineering, Wiley, 2013.

2. Pillai, S.O., Solid State Physics, 6th Ed., New Age International,

New Delhi, 2010

3. Kittle, C., Introduction to Solid State Physics, Wiley, 2007.

4. Rohrer, Structure and Bonding in Crystalline Materials,

Cambridge University Press, 2001.

5. Hassen, P., Material Science and Technology, Volume 5, Phase

Transformation in Materials.

Course Code: SCL352

Course Title: GREEN ENERGY AND APPLICATIONS

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Course objective: To understand the importance of Green energy

resources, its utilization for mankind applications and also the

environmental impact of these resources.

Contents:

Introduction: Green energy scenario, Potentials, Economics and

Reserves of Energy Resources.

Wind Energy: Fundamentals of wind energy, Wind energy estimation,

Types of wind energy systems, Safety, Environmental impact and

Applications. Hydro Energy: Hydropower resources, Types of hydro

energy systems, Importance, Environmental impact and Applications.

Solar Energy: Fundamentals of solar energy, Solar radiations,

Importance, Measurement and Storage, Solar Cell, Types of solar

energy systems, Environmental impact and Applications. Geothermal

Energy: Geothermal resources, Small hydro-geothermal energy,

Environmental impact and Applications. Ocean Energy: Principles of

ocean energy, Tide characteristics and statistics, Ocean thermal

energy, Ocean Bio-mass, Environmental impact and Applications.

Nuclear Energy: Nuclear reactor physics, Radiation protection, Safety

of nuclear power plants, Waste management, Energy transformations,

Materials in nuclear engineering, Nuclear fuel cycle, Environmental

impact and Applications. Fossil fuels and Alternate Sources of

energy: Fossil fuels, Hydrogen and Storage, Hybrid Systems,

limitations, Tidal Energy, Wave energy systems, Biomass,

Biochemical conversion, Environmental impact and Applications.

Text Books:

1. Godfrey Boyle, Renewable Energy: Power for a Sustainable

Future, 3rd edition, Oxford University Press and Open University,

2012.

2. Non-conventional energy sources, B.H. Khan, McGraw Hill,

2006.

Reference Books:

1. J. W. Twidell, A. Weir, Renewable Energy Sources, EFN Spon.

Ltd., UK, 2006.

2. Bent Sqrensen, Renewable Energy: Physics, Engineering,

Environmental Impacts, Economics and Planning, Academic

Press, 4th edition, 2011.

3. S. P. Sukhatme, Solar Energy, Tata McGraw Hill Publishing

Company Ltd., New Delhi, 1997.

4. L. L. Freris, Wind Energy Conversion Systems, Prentice Hall, UK,

1990.

5. L. Johnson Gary, Wind Energy Systems, Prentice Hall, New York,

1985

6. David M. Mousdale, Introduction to Biofuels, CRC Press, Taylor &

Francis Group, USA 2010.

Course Code: SCL353

Course Title: ADVANCED MATERIALS AND DEVICES

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Course Objectives: To introduce the students with the modern

materials, their properties, applications and associated phenomena

Contents:

Material types and their importance as devices, Basics of magnetism,

magnetic materials, direct and indirect exchange interactions, surface

and confinement effects, magnetic multilayers, giant magneto-

resistance, tunneling magneto-resistance and colossal magneto-

resistance (GMR, TMR and CMR), dilute magnetic semiconductors

(DMS), Multiferroics, high T

superconductors, Smart materials,

materials for high temperature applications, ferroelectric,

piezoelectric, multiferroic and magnetoelectric materials. Topological

insulators, Shape memory alloys: NiTi, Heusler alloys, super-alloys.

Nanomaterials. Synthesis and applications of carbon nanotubes,

graphene and MoS

. Recent discoveries and applications of materials.

Text Books:

1. Cullity B. D. and Graham C. D., Introduction to magnetic

materials, IEEE press and Wiley publications, 2010.

2. Maekawa S., Concepts in Spin Electronics, Oxford University

Press, 2006

3. Pillai S.O., Solid State Physics, New Age International, 8th

edition, 2018.

4. Lagoudas D. C., Shape Memory Alloys: Modeling and Engineering

Applications, Springer, 2008.

Reference books:

1. Rao MSR and Singh S, Nanoscience and nanotechnology:

Fundamentals to frontiers, 1st edition, Wiley, 2017.

2. Callister W. D., Materials Science and Engineering: An

Introduction, John Wiley & Sons, 2007

3. Wang Z. L. and Kang Z. C., Functional and Smart Materials

Structural Evolution and Structure Analysis, 1st edition, Plenum

Press, 1998

Course Code: SCL354

Course Title: NANOSCIENCE AND NANOTECHNOLOGY

Structure (L-T-P): 3-0-0

Pre-requisite: NIL

Course Objectives:

(i) To understand the fundamentals of nanoscience

(ii) Introduce about different classes of nanomaterials

(iii) To instruct basic knowledge on various synthesis and

characterization techniques involved in nanotechnology (iv) To make

the learner familiarize with applications of nanotechnology

Contents:

Introduction and basics: Scientific revolutions, Time and length scale

in structures, definition of a nanosystem, Dimensionality and size

dependent phenomena, Surface to volume ratio, Properties at

nanoscale: optical, electronic and magnetic. Quantum Dots, Quantum

Wells and Quantum Wires, Carbon based nanomaterials: buckyballs,

nanotubes, graphene. Synthesis of nanomaterials: Chemical and

Physical methods. Nanofabrication: Photolithography and its

limitation-electron-beam lithography (EBL), Nano imprint, Soft

lithography patterning. Characterization: Scanning Electron

Microscopy (SEM), Transmission Electron Microscope (TEM), Atomic

force microscopy (AFM). Applications: Solar energy conversion and

catalysis, Molecular electronics and printed electronics,

Nanoelectronics, Coulomb blockade, Single electron transistor, Linear

and nonlinear optical and electro-optical properties, Applications in

displays and other devices, Nanomaterials for data storage, Sensors.

Text Books:

1. Rao MSR and Singh S, Nanoscience and nanotechnology:

Fundamentals to frontiers, 1st edition, Wiley, 2017.

2. Pradeep T., NANO: The Essentials, Tata McGraw Hill India,

2007.

3. Poole C.P. and Owens F.J., Introduction to Nanotechnology, 1st

edition, Wiley-Interscience, 2003.

Reference Books:

1. Nalwa H.S., Nanostructured Materials and Nanotechnology, 1st

edition, Academic Press, 2002.

2. Hornyak G. L., Moore J.J., Tibbals H.F. and Dutta J.,

Fundamentals of Nanotechnology, 1st Edition, 2008.

3. Pradeep T., A textbook of nanoscience and nanotechnology, 1st

edition, Tata McGraw Hill India, 2012.

Course Code: SCL457

Course Title: SEMICONDUCTOR MATERIALS AND

OPTOELECTRONICS

Structure (L-T-P): 3-0-0

Pre-requisite: SCL154

Contents:

Semiconductor: Energy bands & charge carrier, E-k diagram,

Semiconducting materials, Radiative and Non-radiative (Direct and

Indirect) electron-hole recombination, Electron and hole

concentrations, Fermi level, Genaration, recombination & injection,

Junction, Heterojunction, Quantum wells & Superlattices, The

Probabilities of (Band-to-Band) absorption and emission, Rate of

absorption and emission, Electronic processes leading to

luminescence, CIE Chromaticity diagram, Colour temperature, Colour

Rendering Index, Lighting efficiency and efficacy, Colour Mixing, Thin

films & its techniques of preparation, HT–ET layers.

Optoelectronics: LED, Phosphor Converted WLEDs, OLED, LCD &

LED display, CFL. Photo-detector/Photo-conductor, Photodiodes,

Solar cell, CCDs, Semiconducting laser,

Text Books:

1. Saleh, B. E. A. and Teich M. C., Fundamentals of Photonics,

John Wiley & Sons, Inc., 2

Ed. (2007), Ch.15, 16 and 17.

2. Ghione, G., Semiconductor Devices for High-Speed

Optoelectronics, Cambridge University Press (2009).

Reference Books:

1. Yariv and Yeh P., Photonics: Optical Electronics in Modern

Communication, Oxford University Press (2007), 6

Ed., Ch.15-

17.

2. Bhattacharya, A. P., Semiconductor Optoelectronic Devices,

Prentice Hall of India (1995). J. Singh, Semiconductor

Optoelectronics: Physics and Technology, McGraw-Hill Inc.

(1995).

3. Sze S.M. and Kwok K. Ng, Physics of Semiconductor Devices,

3ed Ed., Wiely, 2008.

4. Ben Streetman and Sanjay Banerjee, Solid State Electronic

Devices, 7th Ed., Pearson 2016,

5. Callister, W. D., Materials Science and Engineering: An

Introduction, 6th Ed., Wiley, 2003.

Course Code: SCL458

Course Title: MAGNETIC MATERIALS AND DEVICES

Structure (L-T-P): 3-0-0

Pre-requisite: SCL154

Contents:

Magnetic permeability, Magnetisation, origin of magnetic moment,

Classification of magnetic materials, Domains and Hysteresis,

Magnetis anisotropy, soft and hard magnetic materials,

Superparamagnetism, Spintronics, Superconductivity: general features

of superconductors, Type-I and Type-II Superconductors, Flux

quantization, Quantum tunnelling, Applications of superconductivity,

Production of low magnetic field using Helmholtz coils, solenoid,

electromagnets and high magnetic field using superconducting

magnets, Hall probe, search coils, flux meters and GMR devices,

Magnetic storage, Faraday and Kerr effects, Vibrating sample

magnetometer, SQUID, MRI, NMR and MFM.

Text Books:

1. Pillai, S. O., Solid State Physics, 6th Ed., New Age International,

New Delhi, 2010.

2. Cullity, B. D., Introduction to Magnetic Materials. 2nd-Edition.

California, London: Addison- Wesley Publications, 2008.

Reference Books:

1. Rose-Innes, A. C. and Rhoderick E. H., Introduction to

Superconductivity. 2nd-Ed., Oxford: Pergamon Press, 1978.

2. Spaldin, N. A., Magnetic Materials Fundamentals Applications.

2nd-Ed., Cambridge university press, 2003.