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SCHEME & SYLLABI
OF
M.TECH
MECHANICAL ENGINEERING
w.e.f. 2017 -2018
DEPARTMENT OF MECHANICAL ENGINEERING
YMCA UNIVERSITY OF SCIENCE AND
TECHNOLOGY FARIDABAD-121006
YMCA UNIVERSITY OF SCIENCE AND TECHNOLOGY, FARIDABAD
SCHEME OF STUDIES AND EXAMINATION
M.TECH (MECHANICAL ENGINEERING)
First Semester:
Subject
Code
Subject Name L-T-P Credits Marks Weightage Category
Code Internal External
MME-101 Micro Machining
Processes
4-0-0 4 25 75 PCC
MME-103 Computer Aided
Design &
Manufacturing
4-0-0 4 25 75 PCC
MME-105 IC Engine
Combustion &
Pollution
4-0-0 4 25 75 PCC
MME-107 Machine Tool Design 4-0-0 4 25 75 PCC
MME-109 Seminar 0-0-2 1 15 35 AECC
MME-111 Computer Aided
Design &
Manufacturing Lab
0-0-2 1 15 35 PCC
MME-113 IC Engine
Combustion &
Pollution Lab
0-0-2 1 15 35 PCC
MME-115 Micro Machining
Processes Lab
0-0-2 1 15 35 PCC
MME-117 Discipline specific
Elective I*
4-0-0 4 25 75 DSE
Total 20-0-8 25 185 515
Note: MOOCS course will be opted by students at any time during II to III semester of
their M. Tech programme.
Second Semester:
Subject
Code
Subject Name L-T-P Credits Marks Weightage Category
Code Internal External
MME-102 Welding & Allied Processes 4-0-0 4 25 75 PCC
MME-104 Total Quality Management 4-0-0 4 25 75 PCC
MME-106 Discipline Specific Elective
Course-III*
4-0-0 4 25 75 PCC
MME-108 Mechatronics and Product
Design
4-0-0 4 25 75 PCC
MME-110 Mechatronics Lab 0-0-2 1 15 35 PCC
MME-112 Advanced Welding
Lab
0-0-2 1 15 35 PCC
MME-114 Discipline Specific Elective
Course-II*
4-0-0 4 25 75 DSE
AUD Mandatory Audit Course* 2-0-0 - - - MAC
Total 22-0-6 22 155 445
Third Semester:
Subject
Code
Subject Name L-T-P Credits Marks Weightage Category
Code Internal External
MME-
201
Tribology & Maintenance
Engineering
4-0-0 4 25 75 PCC
MME-
203
Robotics and Automation 4-0-0 4 25 75 PCC
MME-
205
Design Planning & Control
of Production Systems
4-0-0 4 25 75 PCC
MME-
207
Project 0-0-12 6 60 140 SEC
MME-
209
Tribology & Maintenance
Engineering Lab
0-0-2 1 15 35 PCC
GEC General elective Course* 3-0-0 3 25 75 GEC
Total 15-0-14 22 175 475
Fourth Semester:
Subject
Code
Subject Name L-T-P Credits Marks Weightage Category
Code Internal External
MME- 202 Dissertation 0-0-24 12 150 350 SEC
Total 0-0-24 12 150 350
*The student will have to select one subject from list of Discipline Specific Elective Courses,
general elective courses and mandatory audit courses. For the mandatory audit course
students are required to pass the exam.
Discipline Specific Elective-I:
Choose anyone from the following four papers:
MME-117-1 - Numerical Methods & Computing
MME-117-2 - Method Engineering & Ergonomics
MME-117-3 - Computational Fluid Dynamics
Discipline Specific Elective-II:
Choose any one from the following three papers:
MME-114-1 - Modeling & Simulation
MME-114-2 - Jigs & Fixture
MME-114-3 - Tool & Die Design
Discipline Specific Elective-III:
Choose any one from the following three papers:
MME-106-1 – Foundry Technology
MME-106-2 – Fundamentals of management
General elective Course
Courses offered by Computer Engg. Dept
S.No Code Name of Subject
1 GEC-1 Intelligent Systems
2 GEC-2 Cyber laws and Security
3 GEC-3 Soft Computing
4 GEC-4 Web Technology and Information Retrieval
5 GEC-5 Intellectual Property and Rights
Courses offered by Electrical Engg. Dept
S.No Code Name of Subject
1 GEC-6 Installation Testing & Maintenance of Electrical
Equipments
2 GEC-7 Non conventional energy resources & Utilization
3 GEC-8 Utilization of Electrical Power & Traction
Courses offered by Electronics Engg. Deptt.
S.No Code Name of Subject
1 GEC-15 Microprocessor and Interfacing
2 GEC-16 Digital Signal Processing
3 GEC-17 Instrumentation and Control
4 GEC-18 Data Communication and Networking
Courses offered by HAS Dept
S.No Code Name of Subject
1 GEC-19 Soft Skills for Engineers*
2 GEC-20 Maths-III
Courses offered by MBA Dept
S.No Code Name of Subject
1 GEC-21 Human Resource Management
2 GEC-22 Financial Management
3 GEC-23 Marketing Management
4 GEC-24 Entrepreneur Development*
5 GEC-25 Principles of Management & Economics
* Students are not allowed to take this subject as an general elective, if they already
studied as audit course.
Mandatory Audit Courses (MAC)
Subject Code
German -1 AUD-01
German-2 (with German-1 as prerequisite) AUD-02
French -1 AUD-03
French-2 (with French-1 as prerequisite) AUD-04
Sanskrit -1 AUD-05
Sanskrit-2 (with Sanskrit-1 as prerequisite) AUD-06
Personality Development AUD-07
Interview and Group Discussion Skills AUD-08
Yoga and Meditation AUD-09
Art of Living/ Life Skills AUD-10
Contribution of NSS towards Nation/Role of NSS AUD-11
Physical Education AUD-12
Entrepreneurship Development AUD-13
Communication and Soft Skills AUD-14
Grading Scheme
Marks % Grade Grade points Category
90-100 O 10 Outstanding
80≤marks<90 A+ 9 Excellent
70≤marks< 80 A 8 Very good
60≤marks< 70 B+ 7 Good
50≤marks< 60 B 6 Above average
45≤marks< 50 C 5 Average
40≤marks< 45 P 4 Pass
<40 F 0 Fail
………………… Ab 0 Absent
Percentage calculation= CGPA * 9.5
SEMESTER – I
MME-101 MICRO-MACHINING PROCESSES
No. of Credits: 4 Sessional: 25 Marks
L T P Total Theory : 75 Marks
4 0 0 4 Total : 100 Marks
Duration of Exam: 3 Hours
Objectives: Selection of most apposite machining method is very crucial in precision
machining of micro parts. Micro machining has wide applications in the fabrication of micro-
electro-mechanical systems (MEMS), micro- fluidics and precision surgical instruments.
Course Outcomes (COs): At the end of the course, the student shall be able:
CO1: To Explore the ability to understand various techniques which can be used for
the manufacturing of micro-products.
CO2: To Understand the Micro-electromechanical systems (MEMS)-based
Manufacturing involves, largely,
CO3: To Develop the various techniques such as photolithography,
CO4: To Study the chemical-etching, plating, LIGA, laser fabrication, etc. while non-
MEMS-based manufacturing often involves techniques such as mechanical
machining.
CO5: To define the various problem of machining process.
UNIT-I
Introduction to New Machining Technologies: Micro electromechanical Systems (MEMS),
Non-Conventional Machining Process, Comparison of conventional machining processes and
new technologies.
UNIT-II
Micro-electro-mechanical System Description, System Process, Micro Electromechanical
systems paradigms, Materials for MEMS, Future trends: Mechanical Transducers, Optical
Transducers, and Multi-Disciplinary Applications.
UNIT-III
Ultrasonic machining, Whirling jet machining, fundamental principles, process parameters
characteristics, tool design, metal removal rate analysis, important part design, analysis of
process, Machining Accuracy and Surface Finish Optimization.
Electro Chemical Machining-Introduction, principles, scheme, process parameters, metal
removal rate, Electrochemical grinding: Introduction, tools, process parameters, metal
removal rate, Honing, Accuracy and Surface finish Optimization.
UNIT-IV
EDM- Introduction - basic principles, metal removal rate, machining accuracy and surface
finish optimization, selection of tool material and dielectric, analysis of process. Wire electric
discharge machining: Principle, Process variables.
REFERENCE BOOKS:
1. Manufacturing Sciences by Ghosh & Malik.
2. Newer machining processes; H.S. Shan
3. Advance machining processes by B.Bhushan
4. Fundamentals of Micro-machining by M.J Madou, CRC Press.
MME-103 COMPUTER AIDED DESIGN AND MANUFACTURING
No. of Credits: 4 Sessional: 25 Marks
L T P Total Theory : 75 Marks
4 0 0 4 Total : 100 Marks
Duration of Exam: 3 Hours
Objective: To impart fundamental knowledge to students in the latest technological topics on
Computer Aided Design, Computer Aided Manufacturing and Computer Aided Engineering
Analysis and to prepare them for taking up further research in the areas. To create congenial
environment that promotes learning, growth and imparts ability to work with inter
disciplinary groups in professional, industry and research organizations.
Course Outcomes (COs): At the end of the course, the student shall be able:
CO1: To study CAD/CAM Engineering
CO2: To explore the abilities and capabilities in developing and applying computer
software and hardware to mechanical design and manufacturing fields.
CO3: To design the 3-D scaling model
CO4: To understand the CNC tooling, Machine Tools. Automatic tool changers.
CO5: To develop the carious design of various process.
UNIT-I
Introduction: Introduction, Review of vectors & Matrices, Basics of geometric and solid
modeling, explicit, implicit, intrinsic and parametric equations, coordinate systems.
Transformations: Introduction ,Transformation of points & lines,2-D Translation , Shearing,
Rotation, Reflection, Scaling & Combined Transformation, Homogeneous Co¬ordinates,3-D
Scaling, Shearing, Rotation , Reflection & Translation, Combined Transformation,
orthographic, axonometric, oblique & perspective projections.
UNIT-II
Curves & Surfaces Geometry and topology ,Algebraic & geometric forms of straight lines,
circle, Bezier curves & B-splines curves ,blending functions ,Re parametrization, plane
surfaces, sixteen point forms ,four curves form, ruled surfaces of revolution, Tabulated
cylinder ,10 fted surfaces, bi-cubic surfaces, Bezier surfaces, B-splines surfaces, Coons patch.
UNIT-III
Introduction to CAM: Computer Hardware & Software, APT Language, Introduction to
NC,CNC&DNC Systems, Machine axis and coordinate systems. CNC tooling Machine
Tools. Automatic tool changers. Open loop and closed loop systems. Adaptive control
encoders.
UNIT-IV
Manual part programming, CNC part programming, canned cycles, G-codes& M-codes. High
language programming: Flexible manufacturing systems, Computer aided process planning,
and Automated Material handling.
Text Books:
1. CAD/CAM by M.P. Groover, PHI
2. CAD/CAM Theory and Practice, Zeid
3. Understanding CAD/CAM by D.J.Bowman
Reference Book:
1. CAD/CAM Hand book, tiecholz
2. Computer Aided Manufacturing, P.N.Rao.
MME-105 I.C. ENGINES COMBUSTION AND POLLUTION
No. of Credits: 4 Sessional: 25 Marks
L T P Total Theory : 75 Marks
4 0 0 4 Total : 100 Marks
Duration of Exam: 3 Hours
Course Objective: Make students familiar with the design and operating characteristics of
modern internal combustion engines apply analytical techniques to the engineering problems
and performance analysis of internal combustion engines , study the thermodynamics,
combustion, heat transfer, friction and other factors affecting engine power, efficiency and
emissions. To introduce students to the environmental and fuel economy challenges facing
the internal combustion engine.
Course Outcomes (COs): At the end of the course, the student shall be able:
CO1: To study different internal combustion engine designs
CO2: To Recognize and understand reasons for differences among operating
characteristics of different engine types and designs
CO3: To understand engine design specification, predict performance and fuel
economy trends with good accuracy Based on an in-depth analysis of the
combustion process,
CO4: To predict concentrations of primary exhaust pollutants Exposure to the
engineering systems needed to set-up and run engines in controlled laboratory
environments.
CO5: To explore the various pollution process.
UNIT-I
Fuel air Cycles analysis, Thermodynamics of combustion, Chemical equilibrium,
Dissociation, Combustion Charts and gas tables for air fuel mixtures and the products of
Combustion. Types of Hydrocarbons in Petroleum fuels, Gasoline grades, required properties
of SI and CI engine fuels. Rating of fuels.
UNIT-II
Definition of combustion, combustion modes and flame types, review of property relation,
Law of thermodynamics, reactant and product mixtures adiabatic flame temperature,
chemical equilibrium and product of combustion. Laminar premixed flame, definition
principle characteristics, factors, Influencing flame velocity and thickness, flammability limit
sand quenching of laminar flow, ignition, turbulent flames: turbulent flame propagation,
flame stabilization
UNIT-III
Burning of carbon, coal combustion, effect of pollutant emissions from premixed combustion
and from non-premixed combustion. Detonation, principle, characteristics one-dimensional,
detonation velocity, structure of detonation waves.
UNIT-IV
Pollution: Exhaust gases and analysis, orset apparatus, infrared analyzer, determination of air
fuel ratios, air pollution and engines.
Text Books:
1. I.C engine Vol.1&2 by Taylor
2. Thermodynamics and Gas Dynamics of IC engines, Vol 1 & 2 by Horlock and
Winterbone.
Reference Books:
1. I.C engine Vol 1&2 by Benson and Whitehouse.
2. Thermodynamics analysis of combustion engines, by Campbell
MME-107 MACHINE TOOL DESIGN
No. of Credits: 4 Sessional: 25 Marks
L T P Total Theory : 75 Marks
4 0 0 4 Total : 100 Marks
Duration of Exam: 3 Hours
Course Objective: The course provides students with fundamental knowledge and principles
in material removal processes. To demonstrate the fundamentals of machining processes and
machine tools. To develop knowledge and importance of metal cutting parameters. To
develop fundamental knowledge on tool materials, cutting fluids and tool wear mechanisms.
To apply knowledge of basic mathematics to calculate the machining parameters for different
machining processes
Course Outcomes (COs): At the end of the course, the student shall be able:
CO1: To understand cutting mechanics to metal machining based on cutting force and
power consumption.
CO2: To analysis lathe, milling machines, drill press, grinding machines, etc.
CO3: To develop the cutting tool materials and tool geometries for different metals.
CO4: To explore the appropriate machining processes and conditions for different
metals. Learn machine tool structures and machining economics.
CO5: To design the various machine tool.
UNIT I
Introduction to Machine Tools and Mechanisms: General principles of machine tool design,
working and auxiliary motions, machine tool drives hydraulic and mechanical transmission
and its elements, general requirements of machine tool design, layout of machine tools.
Regulation of Speed and Feed Rates: Purpose, stepped regulation of speed-design of speed
box ,machine tool drives using multiple speed motors ,developing the gearing diagram, step-
less regulation of speed and feed rates.
UNIT-II
Machine Tool Structure: Functions and requirements, design criteria ,materials used and their
properties, static and dynamic stiffness ,cross-sectional shapes used for machine tool
structures and basic design procedure for the design of beds ,columns and other structural
elements, model techniques used in design, introduction to Finite Element Method (FEM).
UNIT-III
Guide ways and Power Screws: Function and types, design considerations & procedure for
slide ways, design of power screws.
UNIT-IV
Spindles and Spindle Supports: Functions and requirements, materials, effect of machine tool
compliance on machining accuracy, design of spindles, bearings design/selection. Control
Systems: Functions, requirements and classification, control systems for speeds, feeds &
auxiliary motions, manual control systems, automatic control systems, adaptive control
systems, criteria and economics election of machine tools, future trends in development of
machine tools.
Text Book:
Machine tool design By N.K. Mehta Design of Machine Tool By S.K.Basu
MME-111 COMPUTER AIDED DESIGN & MANUFACTURING LAB
No. of Credits: 1 Sessional: 15 Marks
L T P Total Theory : 35 Marks
0 0 2 2 Total : 50 Marks
Objective: All major manufacturing companies and their suppliers use CAD software to
design parts and evaluate them with respect to fit, form and function. This course introduces
students to CAD software in general and SolidWorks 2016 software in particular. Students
will learn theory and practice related to solid modeling, assembly modeling, drafting,
parametric modeling, free form surface modeling, and use of CAD models for some
downstream engineering activities such as motion simulation and manufacturing.
Course Outcomes (COs): At the end of the course, the student shall be able :
CO1: To Design and drafting of Part Modelling and Assembling Modellings in2D and
3D models.
CO2: To Understand the working of CNC Machines, Robots, Machine Vision Design
and machine.
CO3: To Study the Various CAD/CAM packages like Master CAM and Surface
CO4: To Design and Machining using Master CAM
CO5: To developed the various modeling of manufacturing process. List of Experiments:
1. To create a 2-Dimensional Sketch with the help of all geometrical Shapes.
2. To list the coordinate of given diagram
3. To prepare a part programme for facing & turning operation on a CNC Lathe.
4. Prepare part programme for facing & taper turning operation on CNC Lathe in single
cut programming in word address format.
5. To create a solid with all of all solid entities of basic solid modelling commands.
6. Practice Boolean operation on solids.
7. Create surface with help of ruled & the tabulated surfaces.
8. Create a surface with the help of a surface of revolution & edge surface.
MME-113: IC ENGINE COMBUSTION & POLLUTION LAB
No. of Credits: 1 Sessional: 15 Marks
L T P Total Theory : 35 Marks
0 0 2 2 Total : 50 Marks
Objectives: The course should enable the students to understand effect of vehicle population
and emitted pollutants on human health and environment and various types of emissions.
Understand the formation mechanism of various types of pollutants from SI and CI engines.
Conceive the significance of emission control methods.
Course Outcomes (COs): At the end of the course, the student shall be able to understand:
CO1: To analyze the impact of vehicle population on pollution and the effects HC, CO, CO2,
NOX, smoke,
CO2: To study particulates, lead and aldehydes on health and environment.
CO3: To describe the effects of transient operation of vehicle on emissions and types of
emissions.
CO4: To describe the formation mechanism of HC, CO, CO2, NOX, smoke, particulates and
aldehydes in SI and CI engines.
CO5: To Study the Comprehend the factors that lead to global warming and the issues.
Analyze the design and operating parameters on emissions.
CO6: To Describe about noise pollution, measurement and control
List of Experiments:
1. To study the constructional detail & working of two-stroke/ four stroke diesel engine.
2. Analysis of exhaust gases from single cylinder/multi cylinder diesel/petrol engine by
Orsat Apparatus.
3. To prepare heat balance sheet on multi-cylinder diesel engine/petrol engine.
4. To find the indicated horse power (IHP ) on multi-cylinder petrol engine/diesel engine
by Morse Test.
5. To prepare variable speed performance test of a multi-cylinder/single cylinder petrol
engine/diesel engine and prepare the curves (i) BHP, IHP, FHP, vs speed ( ii) volumetric
efficiency & indicated specific specific fuel consumption vs speed.
6. To find FHP of a multi-cylinder diesel engine/petrol engine by Willian's line method &
by motoring method petrol engine.
MME 115: MICRO MACHINING PROCESSES LAB
No. of Credits: 1 Sessional: 15 Marks
L T P Total Theory : 35 Marks
0 0 2 2 Total : 50 Marks
Course Objectives: The course aims in identifying the classification of unconventional
machining processes. To understand the principle, mechanism of metal removal of various
unconventional machining processes. To study the various process parameters and their effect
on the component machined on various unconventional machining processes. To understand
the applications of different processes.
Course Outcomes (COs): At the end of the course, the student shall be able:
CO1: To understand the completion of course, the student shall understand the
principle of working,
CO2: To study mechanism of metal removal in the various unconventional machining
process.
CO3: To identify the process parameters, their effect and applications of different
processes.
List of Experiments:
1. Study and applications of Abrasive Jet Machining.
2. Study and applications of Electrical Discharge M/C
3. Study and applications of Electrochemical Grinding
4. Study and applications of Ultrasonic Machining
5. Study and applications of Electrochemical Machining
6. Study and applications Jet Machining
7. Study and applications wire Electrical Discharge machine
MME-117-1 NUMERICAL METHODS AND COMPUTING
No. of Credits: 4 Sessional: 25 Marks
L T P Total Theory : 75 Marks
4 0 0 4 Total : 100 Marks
Duration of Exam: 3 Hours
Objective: Demonstrate understanding of common numerical methods and how they are
used to obtain approximate solutions to otherwise intractable mathematical problems. Apply
numerical methods to obtain approximate solutions to mathematical problems. Analyze and
evaluate the accuracy of common numerical methods
Course Outcomes (COs): At the end of the course, the student shall be able :
CO1: To Demonstrate understanding of common numerical methods and how they are used
to obtain approximate solutions to otherwise intractable mathematical problems.
CO2: To understand the numerical methods to obtain approximate solutions to
mathematical problems.
CO3: To analyze and evaluate the accuracy of common numerical methods
Unit 1:
ERRORS IN NUMERICAL CALCULATIONS
Introduction. Numbers and their accuracy. Absolute. Relative and percentage errors and their
analysis General error formula.
INERPOLATION AND CURVE FITTING; Taylor series and calculation of functions.
Introduction to interpolation. Lagrange approximation .Newton polynomials. Chebyshev
polynomials least squares fine. Curve fitting. Interpolation by spline function
UNIT-2
NUMERICAL DEFFERENTIATION AND INTEGRATION Approximating the derivative.
Numerical differentiation formulas .Introduction to Numerical quadrature. Newton-cores
formula. Gausion quadrature.
SOLUTION OF NONLINEAR EQUATIONS
Bracketing methods for locating error. Initial approximations and convergence criteria.
Newton-Raphsen and secant methods .Solution of problems through a structural
programming language such as Cor pascal.
UNIT -3
SOLUTION OF LINEAR SYSTEMS :Direct Methods. Gaussian elimination and pivoting
Matrix in version. UV factorization Iterative methods for linear problems through a
structured programming language such as Cor Pascal
.EIGEN VALUE PROBLEMS: Jacobi. Given's and Householder's methods for symmetric
matrices. Rutishauser method for general matrices, power and inverse power methods
solution of problems through a structured programming language such as CorPascal.
UNIT -4
S0LUTION OF DIFFERENTIAL EQUATIONS :Introduction to differential equations.
Initial value problems. Euler's methods. Heun's method. Runge Kutta methods .Taylor series
method. Predictor-corrector methods. Systems of differential equations. Boundary Valve
problems. Finite-difference method. Solution of problems through a Structured
programming language such as Cor Pascal.
PARTIAL DIFFERENTIAL EQUATIONS: Solution of hyperbolic .Parabolic and elliptic
equations .The eigen value problem the power method and the Jacobi's method for eigen
value problems. Solution of problems through a structured programming language such as
Cor Pascal.
Text Books:
1. Applied Numerical Analysis by Curtis E. Gerald and Patrick Q. Wheatley-published
by Addition Wesley.
2. Applied Numerical Methods-camahan.B.H., Luthar.H.A. and Wilkes.J.O. Pub-J
Wiley. NewYork
Reference Books:
1. Numerical Solution of Differential Equations. By M.K.Jain. published by Wiley
Eastem. New York.
2. Introductory Methods of Numerical Analysis by S.D. Sastry. Published by Prentice
Hall of India.
3. Numerical Methods-Hornbeek.R. W. Pub-prentice Hall. Englewood Cliffs. N .J.
4. Numerical Methods for Mathematics. Science and Engineering by John H. Mathews.
PHI New Delhi
MME-117-2 METHOD ENGINEERING AND ERGONOMICS
No. of Credits: 4 Sessional: 25 Marks
L T P Total Theory : 75 Marks
4 0 0 4 Total : 100 Marks
Duration of Exam: 3 Hours
Objective: To provide knowledge necessary to either initiate a new or improve an existing
ergonomics program for controlling health and performance problems; to educate and
convince management of the cost benefits of an ergonomically sound workplace; to
proactively identify potential risks and determine cost effective and sustainable jobsite
modifications
Course Outcomes (COs): At the end of the course, the student shall be able:
CO1: To Understand ergonomics and its three major components. Outline the
components of an ergonomics program.
CO2: To Describe the components of office and shop floor ergonomic evaluations.
CO3: To study the common risk factors and areas for ergonomic improvement within
foundries.
CO4: To Describe how to evaluate, select and implement ergonomic solutions.
Describe the essential elements for an effective ergonomics business case
UNIT-I
Introduction to industrial engineering and productivity, measurement of productivity,
Introduction to work study, methods study principles and motion economy, Filming
Techniques and micro-motion analysis, Introduction to work measurement. Time study,
performance allowances, works amp ling,
UNIT-II
Introduction of Ergonomics, system approach to ergonomic model, .Area of study covered
under ergonomics, man/machine systems, characteristics of man machine system, limitation
of man & machine with respect to each other. Design approach: Work Design consideration,
General principles for carrying out the physical activities, Design of workplace, machine at
workplace, seat for workplace.
UNIT-III
Controls: Criteria for control design, Hand controls and foot controls, Relationship between
controls and display instruments, Controls for high precision work (Push Buttons, switches,
knobs etc.), Layout of panels and machine
Displays:-Types of displays, Design recommendation for quantitative displays.
UNIT-IV
Climates:-Heat Humidity-Fundamentals of human thermal regulation, measuring the thermal
environment, work in hot climate, work in cold climate protection against climatic extremes,
effect to climate on performance.
Noise:- Terminology, physiological effects of noise, annoyance of noise, speed interference,
hearing loss, temporary and permanent threshold shift, effect of noise on performance
reduction of noise, personal noise protection.
Text Books:
1. Method Engineering study-Krick,S.V.
2. Work study and Ergonomics-Suresh Dalela, Saurabh.
Reference books:
1. Introduction of Ergonomics- Bridger – Tata McGraw Hill
2. Work Study-Khanna-Dhanpat Rai & Sons
MME-117-3 COMPUTATIONAL FLUID DYNAMICS
No. of Credits: 4 Sessional: 25 Marks
L T P Total Theory : 75 Marks
4 0 0 4 Total : 100 Marks
Duration of Exam: 3 Hours
Course Objectives: To provide the knowledge base essential for application of
computational fluid dynamics to engineering flow problems Provide the essential numerical
background for solving the partial differential equations governing the fluid flow Develop
students' skills of using a commercial software package.
Course Outcomes (COs): At the end of the course, the student shall be able :
CO1: To Understand solution of aerodynamic flows.
CO2: To Study the CFD software and its application. Simplify flow problems and
them exactly Define and setup flow problem properly within CFD context,
performing solid modelling
CO3: To Understand CAD package and producing grids via meshing tool
CO4: To Understand both flow physics and mathematical properties of governing
Unit 1: Introduction
History of CFD: Comparison of the three basic approaches in engineering problems solving
analytical .Experimental and computational methods. Beam advance in computational
techniques.
UNIT-II : Problem formulation
The standard procedure for formulating a problem physical and mathematical classification
of problems, types of governing differential equations.
Methods of Discretisation: Basic of finite difference method: Finite element method. Finite
volume method and spectral method. Treatment of boundary conditions.
UNIT-III: Numerical solution of Heat conduction problems:
Steady-state problems: (i) One dimensional heat conduction transfer through a pin¬fin- din,
two dimensional conduction through a plate unsteady state problem: One dimensional
transient at conduction. Explicit and implicit methods. Stability of numerical methods.
UNIT-IV : Numerical solution of fluid flow problems
Types of fluid flow and their governing equation: Viscous incompressible flows calculation
of flow field using the stream function-vorticity method: calculation of boundary layer over a
flat plate: Numerical algorithm for solving complete Navier-Stokes equation-MAC method
SIMPLE Algorithm: Project Problem.
Books recommended:
Numerical heat transfer and fluid flow by Suhas V.Patankar, taylor and francis.
Computational fluid dynamics by Anderson
SEMESTER – II
MME-102 WELDING AND ALLIED PROCESSES
No. of Credits: 4 Sessional: 25 Marks
L T P Total Theory : 75 Marks
4 0 0 4 Total : 100 Marks
Duration of Exam: 3 Hours
Objective: Weld in (flat, horizontal, vertical, and overhead positions) using the basic welding
processes SMAW, GMAW, FCAW, and GTAW. Perform metal layout processes. Cut metals
using (oxy fuel and, plasma, arc) cutting process.
Course Outcomes (COs): At the end of the course, the student shall be able to:
CO1: To know the fundamentals of welding processes.
CO2: To study the principles of metallurgy during the welding process.
CO3: To understand the basic blueprints and welding symbols to fabricate
components.
CO4: To study the basic math and measurement. Follow industry safety practice
UNIT 1
Introduction: Basic classification of welding processes, weldability, weld thermal cycle,
metallurgy of fusion welds, solidification mechanism and microstructural products in weld
metal, epitaxial, cellular and dendritic solidification, metallurgical changes in weld metal,
phase transformation during cooling of weld metal in carbon and low alloy steel, prediction
of microstructures and properties of weld metal. Heat affected zone, re-crystallization and
grain growth of HAZ, gas metal reaction, effects of alloying elements on welding of ferrous
metals.
UNIT 2
Welding Arc: Arc efficiency, temperature distribution in the arc; arc forces, arc blow,
electrical characteristics of an arc, mechanism of arc initiation and maintenance, role of
electrode polarity on arc behavior and arc stability, analysis of the arc.
Types of electrodes, AWS and Indian system of classification and coding of covered
electrode for mild steel, Shielding gases and associated mixtures
UNIT 3
Metal transfer: Short circuit/ dip transfer. Free flight. Globular type. Spray type, Forces
affecting metal transfer. Weld bead geometry and shape factors, Weld dilution.
Electric arc welding principle, MIG: - welding equipment and processes, shielding gas, types
of metal transfer. Tungsten inert gas arc welding (GTAW): - welding equipment, electrodes,
inert gases and torches. Submerged arc welding (SAW):- principle of processes, applications,
fluxes and welding electrodes used. CO2 welding: - difference from MIG welding, Principle
of operation, equipment, welding parameters and applications.
UNIT 4
Solid state welding: Introduction, main features and applications of Ultrasonic welding,
Friction welding, Friction Stir Welding, Friction Stir Processing and Explosive welding.
Welding of plastics: Difficulties in welding of Plastics, Processes for welding of Plastics.
UNIT-5
Surfacing and metal spraying: Surfacing methods such as SMAW, MIG, TIG, SAW. Thermal
spraying: Introduction, Procedures, Applications, Advantages and Disadvantages.
Under water Welding: Introduction, methods and applications.
UNIT 6
Automation in Welding: Introduction, Semiautomatic welding, Automatic welding, Welding
mechanization, Flexible Automated Welding, Robotic welding, Types of Welding Robots,
Robot Selection Mechanics, Joint tracking system.
REFERENCE BOOKS
1. Welding processes & technology by Dr. R.S.Parmar Khanna Publishers
2. Welding Engineering & Technology by Dr. R.S.Parmar Khanna Publishers
3. Procedure Handbook of ARC welding; Lincoln Electric Co. USA.
4. The Solid phase welding of metals by Tylecote; Edward Arnold Pvt. Ltd.
5. Welding & Welding Technology Richard L. Little, McGraw Hill.
6. Welding Technology by Rossi; McGraw Hill.
7. Welding Technology by Koenigsberger and Adaer; Macmillan.
MME-104 TOTAL QUALITY MANAGEMENT No. of Credits: 4 Sessional: 25 Marks
L T P Total Theory : 75 Marks
4 0 0 4 Total : 100 Marks
Duration of Exam: 3 Hours
Objective: Quality issues are of increasing importance in an increasing number of business
sectors. The development of TQM started in the products industry (i.e cars), it then spread to
the private service sectors and is today an issue also in the public sector. Improved quality in
products and services is necessary to compete for the customers in a globalized market and it
is also a venue to better profitability for most industries and service companies
Course Outcomes (COs): At the end of the course, the student shall be able :
CO1: With this course the students should be able to not only participate in all kind of TQM
activates in their own company or institution,
CO2: To understand the TQM development in selected areas.
CO3: The course draws heavily on practical cases and the professors own industrial
CO4: To analyse the theories taught.
UNIT 1 TQM Perspective and TQM Implementation:
Quality, Chain Reaction, Dimensions of Quality, Evolution Of Quality, Quality Control,
Quality Assurance, Quality Planning, Quality Improvement, Quality Management, Total
Quality Management, Cost Of Quality, Classification of Failure Cost, Reducing Costs,
Juran’s Model Of Optimum Quality Costs, Analysis of COQ For Improvement, Analysis Of
External and Internal Failure Costs, TQM,
UNIT 2
Elements Of TQM, Leadership For TQM, Demings 14 Points For Top Management, TQM
Tools And Techniques, PDSA, Barriers For TQM Implementation
UNIT 3 TQM principles:
Customer Satisfaction & Employee Involvement.
Service Quality, Features Of Services, The Kano Model, Employee Motivation, Motivation
Theory of Individual Employees, Effective Communications, Training And Mentoring,
Recognition And Reward.
UNIT 4 TQM Strategies
Continuous Process Improvement and Process Approach.
Juran’s Triology, Kaizan, PDCA, Seven Quality Tools, BPR, Seven Deadly Wastes, ETX
Model, Lean Manufacturing, Kanban System, Cellular Manufacturing, Single Piece Flow,
Zero Defects
UNIT 5 Statistical Process Control & TQM Tools
The Seven Quality Control Tools, Standard Normal Distribution, AQL, Seven Management
Tools, Benchmarking, QFD, Taguchi’s Design, TPM, FMEA
UNIT 6 Quality Systems
ISO9000 standard, EMS14001, Quality Awards
Supplier Partnership and Performance Measures- Importance of Suppliers, Selection and
Standards, Quality Audit, Product Audit, Vendor Rating System, PDCA For Measurements,
Performance Measure Design, BSC.
REFERENCE BOOKS:
1. "Total Quality Management" by Oakland (Butterworth – Heinamann Ltd.)
2. "Managing for total quality from Deming to Taguchi and SPC" by Logothetis N. (PHI)
3. "Total Quality Control" by Feigenbaum A.V. (MGH)
4. "Total Quality Management" by Besterfield Dale H (Pearson Education)
5. "A slice by slice guideto TQM" by John Gilbert (Affiliated East West Press).
6. "The TQM toolkit –a guide to practical techniques for TQM "by Waller Jenny, Allen
Derek and Burna Andrew (Kogan Page)
MME-106-1: FOUNDRY TECHNOLOGY
No. of Credits: 4 Sessional: 25 Marks
L T P Total Theory : 75 Marks
4 0 0 4 Total : 100 Marks
Duration of Exam: 3 Hours
Course Objectives:
To study the basic concepts regarding design and manufacture of a component by various
casting methods. To provide knowledge to the students, on the principles that guides
production of sound engineering castings.
Course Outcomes (CO’S): At the end of the course, the student shall be able to:
Distinguish the different metals, their melting furnaces and applications in foundry technology
Design the pattern and gating system for preparing the mould
Describe the basic concepts of core and mould
Explain the different types of special casting methods
Discuss the various processes for improving or controlling the quality of casted product and environment of foundry shop
Syllabus:
UNIT 1. Introduction to Foundry Technology, Items (Domestic and Engg.)
made by foundry technology, Advantage and limitations of foundry technology
over the other manufacturing processes. Castability and factors affecting
castability.
UNIT 2. Ferrous and Non-ferrous casting metals & their alloys and items made
of them. Melting furnaces for cast iron, cast steels, aluminium and its alloys, brass
and bronze. Pattern: Pattern material, Types of patterns, Pattern allowances,
Colour coding system for patterns, Numerical on pattern allowances.
UNIT 3. Moulding: Mould material, properties of moulding sand, Main
constituents of moulding sand, Classification of moulding sand, Preparation of
moulding sand, Testing of moulding sand, Methods of moulding. Core:
Introduction, Characteristics of core, Types of core, Core making, Core chaplets,
Core print, Core boxes.
UNIT 4. Gating system: Requirements of gating system, elements of gating
system, Types of gates, Types of risers, Design and positioning of risers,
Calculation of pouring time and solidification time, Casting design considerations,
Chills. Solidification of castings.
UNIT 5. Special casting methods: Gravity die casting, Cold chamber die
casting, Hot chamber die casting, Investment casting, Centrifugal casting, Shell
mould casting, Continuous casting
UNIT 6. Casting defects, their causes and remedies, Fettling of castings, Casting
inspection, repair and salvage of castings. Heat treatment of castings, Quality
control of castings, Pollution control in foundry, Modernization of foundry.
Reference Books:
1. Principles of Metal Casting - Richard W. Heine , Carl R. Hoper, Philip C. Rosenthal,
Tata McGraw Hill Education
2. Principles of Foundry Technology - P. L. Jain, Tata McGraw-Hill Education
3. Foundry practice - W.H. Salmon and E.N. Simons, Pitman
4. Principles of manufacturing materials and processes - J. S. Campbell, McGraw Hill
5. Materials and processes in manufacturing - E. Paul DeGarmo, J. T. Black, Ronald A.
Kohser, John Wiley & Sons
6. A Textbook of Production Technology: Manufacturing Processes - P. C. Sharma, S.
Chand publications
NPTEL Video Lecture , Metal Casting ,Web: http://nptel.ac.in/
MME-106-2: Fundamentals of Management
No. of Credits: 4 Sessional: 25 Marks
L T P Total Theory : 75 Marks
4 0 0 4 Total : 100 Marks
Duration of Exam: 3 Hours
Course Objective:
This course is designed to promote understanding of concepts, philosophies, processes and
techniques of managing marketing operation and to develop a feel of the market place.
Course Outcomes (CO’S): At the end of the course, the student shall be able to:
Unit -I
Nature and scope of marketing: corporate orientation towards marketplace; building and
delivering customer value and satisfaction; retaining customers; marketing environment
Unit -II
Analyzing consumer markets and buyer behaviour; market segmentation, positioning and
targeting; tools of product differentiation; marketing strategies in the different stage of the
product life cycle
Unit -III
New product development process; product mix and product line decisions; branding decisio
ns; pricing strategies; managing marketing channels; wholesaling and retailing
Unit -IV
Advertising and sales promotion; public relations; personal selling; evaluation and control of
marketing effort; web marketing; green marketing
Suggested Readings:
1. Kotler Philip and Keller; Marketing Management; PHI, New Delhi
2. Kotler, Philip, Kevin Keller, A. Koshy and M. Jha, Marketing Management in South Asian
Perspective,
Pearson Education, New Delhi
3. Kerin, Hartley, Berkowtz and Rudelius, Marketing, TMH, New Delhi
4. Etzel, Michael J, Marketing: Concepts and Cases, TMH, New Delhi
1. Dhunna, Mukesh, Marketing Management – Text and Cases, Wisedom Publications, New
Delhi
Understand management functions .
Understand product life cycle
Understand about the product development process.
Understand about Advertising and sales promotions
MME-108 MECHATRONICS AND PRODUCT DESIGN
No. of Credits: 4 Sessional: 25 Marks
L T P Total Theory : 75 Marks
4 0 0 4 Total : 100 Marks
Duration of Exam: 3 Hours
Objective:- the main objectives of the course is to formulate mathematical models and to
understand solution of various real life problems.
Course Outcomes (COs): At the end of the course, the student shall be able:
CO1: To explore various problems of solution objective
CO2: To study the design principles of different Mechatronics components and system
CO3: To define different flip flop
CO4: To study various models of Engg. Systems
Syllabus:
UNIT 1:
Introduction to Mechatronics systems and components. Principles of basic electronics -
Digital logic. Number system logic gates. Sequence logic flip Hop system. JK flip Hop. D-
flip flop.
UNIT-II
Microprocessors and their applications – Microcomputer computer structure/microcontroller.
Integrated circuits-signal conditioning processes, various types of amplifiers, low pass and
High pass filters.
UNIT-III
Sensors- Sensors and transducers, displacement.Position proximity sensors. Velocity, force
sensors Fluid presence temperature. Liquid level and light sensors. Selection of sensors.
Actuators, Pneumatic and Hydraulic systems. Mechanical actuation system. Electrical
actuation system. Other Electrical/ electronic hardware in mechatronics system.
UNIT-IV
Principles of Electronic system communication- Interfacing. AD and DA converters.
Software and hardware principles and tools to build mechatronic systems. Basic system
models. Mathematical models. Mechanical and other system building blocks.
UNIT-V
System models- Engg.Systems. Rotational, translation. Electro mechanical: Hydraulic
mechanical system. System transfer functions, first - second order system in series.
UNIT-VI
Design and selection of Mechatronics statements namely sensors line encoders and
revolvers, stepper and servomotors ball screws, solenoids, line actuators and controllers
with application to CNC system. Robots. Consumer electronics products etc. Design of
a mechatronic product using available software CAD packages. MATLAB and
SIMULINK.
Text Book(s):
1. Computer Control Manufacturing Systems, by YoramKoren; McGraw Hill ISBN-
007Y663793.
Reference Book(s):
1. Mechatronics, by W. Bolton; Pearson Education; Low Price Edition.
2. Automation Production System and CIMS, by Mikel P Groover; Prentice Hall.
MME-110 MECHATRONICS LAB
No. of Credits: 1 Sessional: 15 Marks
L T P Total Theory : 35 Marks
0 0 2 2 Total : 50 Marks
Objectives: Have a strong foundation in science and focus in mechanical, electronics,
control, software, and computer engineering, and of the newest technologies. Be able to
design, analyze, and test “intelligent” and and processes that incorporate appropriate
computing tools, sensors, and actuators
OUTCOME:
CO1: To understand the Function effectively as members of multidisciplinary teams.
CO2: To communicate technical matters effectively in oral, written, and graphical form
Identify and evaluate ethical ramifications and professional responsibilities in a variety of
situations.
CO3: To Discuss the impact of engineering on society, safety, and environment in relation to
contemporary issue
CO4: Use the techniques, skills, and modern mechatronics engineering tools necessary for
engineering practice.
List of Experiments:
1. Study of sensor &Transducers.
2. Study of operational Amplifier
3. Study of Pneumatic &Hydraulic System
4. Study of Mechanical System
5. Study of Computer & Microprocessor equipments
6. Study of Programmable controller
MME-112 ADVANCED WELDING LAB
No. of Credits: 1 Sessional: 15 Marks
L T P Total Theory : 35 Marks
0 0 2 2 Total : 50 Marks
List of Experiments: 1. To study Heat flow in Welding (Equipment for use-Gas Welding equipment)
2. To study tensile property, Bead Geometry, Hardness of Bead, Micro structure of
welding Bead in case of:
i) MIG Welding ii) TIG Welding
iii) SAW Welding iv) Arc welding
3. To study mechanical behavior( tensile strength Hardness of Bead, Micro structure of
welding Bead, impact strength, corrosion and wear, fatigue behavior) in case of.
a) Friction stir welding
b) Friction stir processing
MME-114-1 MODELLING & SIMULATION
No. of Credits: 4 Sessional: 25 Marks
L T P Total Theory : 75 Marks
4 0 0 4 Total : 100 Marks
Duration of Exam: 3 Hours
Course Objective: Learn to develop mathematical models of phenomena involved in various
chemical engineering processes and solutions for these models.
Course Outcomes (COs): At the end of the course, the student shall be able:
CO1: To Understand the important physical phenomena from the problem statement
CO2: To Develop model equations for the given system,
CO3: To Demonstrate the model solving ability for various processes/unit operations
CO3: To Demonstrate the ability to use a process simulation
UNIT-I
Concept of system, system environment, elements of system, system modeling, types of
models, Monte Carlo method. System simulation- a management laboratory, advantages &
limitations of system simulation, continuous& discrete systems.
UNIT-II
Simulation of Continuous systems: Characteristics of a continuous system, comparison of
numerical integration with continuous simulation system. Simulation of an integration
formation.
UNIT-III
Simulation of discrete systems: Time flow mechanisms, discrete and continuous probability
density functions, Generation of random numbers, testing for randomness and for auto
correlation, generation of random variants for discrete distribution.
UNIT-IV
Simulation of Queuing system: Concept of queuing theory, characteristics of queues,
stationary & time dependent queues, Queue discipline, time series analysis, measure of
system performance, Kendal’s notation, simulation of single sever queues multi-server
queues.
UNIT-V
Simulation of inventory systems: Rudiments of inventory theory, MRP, in process inventory,
necessity of simulation I inventory problems, forecasting & regression analysis, forecasting
through simulation.
UNIT-VI
Design of simulation experiments: Length of run, elimination of initial bias, variance
reduction techniques, stratified sampling, antipathetic sampling, common random numbers.
Simulation languages: Continuous & discrete simulation languages, block structure,
continuous languages, special purpose simulation languages, SIMSCRIPT, GPSS, SIMULA,
importance & limitation of special purpose languages.
Text Books:
1. System simulation by Gordon
2. System simulation by Hira
MME-114-2 JIGS AND FIXTURES
No. of Credits: 4 Sessional: 25 Marks
L T P Total Theory : 75 Marks
4 0 0 4 Total : 100 Marks
Duration of Exam: 3 Hours
Objective: This subject enables the student to learn and apply the design of different tools, both
technical and economical aspects, with reference to various production equipment and
components, such as jigs and fixtures, press tools for sheet metal working, molds for plastic
injection molding, and die casting.
Course Outcomes (COs): At the end of the course, the student shall be able:
CO1:To study the basic principles in designing general jigs and fixtures, as well as molds and
dies;
CO2:To understand the assess the performance of a given tool design for meeting the specific
design criteria.
CO3:To evaluate the effects of a given tool design on work quality
CO4: To design the jig and fixture
Syllabus
UNIT -I
Degree of freedom &Restrain, Location methods, Design of guide pins & dowel pins, Location
of irregular geometrical product,
UNIT-II
Calculation of forces &Torque exerted by machining methods.
UNIT -III
Purpose types and functions of jigs and fixtures, Tool design objectives - Production devices-
Inspection devices-Materials used in Jigs and Fixtures –
UNIT- IV
Types of Jigs - Types of Fixtures-Mechanical actuation-pneumatic and hydraulic actuation-
Analysis of clamping force-Tolerance and error analysis.
UNIT -V
Jigs, Drill bushes –different types of jigs-plate latch, channel, box, post, angle plate, angular
post, Turnover, pot jigs-Automatic drill jigs-Rack and pinion operated. Air operated Jigs
components. Design and development of jigs for given components.
UNIT -VI
Fixtures for machining and inspection, General principles of boring, lathe, milling and broaching
fixtures- Grinding, planning and Shaping fixtures, assembly, Inspection and welding fixtures-
Modular fixtures. Design and development of fixtures for given component.
Text Books:
1. Edward G Hoffman, “Jigs& Fixture Design”, Thomson – Delmar Learning, 5004
2. Donaldson. C, “Tool Design”, Tata McGraw-Hill, 1986
Reference Books:
1. Kempster,“Jigs &Fixtures Design”, The English Language Book Society, 1978
2. Joshi, P.H., “Jigs &Fixtures”, Second Edition, Tata McGraw-Hill Publishing Company
Limited, 5004
3. Hiram E Grant, “Jigs and Fixture”, Tata McGraw-Hill, 5003
4. “Fundamentals of Tool Design”, CEEE Edition, ASTME, 1983
5. PSG College of Technology, Coimbatore – Design Data Handbook
MME-114-3 TOOL AND DIE DESIGN
No. of Credits: 4 Sessional: 25 Marks
L T P Total Theory : 75 Marks
4 0 0 4 Total : 100 Marks
Duration of Exam: 3 Hours
Objective: This subject enables the student to learn and apply the design of different tools, both
technical and economical aspects, with reference to various production equipment and
components.
Course Outcomes (COs): At the end of the course, the student shall be able:
CO1: To understand the basic principles in designing general jigs and fixtures, as well as
molds and dies;
CO2: To Study the assess the performance of a given tool design for meeting the
specific design criteria.
CO3: To analysis the effects of a given tool design on work quality
CO4: To design the dies
UNIT -I
Tools Materials and their heat treatment, Mechanism and geometry of chip formation, effect of
large and small shear angles on chip thickness and length of shear planes study of cutting forces,
friction forces, mean shear strength coefficient of for cutting,
UNIT - II
Method of calculating the metal remove rate. Influence of rake angle side cutting edge & nose
radius on cutting forces. Relationship between temperature and hardness of cutting tool
materials, Tool geometry of single point and Multipoint Cutting Tool
UNIT -III
Press working terminologies and elements of dies and strip lay out, Press working terminology-
Presses and press accessories-Computation of capacities and tonnage requirements.
UNIT- IV
Elements of progressive combination and compound dies: Die block die shoe. Bolster plate-
punch plate-punch holder-guide pins and bushes – strippers– knockouts-stops – pilots-Selection
of standard die sets strip layout-strip layout calculations.
UNIT -V
Design and development of dies, Design and development of progressive and compound dies for
Blanking and piercing, operations. Bending dies – development of bending dies- forming and
drawing dies- Development of drawing dies. Design considerations in forging, extrusion, casting
and plastic dies
UNIT -V
Plastic as a tooling material, commonly used plastic for tooling material, application of epoxy
plastic tools, Construction methods of plastic tooling, Metal forming operation with Urethane
dies. Calculating forces for Urethane pressure pads.
Text Books:
1. Tool Design by Cyril Donation, George H. Lecain, V C Goold.
2. Edward G Hoffman, “Jigs& Fixture Design”, Thomson – Delmar Learning, 5004
3. Donaldson.C, “Tool Design”, Tata McGraw-Hill, 1986
Reference Books:
1. Kempster, “Jigs & Fixtures Design”, The English Language Book Society, 1978
2. Joshi, P.H., “Jigs &Fixtures”, Second Edition, Tata McGraw-Hill Publishing Company
Limited, 5004
3. Hiram E Grant, “Jigs and Fixture”, Tata McGraw-Hill, 5003
4. “Fundamentals of Tool Design”, CEEE Edition, ASTME, 1983
5. PSG College of Technology, Coimbatore - Design Data Handbook
SEMESTER-III
MME-201 TRIBOLOGY & MAINTENANCE ENGINEERING
No. of Credits: 4 Sessional: 25 Marks
L T P Total Theory : 75 Marks
4 0 0 4 Total : 100 Marks
Duration of Exam: 3 Hours
Course objective: Tribology studies combines issues of friction, wear and lubrication into a
framework for designing and maintaining the machine world. Until recently, “the design of the
shape and material” was being done on the basis of machine dynamics and strength of materials
but the predominant part of failure i.e. wear remained neglected.
Course Outcomes (COs): At the end of the course, the student shall be able
CO1: To Understand the various tribological processes and tribological relevant
properties of materials
CO1: To Study the Various engineering materials having potential for tribological
application.
CO2: To Explore the various Characterization and evaluation of Ferrous materials for
tribological requirements/applications,
CO3: To study the various Selection of ferrous materials for rolling element bearings,
gears, crank shafts, piston rings, cylinder liners, etc.
CO4: To Understand the various Non-ferrous materials and their applications such as
sliding bearings, piston rings, cylinder liners, etc., materials for dry friction
materials.
UNIT-1 Engineering Tribology
Tribological system, Tribology in industries, friction and wear, lubricants and lubrication,
fundamental of bearings, nano Tribology ,Introduction part of friction, theories of friction,
adhesion theory of friction and its drawbacks, stick-slip theory of friction, friction measurement
methods.
UNIT-2 WEAR
Cause, effect, classification and mechanism of wear, quantitative laws of wear, wear and wear
rate
UNIT-3 LUBRICANTS AND BEARINGS
objective and properties of lubricants, synthetic lubricants, reasons of degradation of lubricating
oils, lubricant additives, boundary lubrication, hydrodynamic lubrication, mechanism of elasto
hydrodynamic lubrication, classification of bearings, hydrostatic bearings, hydrodynamic
bearings
UNIT-4 MAINTENANCE MANAGEMENT
Relevance of maintenance, maintenance: an over view, maintenance services, problems of the
plant manager, automation and maintenance, maintenance objectives and costs, quality and
quality circle in maintenance, Engineering reliability, maintainability Maintenance
Types/sytems
UNIT -5
Planned and unplanned maintenance, breakdown, corrective, opportunistic, routine, preventive,
predictive, CBM, Design out maintenance
UNIT-6 CONDITION MONITORING
NDT concepts, visual and temperature monitoring, leakage monitoring, vibration monitoring,
lubricant monitoring-methods, equipments, ferrography, spectroscopy, cracks monitoring,
thickness monitoring, corrosion monitoing.
Books:
Engineering Tribology by Choudhary
Maintenance planning and control- Kelly,A. Buttersworth & Co. 1984
Maintenance and spare parts Management – Krishanan G, Prentice Hall – 1991
MME-203 ROBOTICS AND AUTOMATION
No. of Credits: 4 Sessional: 25 Marks
L T P Total Theory : 75 Marks
4 0 0 4 Total : 100 Marks
Duration of Exam: 3 Hours
Course Objective: The Robotics and Mechanisms area seeks to promote research and develop
technologies that enable systems to exhibit intelligent, goal-oriented behavior, and developing
innovative instruments to monitor, manipulate, and control systems. Overall, our research spans
the following areas: humanoid robots, intelligent control systems, flexible manipulators,
mechanism theory, micro sensors and actuators, and compliant mechanism. We focus on
enabling technologies that necessitate novel design solutions in terms of development of new
methods of synthesis, analysis & optimization of novel robots and mechanisms.
Course Outcomes (COs): At the end of the course, the student shall be able :
CO1:To study the Robotics and Mechanisms area seeks to promote research and develop
technologies that enable systems to exhibit intelligent, goal-oriented behavior, and developing
innovative instruments to monitor,
CO2: To manipulate, and control systems. Overall, our research spans the following areas:
humanoid robots, intelligent control systems,
CO3: To study the various flexible manipulators, mechanism theory, micro sensors and
actuators, and compliant mechanism.
CO4: To understand the various technologies that necessitate novel design solutions in terms of
development of new methods of synthesis, analysis & optimization of novel robots and
mechanisms.
Syllabus
UNIT-1
Introduction to Robot Technology: Robot Physical configuration, basic Robot motions. Types of
Manipulators: Constructional features, advantages and disadvantages of various kinematic
structures, servo and Non- servo manipulator.
UNIT-2
Actuators and Transmission System: Pneumatic, Hydraulic and Electrical actuators and their
characteristics and control systems. Feed Back Systems and Sensors: Encoders and other feed
back systems, vision, ranging systems, textile sensors.
UNIT-3
Programming Languages: Description of VAN, RAII and other Languages. Artificial
Intelligence: Logged Locomotion, Export system. Concept of spatial description and
transformations, manipulator Kinematics; Inverse manipulator,
UNIT-4
Kinematics Jacobians; velocities and static forces; manipulator dynamics, position control of
manipulators, force control of manipulators, robot programming languages and systems. Concept
of automation in Industry, mechanisation and automation classification of automation systems.
UNIT-5
Air Cylinders- their design and mountings, pneumatic and hydraulic valves, flow control valves
metering valves, direction control valves, hydraulic servo systems, pneumatic safety and remote
control circuits.
UNIT-6
Basis of Automated work piece handling: Working principles and techniques, job orienting and
feeding devices. Transfer mechanisms automated feed out of components, performance analysis.
Assembly automation, automatic packaging and automatic Inspection.
Books:
1. CAD/CAM by Groover and Elimmers (Jr.) CAD/CAM Handbook, Bed ford
Masschusettes. Automation Production Systems & Computer Aided Manufacturing.
Robotics for Engineers by Royen MIT Press.
2. Robot Manipulators by Paul MIT Press. Robotics by Hall &Hall. Robot Motion by Brady
MIT Press.
3. Numerical Controlled Computer Aided manufacturing by Press man and Elimmers, John
Wiley & sons. New York.
MME-205 DESIGN PLANNING AND CONTROL OF PRODUCTION SYSTEM
No. of Credits: 4 Sessional: 25 Marks
L T P Total Theory : 75 Marks
4 0 0 4 Total : 100 Marks
Duration of Exam: 3 Hours
COURSE OBJECTIVE:
To study life cycle approach both for production system and new product development &
compare production system with service system. Clarify various MRP models in production
planning & sequencing and scheduling of the job on the machines. To study the concept of
forecasting in production system.
COURSE OUTCOMES: Towards the end of the course, the students should be able to:
CO1: Develop life cycle approach to new product development and production system.
CO2: Develop the concept of break-even analysis, line balancing and relate it with practical
industrial work.
CO3: Understand and generate MRP-I, MRP-II and ERP models for production and
enterprise resource planning.
CO4: Estimating production requirement using various forecasting techniques.
CO5: Understand the criteria for sequencing & accordingly schedule the job on machines.
UNIT 1
Introduction to production systems: Aim of production system, generalized model and types of
production systems Features compiling service organizations, life cycle approach to production
management.
UNIT 2
Product development and design: New product development and process selection, stages in new
product development, uses of decision tree, Break even analysis, Make// buy decision, Problems
for break-even analysis non linearity in B.E. analysis, selection of location among alteratives- A
case study, systematic layout planning, objectives, types, comparison and application of different
types of layouts,.
UNIT 3
Assembling line balancing concept and problems for maximum line efficiency. Planning for
production: Importance, objective and types of forecasting methods, Analysis and comparison
standard error of estimate, Material Requirement planning, (MRP) objective, dependent demand,
input to MRP, MRP model, Production schedule, MRP logic comparison.
UNIT 4
Sequencing & Scheduling: Criteria for sequencing, Priority sequencing and rules, n job 2
machine, n job 3 machine, n job m machine problems, Elements of monitoring and follow up.
Reference Books;
1. Production operations management: Buffa, Edwood
2. Elements of production, planning and control - Eilon Samuel A
3. Production control: A quantitative approach - Biegel. J
4. Industrial engineering and production management – Martand Telsang
5. Operations management- Theory and problems- Joseph Monks
MME-207 PROJECT
No. of Credits: 6 Sessional: 60 Marks
L T P Total Theory : 140 Marks
0 0 12 12 Total : 200 Marks
A candidate has to prepare a report covering identification of research topic, literature review, planning of research scheme and systematic documentation. The marks will be
given on the basis of a report prepared and presentation given by the candidate covering the above said contents, contents of the presentation, communication and presentation
skills.
MME-209 TRIBOLOGY & MAINTENANCE ENGINEERING LAB
No. of Credits: 1 Sessional: 15 Marks
L T P Total Theory : 35 Marks
0 0 2 2 Total : 50 Marks
Course objective: Tribology studies combines issues of friction, wear and lubrication into a framework for designing and maintaining the machine world. Until recently, “the design of the shape and material” was being done on the basis of machine dynamics and strength of materials but the predominant part of failure i.e. wear remained neglected. Course Outcomes (COs): At the end of the course, the student shall be able: CO1: To Study the various tribological processes and tribological relevant properties of materials. CO2: To Determine the various engineering materials having potential for tribological application. CO3: To verify the Characterization and evaluation of Ferrous materials for tribological requirements/applications, CO4: To Understand the Selection of ferrous materials for rolling element bearings, gears, crank shafts, piston rings, cylinder liners, etc.
List of Experiments 1. To study the introduction to maintenance techniques. Preventive and predictive Maintenance 2. To study and perform Non-Destructive Testing techniques, liquid dye penetrant and leak testing. 3. To study and perform Eddy current testing &Ultrasonic testing. 4. To study and perform Magnetic particle detection and Particle counter. 5. To study wear Analysis through thermos-graphy and Ferro-graphy. 6. To study and perform Pin on wear disc apparatus 7. To study wear, lubricants and bearings 8. To study and perform on Journal bearing apparatus, hydrodynamic and hydrostatic bearing apparatus.
SEMESTER – IV
MME-202 DISSERTATION
No. of Credits: 12 Sessional: 150 Marks
L T P Total Theory : 350 Marks
0 0 24 24 Total : 500 Marks
Every student of this programme would work for the completion of his/her dissertation as per guidelines from the department.
Syllabus for Open Elective Subjects
Intelligent Systems (GEC-1)
No. of Credits: 3
L T P Total
3 0 0 3
Sessional: 25 Marks
Theory :75 Marks
Total :100
Duration of Exams: 3 Hours
UNIT 1: Fundamental Issues In IS : Definition of AI , History ,Domains AI ,AI problems &
State space ,Some examples problems representations like Travelling Salespersons ,Syntax
analysis Problem .Basic issues to solve AI problems ,Underlying assumptions ,AI techniques
,Level of model ,Criteria for success ,Control strategies ,DFS,BFS
UNIT 2:Heuristic Search Techniques :Generate & Test, Hill Climbing (simple & stipest), Best
first search ,A*, AO*, Constraint satisfaction.
UNIT 3:Knowledge Representation Issues :Systax & Semantic for Propositional logic ,Syntax
& Semantic for FOPL, Properties for WFF’s, Resolution Basics :conversion to clausal form
,Resolution of proposition logic ,Resolution algorithms for predicates ,Problems with FOPL
,Semantic nets ,Frames ,Scripts
UNIT 4:Reasoning Under Uncertainity :An introduction ,Default reasoning & Closed world
assumptions ,Model & Temporal logic, Fuzzy logic, Basian Probabilstic inference
Dempster Shafer theory ,Heuristic reasoning methods
UNIT 5:Planning & Learning :Planning, Planning in Situational calculus ,Representation for
planning, Partial order planning, Partial order planning algorithm, Learning by Examples
,Learning by Analogy, Explanation based learning, Neurals nets, Genetics algorithms
Unit 6: Minimax: Game playing strategy ,Natural language processing, Overview of linguistics,
Grammer & Language ,Transformation Grammer, Basic Parsing Techniques, Expert
System, Architecture of Rule based Expert system, Non Rule based Expert system.
REFERENCES
1. Artificial Intelligence by Elain Rich & Kevin Knight, Tata McGraw Hills Pub.
2. Principals of AI by Nills .J.Nilsson, Pearson Education Pub.
3. Artificial Intelligence by DAN. W.Petterson. Printice Hall of India
4. Artificial Intelligence by Petrick Henry Winston,
5. Artificial Intelligence by Russel and Norvig, Pearson Education Pub.
Cyber Laws and Security (GEC-2)
No. of Credits: 3
L T P Total
3 0 0 3
Sessional: 25 Marks
Theory :75 Marks
Total :100
Duration of Exams: 3 Hours
UNIT-I :History of Information Systems and its Importance, basics, Changing Nature of
Information Systems, Need of Distributed Information Systems, Role of Internet and
Web Services, Information System Threats and attacks, Classification of Threats and
Assessing Damages Security in Mobile and Wireless Computing- Security Challenges
in Mobile Devices, authentication Service Security, Security Implication for
organizations, Laptops Security Basic Principles of Information Security,
Confidentiality, Integrity Availability and other terms in Information Security,
Information Classification and their Roles.
UNIT-II: Security Threats to E Commerce, Virtual Organization, Business Transactions on
Web, E Governance and EDI, Concepts in Electronics payment systems, E Cash,
Credit/Debit Cards. Physical Security- Needs, Disaster and Controls, Basic Tenets of
Physical Security and Physical Entry Controls, Access Control- Biometrics, Factors in
Biometrics Systems, Benefits, Criteria for selection of biometrics, Design Issues in
Biometric Systems, Interoperability Issues, Economic and Social Aspects, Legal
Challenges
UNIT-III : Model of Cryptographic Systems, Issues in Documents Security, System of Keys,
Public Key Cryptography, Digital Signature, Requirement of Digital Signature
System, Finger Prints, Firewalls, Design and Implementation Issues, Policies
Network Security- Basic Concepts, Dimensions, Perimeter for Network
Protection, Network Attacks, Need of Intrusion Monitoring and Detection, Intrusion
Detection Virtual Private Networks- Need, Use of Tunneling with VPN,
Authentication Mechanisms, Types of VPNs and their Usage, Security Concerns in
VPN
UNIT-IV : Security metrics- Classification and their benefits Information Security & Law,
IPR, Patent Law, Copyright Law, Legal Issues in Data mIning Security, Building
Security into Software Life Cycle Ethics- Ethical Issues, Issues in Data and
Software Privacy Cyber Crime Types & overview of Cyber Crimes
REFERENCES
1. Godbole,“ Information Systems Security”, Willey
2. Merkov, Breithaupt, “ Information Security”, Pearson Education
3. Yadav, “Foundations of Information Technology”, New Age, Delhi
4. Schou, Shoemaker, “ Information Assurance for the Enterprise”, Tata McGraw Hill
5. Sood,“Cyber Laws Simplified”, Mc Graw Hill
6. Furnell, “Computer Insecurity”, Springer 7. IT Act 2000
Soft Computing (GEC-3)
No. of Credits: 3
L T P Total
3 0 0 3
Sessional: 25 Marks
Theory :75 Marks
Total :100
Duration of Exams: 3 Hours
UNIT-I.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
Perception Model, Hopfield Networks, Associative Memories, Applications of
Artificial Neural Networks.
UNIT-II.Fuzzy Logic: Introduction to Fuzzy Logic, Classical and Fuzzy Sets: Overview of
Classical Sets, Membership Function, Fuzzy rule generation.
UNIT-III.Operations on Fuzzy Sets: Compliment, Intersections, Unions, Combinations of
Operations, Aggregation Operations.
UNIT-IV:Fuzzy Arithmetic: Fuzzy Numbers, Linguistic Variables, Arithmetic Operations
on Intervals & Numbers, Lattice of Fuzzy Numbers, Fuzzy Equations.
UNIT-V.Fuzzy Logic: Classical Logic, Multivalued Logics, Fuzzy Propositions, Fuzzy
Qualifiers, Linguistic Hedges. Uncertainty based Information: Information &
Uncertainty, Nonspecificity of Fuzzy & Crisp Sets, Fuzziness of Fuzzy Sets. Genetic
Algorithms, Scope & application areas, solution of 0-1Knapsack problem using GA
REFERENCES
1. “Fuzzy sets and Fuzzy Logic: Theory and applications”,G.J. Klir,B.Yuan, PHI
2. “Introduction to Fuzzy sets and Fuzzy Logic”, M.Ganesh , PHI
3. “An Introduction to Fuzzy Control”, D Driankov, H Hellendoorn, M Reinfrank,
Narosa Publishing Company
4. “ Neural Networks: A classroom approach”, Satish Kumar , Tata McGraw Hill
5. Haykin S., “Neural Networks-A Comprehensive Foundations”, Prentice-Hall
International, New Jersey, 1999.
Web Technology & Information Retrieval(GEC-4)
No. of Credits: 3
L T P Total
3 0 0 3
Sessional: 25 Marks
Theory :75 Marks
Total :100
Duration of Exams: 3 Hours
UNIT 1. Web Server Technology: Web’s Robot global access to information, HTML, HTTP,
Accessing a web server, publishing on web server, secure HTTP, Secure Sockets
Layer, WWW Proxies, IIS, Case study of apache web server.
UNIT 2 .Web search basics:Background and history,Anatomy of WWW, Web characteristics,
Spam, The web graph, The Web Search Users, search engines, architecture of search
engines, search tools, DNS resolution, The URL frontier, Link analysis, PageRank,
UNIT 3. Web Crawlers: Basics of Web crawling, Various crawling techniques , incremental
crawler, parallel crawler, distributed crawlers, focused crawler, agent based crawler, Hidden
web Crawler
UNIT 4. Introduction to Information Retrieval: Information retrieval problem, an inverted
index, Processing Boolean queries, The extended Boolean model versus ranked retrieval, an
inverted index, Bi-word indexes, Positional indexes, Combination schemes
UNIT 5. Index construction: Hardware basics, Blocked sort-based indexing, Single-pass in-
memory indexing, Distributed indexing, Dynamic indexing, Other types of indexes Index
compression: Statistical properties of terms in information retrieval, Heaps’ law: Estimating
the number of terms, Zipf’s law: Modeling the distribution of terms, Dictionary compression,
Dictionary as a string, Blocked storage, Postings file compression.
Intellectual Property Rights(GEC-5)
No. of Credits: 3
L T P Total
3 0 0 3
Sessional: 25 Marks
Theory :75 Marks
Total :100
Duration of Exams: 3 Hours
UNIT 1: Introduction to Intellectual Property: Concept of Intellectual Property, Kinds of
Intellectual Property, Economic Importance of Intellectual Property, Indian Theory on Private
Property: Constitutional Aspects of Property, Constitutional Protection of Property and
Intellectual Property, Economic Development and Intellectual Property Rights Protection
UNIT II: Introduction to Patents: Overview, Historical Development, Concepts: Novelty,
Utility, Patentable Subject-matter: Patent Act, 1970- Amendments of 1999, 2000, 2002 and
2005, Pharmaceutical Products and Process and Patent , Protection, Software Patents, Business
Method, Protection of Plant Varieties and Farmers’ Rights Act, 2001, Patenting of Micro-
organism
UNIT III: Procedure of Obtaining of Patents: Concepts of a Patent Application,, Specification:
Provisional, Complete, Disclosure Aspects, Claims: Principal, Dependant, Omnibus,
Examination of Application, Opposition of Application, Sealing of Patents
UNIT IV: Working of Patents – Compulsory License: Commercialization of Inventions:
License- Terms of License Agreement, Assignments of Patents, Revocation of Patents
UNIT V: Infringement: What is Infringement?, How is Infringement determined? Who is an
Infringer?, Direct, Contributory and Induced, Defences of Infringement:
5.2.1 Research Exemption, Invalidity, Misuse, Failure to mark, Laches and Estoppel and first
sale doctrine
References Books:
1. W.R. Cornish, Intellectual Property, Sweet & Maxwell, London (2000)
2. P. Narayana, Patent Law, Wadhwa Publication
3. Merges, Patent Law and Policy: Cases and Materials, 1996
4. Brian C. Reid, A Practical Guide to Patent Law, 2nd Edition, 1993
5. Brinkhof (Edited), Patent Cases, Wolters Kluwer.
6. Prof. Willem Hoyng & Frank Eijsvogels, Global Patent Litigation, Strategy and
Practice, Wolters Kluwer.
7. Gregory Stobbs, Software Patents Worldwide, Wolters Kluwer.
8. Feroz Ali Khader, The Law of Patents- With a special focus on Pharmaceuticals in
India, Lexis Nexis Butterworths Wadhwa, Nagpur.
9. Sookman, Computer Law, 1996
10. N.S. Gopalakrishnan & T.G. Agitha, Principles of Intellectual Property (2009). Eastern
Book Company, Lucknow.
Installation Testing & Maintenance of Electrical Equipments(GEC-6)
No. of Credits: 3
L T P Total
3 0 0 3
Sessional: 25 Marks
Theory :75 Marks
Total :100
Duration of Exams: 3 Hours
UNIT-1.Installation Of Electrical Equipements: Introduction Unloading of electrical
equipment at site Inspection Storage Foundation Alignment of electrical
machinesTools/Instruments necessary for installation Inspection, storage and handling of
transformer, switchgear and induction motor Preparation of technical report
UNIT-2.Commissioning And Testing:Tests before commissioning of electrical equipment
:Electrical and Mechanical test Specific tests on - transformer, induction motor, alternator,
synchronous power and electrical power installation Need of gradually loading of
Various Tests to be performed after commissioning and before starting the machine Various
instruments required for testing Commissioning of switchgear Test report on
commissioning and test certificate electrical equipment Preparations before commissioning of
power transformer Commissioning- power transformer, three phase induction motor
Transformer insulation oil: Properties as per IS, sampling, testing and filtering/purifying,
standard tests as per IS Measurement of insulation resistance of different
equipments/machines Methods of Drying the winding of electrical equipments and its record
Classification and measurement of insulation resistance, Polarization Index Appropriate
insulation test for specific purpose Factor affecting
UNIT-3.Maintenance Of Electrical Equipments: General aspect of maintenance, Classification
Preventive maintenance-concept, classification, advantages, activities, functions of the
Maintenance Department Breakdown maintenance-concept, advantages, activities Reasons of
failure of electrical equipment due to poor maintenance Factors for preparing maintenance
schedule Frequency of maintenance Maintenance schedule of transformer below and above
1000kVA Maintenance schedule - induction motor, circuit Breaker, overhead line, storage
Battery Probable faults due to poor maintenance in transformer, induction motor, circuit
breaker, overhead lines and battery
UNIT-4.Trouble Shooting:Causes of fault in electrical equipments- Internal and external
Instruments and tools for trouble shooting Common troubles in electrical equipment – DC
Machines, AC Machines, Transformers, Circuit- breaker, under-ground cable, electrical
Installation Need of trouble shooting chart, advantages Trouble shooting chart – DC Motor,
DC Generator, Transformer, Synchronous Motor, Induction Motor, Circuit-breaker Trouble
shooting chart for Domestic appliances- electrical iron, ceiling fan, Washing machine, Air
cooler, Vacuum cleaner Fluorescent tube light: Construction, working and
troubleshooting chart
UNIT-5.Earthing:Necessity of earthing System earthing : advantage of neutral earthing of
generator in power station Equipment earthing: Objective Types of earth electrodesMethods of
earthing : plate earthing, pipe earthing and coil earthing Earthing in extra high voltage and
underground cable Earthing resistance- factor affecting Determination of maximum
permissible resistance of the earthing system Measurement of earth resistance: voltmeter-
ammeter method, earth tester method, ohm meter method and earth loop tester method
Define: earthing , grounding and bonding Comparison between equipment earthing and system
grounding Earthing procedure - Building installation, Domestic appliances, Industrial
premises Earthing in substation, generating station and overhead line
UNIT-6.Electrical Accidents And Safety: Causes of electrical accidents Factors affecting the
severity of electrical shock Actions to be taken when a person gets attached to live part
Safety regulations and safety measures Indian electricity supply act 1948- 1956 Factory act
1948 Procedure of shut down for sub- station and power lines Permit to work : certificate of
(i)requisition for shut down(ii) Permit to work and (iii)Line clear certificate Instruction for
the safety of persons working on a job with a permit to work Fire extinguishers- For
fixed installation and portable devices
REFERENCE/TEXT BOOKS:
1. Testing Commissioning operation and maintenance of Electrical Equipments by Rao S,
Khanna Publication (Latest edition)
2. Installation, commissioning & maintenance of Electrical equipments by Singh
TARLOK, S.K.Kataria & Sons, New Delhi, Second edition-2012
3. Electrical power system by Wadhwa C.L., New Age international Publications
Non-Conventional Energy Resources And Utilisation(GEC-7)
No. of Credits: 3
L T P Total
3 0 0 3
Sessional: 25 Marks
Theory :75 Marks
Total :100
Duration of Exams: 3 Hours
UNIT 1. Energy resources and their utilization : Indian and global energy sources, Energy
exploited, Energy planning, Energy parameters (energy intensity, energy-GDP elasticity),
Introduction to various sources of energy, Solar thermal, Photovoltaic, Water power, Wind
energy, Biomass, Ocean thermal, Tidal and wave energy, Geothermal energy, Hydrogen
energy systems, Fuel cells, Decentralized and dispersed generation. Solar radiations: Extra
terrestrial radiation, Spectral distribution, Solar constant, Solar radiations on earth,
Measurement of solar radiations, Solar radiation geometry, Flux on a plane surface,
Latitude, Declination angle, Surface azimuth angle, Hour angle, Zenith angle, Solar altitude
angle expression for angle between incident beam and the normal to a plane surface (no
derivation), Local apparent time, Apparent motion of sun, Day length, Solar radiation data for
India.
UNIT 2 :Solar energy: Solar thermal power and it's conversion, Solar collectors, Flat plate,
Performance analysis of flat plate collector, Solar concentrating collectors, Types of
concentrating collectors, Thermodynamic limits to concentration, Cylindrical collectors,
Thermal analysis of solar collectors, Tracking CPC and solar swing. Solar thermal
energystorage, Different systems, solar pond. Applications, Water heating, Space heating &
cooling, Solar distillation, solar pumping, Solar Cooking, Green Houses, Solar Power plants,
solar photovoltaic system: Photovoltaic effect, Efficiency of solar cells, Semiconductor
materials for solar cells, Solar photovoltaic system, Standards of solar photovoltaic system,
Applications of PV system, PV hybrid System.
UNIT 3 : Biogas: Photosynthesis, Bio gas production, Aerobic and anaerobic bio-conversion
process, Raw materials, Properties of bio gas, Producer gas, Transportation of bio gas, bio
gas plant technology & status, Community biogas plants, Problems involved in bio gas
production, Bio gas applications, Biomass conversion techniques, Biomass gasification, Energy
recovery from urban waste, Power generation from liquid waste, Biomass cogeneration,
Energy plantation, Fuel properties, Biomass resource development in India. Wind
energy: Properties of wind, Availability of wind energy in India, wind velocity, Wind machine
fundamentals, Types of wind machines and their characteristics, Horizontal and Vertical
axis wind mills, Elementary design principles, Coefficient of performance of a wind mill
rotor, Aerodynamic considerations in wind mill design, Selection of a wind mill, Wind energy
farms, Economic issues, Recent development.
UNIT 4 : Electrochemical effects and fuel cells: Principle of operation of an acidic fuel cell,
Reusable cells, Ideal fuel cells, Other types of fuel cells, Comparison between acidic and
alkaline hydrogen-oxygen fuel cells, Efficiency and EMF of fuel cells, Operating characteristics
of fuel cells, Advantages of fuel cell power plants, Future potential of fuel cells, Tidal power:
Tides and waves as sources of energy, Fundamentals of tidal power, Use of tidal energy,
Limitations of tidal energy conversion systems.Hydrogen Energy: Properties of hydrogen in
respect of its use as source of renewable energy, Sources of hydrogen, Production of
hydrogen, Storage and transportation, Problems with hydrogen as fuel, Development of
hydrogen cartridge, Economics of hydrogen fuel and its use.
UNIT 5.Thermoelectric systems: Kelvin relations, power generation, Properties of
thermoelectric materials, Fusion Plasma Generators, Geothermal energy: Structure of earth's
interior, Geothermal sites, earthquakes & volcanoes, Geothermal resources, Hot springs,
Steam ejection, Principal of working, Types of geothermal station with schematic
representation, Site selection for geothermal power plants. Advanced concepts, Problems
associated with geothermal conversion. Ocean energy: Principle of ocean thermal energy
conversion, Wave energy conversion machines, Power plants based on ocean energy,
Problems associated with ocean thermal energy conversion systems, Thermoelectric
OTEC, Developments of OTEC, Economics. Impact of renewable energy generation on
environment, Kyoto Protocol, Cost of electricity production from different energy
sources, Energy options for Indian economy.
REFERENCE/TEXT BOOKS:
1. Bansal Keemann, Meliss,” Renewable energy sources and conversion technology", Tata
McGrawHill.
2. Kothari D.P., “Renewable energy resources and emerging technologies", Prentice Hall of
IndiaPvt.Ltd.
3. Ashok V. Desai, "Non conventional Energy", New Age International Publishers Ltd.
Utilization Of Electric Power And Traction(GEC-8)
No. of Credits: 3
L T P Total
3 0 0 3
Sessional: 25 Marks
Theory :75 Marks
Total :100
Duration of Exams: 3 Hours
UNIT-I :Illumination : Basic laws of illumination, illumination due to a strip and circular disc,
light sources and their characteristics, sources of light, design of lighting schemes, incandescent
lamp, sodium lamp, mercury lamp and fluorescent lamp, comparison of various lamps.
UNIT-II. Electric Heating: Principle and application of resistance, induction , dielectric
heating and temperature control
UNIT-III. Electric Welding: Resistance welding, arc welding, welding generator and welding
transformer, properties of arcing electrode
UNIT-IV.Electrolyting Process: Principles and applications of electrolysis, Faraday‘s
law of electrolysis, electroplating, charging and discharging, capacity and efficiency of
battery, defects in battery.
UNIT-V.Electric Traction :Advantages of electric traction, requirements of an ideal traction
system, train movement, mechanism of train movement, traction motors, traction motor
control, multi unit control, braking of electric motors, thyristor control of electric traction
REFERENCE BOOKS:
1. Utilization of electric energy: Open Shaw Taylor; ELBS
2. Art and Science of Utilization of Electrical energy: H.Pratab; Dhanpat Rai
3. Generation, distribution and utilization of electric power: C.L. Wadhwa; Khanna
Publications
Microprocessor and Interfacing(GEC-15)
No. of Credits: 3
L T P Total
3 0 0 3
Sessional: 25 Marks
Theory :75 Marks
Total :100
Duration of Exams: 3 Hours
UNIT1. Architecture of 8085: Functional block diagram—Registers, ALU, Bus systems.
Pin configuration, Timing and control signals, Machine cycle and timing diagrams.
Interrupts—Types of interrupt, interrupt structure.
UNIT2. Programming of 8085: Instruction format, Addressing modes, Instruction set.
Development of assembly language programs.
UNIT3. Interfacing Devices:(a).The 8255 PPI chip: Architecture, pin configuration, control
words, modes and Interfacing with 8085. (b). The 8254 PIC chip: Architecture, pin
configuration, control words, modes and Interfacing with 8085.
UNIT4. Interrupt and DMA controller: The 8259 Interrupt controller chip: Architecture, pin
configuration, control words, modes
UNIT5. Architecture of 8086: Functional block diagram of 8086, details of sub-blocks such as
EU, BIU,memory segmentation, physical address computations, pin configuration,
program relocation, Minimum and Maximum modes of 8086— Block diagrams and
machine cycles.
UNIT6. Programming of 8086: Instruction format, Addressing modes, Instruction set and
programs.
TEXT BOOKS:
1. Microprocessor Architecture, Programming & Applications with 8085: Ramesh S Gaonkar;
Wiley Eastern Ltd.
2. Microprocessor and applications – A.K.Ray. , TMH
REFERENCE BOOKS:
1. Microprocessors and interfacing : Hall; TMH
2. The 8088 & 8086 Microprocessors-Programming, interfacing,Hardware& Applications
:Triebel& Singh; PHI
3. Microcomputer systems: the 8086/8088 Family: architecture, Programming &Design : Yu-
Chang Liu & Glenn A Gibson; PHI.
4. Advanced Microprocessors and Interfacing :Badri Ram; TMH
Digital Signal Processing(GEC-16)
No. of Credits: 3
L T P Total
3 0 0 3
Sessional: 25 Marks
Theory :75 Marks
Total :100
Duration of Exams: 3 Hours
UNIT1. DISCRETE-TIME SIGNALS: Signal classifications, frequency domain
representation, time domain representation, representation of sequences by Fourier
transform, properties of Fourier transform, discrete time random signals, energy and
power theorems.
UNIT2. DISCRETE-TIME SYSTEMS: Classification, properties, time invariant system, finite
impulse Response (FIR) system, infinite impulse response (IIR) system.
UNIT3. SAMPLING OF TIME SIGNALS:Sampling theorem, application, frequency
domain representation of sampling, reconstruction of band limited signal from its
samples. Discrete time processing of continuous time signals, changing the sampling
rate using discrete time processing.
UNIT4. Z-TRANSFORM: Introduction, properties of the region of convergence, properties
of the Z-transform, inversion of the Z-transform, applications of Z-transform.
UNIT5. BASICS OF DIGITAL FILTERS: Fundamentals of digital filtering, various types
of digital filters, design techniques of digital filters : window technique for FIR, bi-
linear transformation and backward difference methods for IIR filter design, analysis
of finite word length effects in DSP,FIR &IIR Filter structure-
direct1,direct2,cascadeand parallel, Application of DSP
TEXT BOOKS :
1. Digital Signal Processing :Proakis and Manolakis; PHI
2. Digital Signal Processing: Salivahanan, Vallavaraj and Gnanapriya;TMH
REFERENCE BOOKS:
1. Digital Signal Processing: Alon V. Oppenhelm;PHI
2. Digital Signal processing(II-Edition): Mitra, TMH
Instrumentation and Control(GEC-17)
No. of Credits: 3
L T P Total
3 0 0 3
Sessional: 25 Marks
Theory :75 Marks
Total :100
Duration of Exams: 3 Hours
UNIT 1. OSCILLOSCOPE: Block diagram, study of various stages in brief, high
frequency CRO considerations. Sampling and storage oscilloscope.
UNIT 2. ELECTRONIC INSTRUMENTS: Instruments for measurement of voltage,
current & other circuit parameters, introduction to digital meters.
UNIT 3. GENERATION & ANALYSIS OF WAVEFORMS: Block diagram of pulse
generators, signal generators, function generators wave analysers, distortion analysers,
spectrum analyser, Harmonic analyser, introduction to power analyser.
UNIT 4. FREQUENCY & TIME MEASUREMENT: Study of decade counting
Assembly(DCA), frequency measurements, period measurements, universal counter,
introduction to digital meters.
UNIT 5. TRANSDUCERS: Classification, Transducers of types: RLC photocell,
thermocouples etc. basic schemes of measurement of displacement, velocity, acceleration,
strain, pressure, liquid level & temperature.
UNIT 6.CONTROL SYSTEM : Concept of transfer function, relationship between transfer
function and impulse response, order of a system, block diagram algebra, signal flow graphs :
Mason’s gain formula & its application, characteristic equation, derivation of transfer
functions of electrical and electromechanical systems. Transfer functions of cascaded and
non-loading cascaded elements.
TEXT BOOK:
1. A course in Electrical & Electronics Measurements &Instrumentation :A.K.Sawhney;
DhanpatRai& Sons.
2. Control System Engineering : I.J.Nagrath&M.Gopal; New Age
3. Modern Control Engg : K.Ogata; PHI.
REFERENCE BOOKS.
1. Electronics Instrumentation & Measurement Techniques : Cooper; PHI.
Data Communication and Networking(GEC-18)
No. of Credits: 3
L T P Total
3 0 0 3
Sessional: 25 Marks
Theory :75 Marks
Total :100
Duration of Exams: 3 Hours
UNIT1. Introduction : Data Communication, Networks, Internet, Intranet, Protocols, OSI &
TCP/IP Models Addressing. Physical Layer – Signals, Analog, Digital, Analog VS
Digital, Transmission impairment, Data Rate Limits, Performance. Digital Transmission
– Line Coding (Umipolar, Polar, Biphase), Block Coding (4B/5B Encoding), Analog to digital
conversion, PCM, Transmission Modes. Analog Transmission – Digital to analog
conversion (ASK, FSK, PSK, QAM), Analog to Analog conversion. Multiplexing – FDM,
WDM, Synchronous TDM (time slots & frames, interleaving, data rate management).
Spread Spectrum – FHSS, DSSS Transmission Media – Guided and Unguided. Switching –
Switching, Circuit- Switched Networks, Datagram networks, Concept of Virtual circuit
networks, structure of circuit and packet switch. Concepts of DSL and ADSL.
UNIT 2. Data Link Layer : Error correction & detection. Types of errors. Detection VS
Correction, Block Coding, Hamming Distance, Linear Block codes (single parity
check, hamming codes), Cyclic codes, CRC Encoder & Decoder, DRC Polynomial
and its degree, Checksum.
UNIT 3.Network layer protocol : Internetworking,IPv4, IPv4 protocol packet format, IPv6
Protocol & Packet format, IPv4 VS IPv6, Transition from IPv4 to IPv6,Address
Resolution protocols (ARP, RARP), BOOTP, DHCP, Routing Protocols – Delivery,
forwarding, routing, types of routing, routing tables, Unicast Routing, Unicast
Routing protocols, RIP, Concepts of OSPF, BGP & Multicast Routing Transport Layer
– Process to process delivery, UCP, TCP Congestion Control & Quality of Service –
Data traffic, Congestion, Congestion Control (Open Loop, Closed Loop & Congestion
control in TCP), QoS and Flow Characteristics Application Layer – DNS, Remote Logging
(Telnet), SMTP, FTP, WWW, HTTP
Soft Skills for Engineers (GEC-19)
No. of Credits: 3 Sessional: 25 Marks
L T P Total
3 0 0 3
Theory :75 Marks
Total :100
Duration of Exams: 3 Hours
Unit-I- CORPORATE INTERACTION, LEADERSHIP & COMMUNICATION
Part I.Audio/Video Lessons and Observation/Listening Skills
(Practical)Interviews Lectures by Eminent Engineers, scientists and technocrats. Other
inspiring speeches on social issues as well as related to the corporate world and
industry.
Part-II.Group Discussions, Corporate Dialogue/Role Play (conflict and
resolution);Mock-interviews.Discussions with briefs on CSR and IPR and role
of important international bodies like WTO and IMF; Presentations;
Technical/Business vocabulary; Body Language.
Part-III: Leadership & Participation:Review of social, political and corporate
scene; Leadership skills, Attitudes, Sensitivity training.Learning/’Take-aways’ from
scenarios/situations. Crisis-handling; Negotiation-Conflict resolution exercises;
Communication Skills; Seven Cs of Communication; Barriers of/to Effective
Communication
Unit –II- CREATIVE COMPOSITION& TECHNICAL WRITING : Exercises in
creative writing:USP and image building; Setting Goals; Charting Objectives; Minutes
of a Meeting; Reports; Interoffice Memorandum; Resume and Covering Letter.
Unit –III- SEMANTICS & SYNTAX : Idioms & Proverbs, Vocabulary building,
Crosswords, Neologisms, Portmanteau words, Correct sentences/usage.
Unit-IV- DISSERTATION & PRACTICAL ASSESSMENT :Short Multimedia
Dissertation on any topic of student’s interest; Group Discussion and Mock-
interview .
Resources
Stephen Robbins and Seema Sanghi.Organizational Behaviour. Pearson. Latest edition.
Kotler, Philip and Kevin Lane Keller.Marketing Management. 13 th edition.2008
Eastern Economy Edition
Wehmeier, Sally.Oxford Advanced Learner’s Dictionary. Oxford UP.2005
Ghosh, BN. Managing Soft Skills for Personality Development.Tata McGraw-Hill 2012
Rizvi, M Ashraf. Effective Technical Communication. Tata Mc Graw-Hill.2005
Bretag, Crossman and Bordia.Communication Skills. Tata Mc Graw-Hill.2009
Sites: Youtube and Wikipedia in general.
Maths-III(GEC-20)
No. of Credits: 3
L T P Total
3 0 0 3
Sessional: 25 Marks
Theory :75 Marks
Total :100
Duration of Exams: 3 Hours
UNIT 1.Fourier Series and Fourier Transforms : Euler’s formulae, conditions for a Fourier
expansion, change of interval, Fourier expansion of odd and even functions, , half range
sine and cosine series. Fourier expansion of square wave , rectangular wave, saw-
toothed wave, half and full rectified wave, Fourier integrals. Fourier transforms, Shifting
theorem (both on time and frequency axes), Fourier transforms of derivatives, Fourier
transforms of integrals, Convolution theorem. application of fourier transform to solve
standard equations/boundary value problems. Applications of fourier transform for solution of
standard equations/boundary value problems.
UNIT2.Functions of Complex Variable : Definition, Exponential function, Trigonometric and
Hyperbolic functions, Logarithmic functions, Limit and Continuity of a function,
Differentiability and Analyticity. Cauchy-Riemann equations, necessary and sufficient
conditions for a function to be analytic, polar form of the Cauchy-Riemann
equations. Harmonic functions,Milne Thomson Method to find harmonic conjugate of a
function. application to flow problems. Integration of complex functions. Cauchy- Integral
theorem and formula.Power series,radius and circle of convergence, Taylor's, Maclaurin's
and Laurent's series.Zeroes and singularities of complex functions, Residues. Cauchy’s
residue theorem,Evaluation of real integrals using residues (around unit and semi circle
only).
UNIT 3.Probability Distributions : Conditional probability, Bayes theorem and its applications,
expected value of a random variable. Properties and application of Binomial, Poisson
and Normal distributions.
Unit 4: Linear Programming: Linear programming problems formulation, solving linear
programming problems using (i) Graphical method(corner point,iso cost/iso profit) (ii) Simplex
method (iii) BIG M method (iv) Duality concept and Dual simplex method.
TEXT BOOKS :
1. Higher Engg. Mathematics : B.S. Grewal.
2. Advance Engg. Mathematics : R.K. Jain, S.R.K.Iyenger
REFERENCE BOOK
1. Advanced Engg. Mathematics : F Kreyszig.
2. Advanced Engg. Mathematics : Michael D. Greenberg.
3. Operation Research : H.A. Taha.
4. Probability and statistics for Engineers : Johnson. PHI
Human Resource Management(GEC-21)
No. of Credits: 3
L T P Total
3 0 0 3
Sessional: 25 Marks
Theory :75 Marks
Total :100
Duration of Exams: 3 Hours
UNIT I : Human Resource Management: concept and scope; Roles, responsibilities and
competencies of HR manager; Challenges to HR professionals; Human Resource Planning &
Forecasting: significance and process.
UNIT II :HR Sourcing: Recruitment, Selection and Induction. Job Analysis: job Description
and job Specification; Job Design: concept and methods; Job Evaluation-concept &methods;
Performance appraisal and counselling.
UNIT III :Training: training process and methods; Career planning and Development;
Succession planning; Employee Compensation: basic concepts & determinants;
UNIT IV: Industrial Relations and Grievance Handling; Employee welfare; Dispute Resolution;
International Human Resource Management; Contemporary Issues in HRM. HR Audit
&Accounting, ethics & corporate social responsibility.
Suggested Readings:
1. K. Aswathapa Human resource Management: Text and cases, 6th
edition, Tata
McGraw Hill, New Delhi,2012
2. Uday Kumar Haldar &Juthika Sarkar(2012) Human resource Management New Delhi,
Oxford University Press.
3. De Cenvo, Da & Robbins S.P.(2010) Fundamentals of Human Resource Management,
9th
edition, New York, John Wiley & Sons.
4. Gary Dessler (2008) Human Resource Management, 11th
edition New Delhi: Pearson
Prentice Hall.
5. Tanuja Agarwala, Strategic Human resource Management, Oxford University Press
2007.
Financial Management(GEC-22)
No. of Credits: 3
L T P Total
3 0 0 3
Sessional: 25 Marks
Theory :75 Marks
Total :100
Duration of Exams: 3 Hours
UNIT-I :Financial management-scope finance functions and its organisation, objectives of
financial management; time value of money; sources of long term finance.
UNIT-II Investment decisions: importance, difficulties, determining cash flows, methods of
capital budgeting; cost of different sources of raising capital; weighted average cost of
capital.
UNIT-III:Capital structure: Meaning, importance, determinants and Theories. Financial and
operating leverage; EBIT/EPS Analysis, determinants of dividend policy and dividend
models -Walter, Gordon & M.M. models.
UNIT-IV:Working Capital- meaning, need, determinants; estimation of working capital need;
management of cash, inventory and receivables.
Suggested Readings:
1. Pandey, I.M., Financial Management, Vikas Publishing House, New Delhi 10th
edition 2010
2. Khan M.Y, and Jain P.K., Financial Management, Tata McGraw Hill, New Delhi
3. Keown, Arthur J., Martin, John D., Petty, J. William and Scott, David F,
FinancialManagement, Pearson Education
4. Chandra, Prasanna, Financial Management, TMH, New Delhi
5. Van Horne, James C., Financial Management and Policy, Prentice Hall of India
6. Brigham & Houston, Fundamentals of Financial Management, Thomson Learning,
Bombay.
7. Kishore, R., Financial Management, Taxman’s Publishing House, New Delhi
Marketing Management(GEC-23)
No. of Credits: 3
L T P Total
3 0 0 3
Sessional: 25 Marks
Theory :75 Marks
Total :100
Duration of Exams: 3 Hours
UNIT-I:Nature and scope of marketing; Philosophies of marketing management; marketing
environment; marketing research and marketing information system; Ethical issues in
marketing
UNIT-II: Understanding consumer behaviour; factors influencing consumer buying behaviour
and organizational buying behaviour; market segmentation, targeting and positioning;
marketing strategies in the different stage of the product life cycle; new product
development process
UNIT-III: Introduction to Product mix and product line decisions; branding and packaging
decisions; Pricing strategies and practices; factors affecting selection of marketing
channels; Introduction to wholesaling and retailing; Introduction to Promotion Mix:
Advertising, sales promotion, public relations, personal selling
UNIT-IV :Sales Forecasting Methods; Introduction: Green Marketing; Event Marketing; Direct
marketing; Network Marketing; Holistic Marketing; Permission Marketing; Social
Marketing
Suggested Readings:
1. Kotler and Armstrong,Principles of Marketing; PHI, New Delhi
2. Kotler, Philip, Kevin Keller, A. Koshy and M. Jha, Marketing Management in South Asian
Perspective , Pearson Education, New Delhi
3 . Kerin, Hartley, Berkowtz and Rudelius, Marketing, TMH, New Delhi
4. Etzel, Michael J, Marketing: Concepts and Cases, TMH, New Delhi
5. Kumar,Arun and Meenakshi,N. ,Marketing Management, Vikas Publication
Entrepreneur Development(GEC-24)
No. of Credits: 3
L T P Total
3 0 0 3
Sessional: 25 Marks
Theory :75 Marks
Total :100
Duration of Exams: 3 Hours
UNIT I : Concept of Entrepreneur, Characteristics, qualities and pre-requisites of entrepreneur,
entrepreneurship and intrapreneur, Entrepreneur vs. Manager; Economic, social and
psychological need for entrepreneurship;
UNIT II :Environmental Factors affecting success of a new business, Formulation of business
plan, Contents and significance of business plan
UNIT III: Feasibility Study -Preparation of Feasibility Reports: Economic, Technical, Financial
and Managerial Feasibility of Project, Methods and procedures to start and expand one's
own business
UNIT IV: Role of Government and Promotional agencies in entrepreneurship development,
Entrepreneurship Development Programmes
Reference Books:
Khanka S.S., “Entrepreneurship Development”. S.Chand.
Desai, A N. "Entrepreneur & Environment". 1990. Ashish, New Delhi.
Drucker, Peter. "Innovation and Entrepreneurship". 1985. Heinemann, London.
Jain Rajiv. "Planning a Small Scale Industry: A Guide to Entrepreneurs". 1984. S.S.
Books, Delhi.
Kumar, S A. "Entrepreneurship in Small Industry". 1990, Discovery, New Delhi.
McClelland, D C and Winter, W G. "Motivating Economic Achievement". 1969. Free
Press, New York.
Pareek, Udai and VenkateswaraRao, T. "Developing Entrepreneurship -A Handbook on
Learning Systems". 1978, Learning Systems, Delhi.
Principal of Marketing and Management(GEC-25)
No. of Credits: 3
L T P Total
3 0 0 3
Sessional: 25 Marks
Theory :75 Marks
Total :100
Duration of Exams: 3 Hours
UNIT-I :Introduction: concept, nature and significance of management; Functions of
management, Levels of management and Managerial skills required at various levels, concept
and process of human resource management, concept of marketing management and
marketing mix, concept and major decisions of financial management.
UNIT-II: Process and types of planning, decision making process, basic issues in organizing
types of organisation structure, delegation of authority and responsibility, departmentalisation,
decentralization, span of management, line and staff relationship.
UNIT-III: Leadership styles/behaviours, leadership vs management; personal characteristics of
effective leaders, theories of motivation; Maslow’s Theory, Theory X and Y, Herzberg
theory. management control – concept and process, managerial ethics and social responsibility
UNIT IV: Introduction to economics: micro vs macro economics. Relationship between
science, engineering, technology and economic development. Meaning of Demand, Law of
Demand, Elasticity of Demand. Law of Supply, Price equilibrium.
UNIT-V: Types of costs. Production function, Laws of production. Economies and
diseconomies of scale. Market; types of market. Price equilibrium in perfect competition,
monopoly, monopolistic competition, oligopoly.
General Elective Course offered by Mechanical Engg. Department for students of
other Department (Not allowed for ME Deptt. Students):
S.No Code Name of Subject
1 GEC-9 Industrial Engineering
2 GEC-10 Total Quality Management
3 GEC-11 Solid Waste
4 GEC-12 Product Design and Development
5 GEC-13 Robotics Engineering
6 GEC-14 Power Plant Engineering
Industrial Engineering(GEC-9)
No. of Credits: 3
L T P Total
3 0 0 3
Sessional: 25 Marks
Theory :75 Marks
Total :100
Duration of Exams: 3 Hours
UNIT 1. Basic Concepts of Industrial Engineering: Definition, Objectives, Method study,
Principle of motion economy, Techniques of method study - Various charts,
THERBLIGS, Work measurement - various methods, Time Study - PMTS,
determining time, Work sampling, Numerical Problems.
UNIT 2. Productivity, Workforce & Information Management: Productivity
Definition, Various methods of measurement, Factors effecting productivity,
Strategies for improving productivity, Various methods of Job evaluation &
merit rating, Various incentive payment schemes, Organizational & information
system structure,
UNIT 3. Manufacturing Cost Analysis: Fixed & variable costs, Direct, indirect &
overhead costs, & Job costing, Recovery of overheads, Standard costing, Cost
control, Cost variance Analysis - Labour, material, overhead in volume, rate &
efficiency, Break even Analysis, Numerical Problems.
UNIT 4. Materials Management : Strategic importance of materials in manufacturing
industries, Relevant costs, Inventory control models - Economic order quantity
(EOQ), Economic batch quantity (EBQ) with & without shortage, Inventory control
systems - P,Q,Ss Systems,determination of order point & safety stock, Selective
inventory control - ABC, FSN, SDE, VED,SCM , Numerical Problems.
UNIT 5. Sales Forecasting: Importance, Objectives, Forecasting and Prediction, Types,
Classification of Forecasting Methods, Forecast Errors, Costs and Accuracy of
Forecasts, Numerical Problems.
UNIT 6. Entrepreneurship : Planning a New Business Venture, Small-scale Industries,
Government Policies for Small-scale Industries, Project Identification and Project
Formulation, Project Appraisal, Laws Concerning Entrepreneurs, Role of Various
National and State Agencies that Render Assistance to Small-scale Industries.
Text Books
1. Production & Operations Management – Chary, TMH, New Delhi.
2. Management Information Systems - Sadagopan, PHI New Delhi.
Reference Books
1. Modern Production Management – S.S. Buffa, Pub.- John Wiley.
2. Operations Management - Schroeder, McGraw Hill ISE.
3. Operation Management - Monks, McGraw Hill ISE.
4. Production & Operations Management - Martinich, John Wiely SE.
5. Industrial & Systems Engineering - Turner, MIZE, CHASE, Prentice Hall Pub.
6. Industrial Engineering & Operations Management – SK Sharma, Pub-S. K. Kataria
7. Industrial Engineering – Ravi Shankar, Galgotia Pub.
Total Quality Management (GEC-10)
No. of Credits: 3
L T P Total
3 0 0 3
Sessional: 25 Marks
Theory :75 Marks
Total :100
Duration of Exams: 3 Hours
UNIT 1: Introduction : Quality – Basic concepts, dimensions, economics of quality, quality
Gurus.TQM: Definition, evolution, journey from inspection to TQM, comparison at different
stages, dimensions of TQM, TQM viewpoints, reasons for adopting TQM.
UNIT 2: Introspection to TQM environment: Sphere of TQM, components of TQM, TQM
Managing Total Quality, Factors affecting TQM environment, Classification and interaction
among factors, Researchers’ viewpoint, TQM as a system, steps in TQM implementation,
Roadblocks in TQM implementation, Reasons for TQM failure.
UNIT 3:Role of soft options in TQM :Hard vs. Soft factors, Role and expectation of employer,
employee, customer and supplier from organization and vice versa. Human factors in TQM,
Role of top management commitment, work culture, motivation, coordination, attitude,
innovation.
UNIT 4:Quality initiatives in organizations :Role of tools and techniques in TQM,
Classification of tools and techniques – Problem identification, Data analysis, Graphical,
Creativity, Company wide. Brief description of Quality awards – MBNQA, Deming award,
European quality award, Australian quality award.
UNIT 5: TQM Effectiveness : Impact of TQM, Need and difficulty in measuring TQM effect,
Parameters governing effect of TQM .
Reference books:
1) “Total Quality Management” by Oakland (Butterworth – Heinamann Ltd.)
2) “Managing for total quality from Deming to Taguchi and SPC” by Logothetis N. (PHI)
3) “Total Quality Control” by Feigenbaum A.V. (MGH)
4) “Total Quality Management” by Besterfield Dale H (Pearson Education)
5) “A slice by slice guide to TQM” by John Gilbert (Affiliated East West Press)
6) “The TQM toolkit – a guide to practical techniques for TQM” by Waller Jenny, Allen
Derek and Burna Andrew (Kogan Page)
Solid Waste(GEC-11)
No. of Credits: 3
L T P Total
3 0 0 3
Sessional: 25 Marks
Theory :75 Marks
Total :100
Duration of Exams: 3 Hours
UNIT I : Sources And Types Of Municipal Solid Wastes :Sources and types of solid wastes -
Quantity – factors affecting generation of solid wastes; characteristics – methods of sampling
and characterization; Effects of improper disposal of solid wastes – public health effects.
Principle of solid waste management – social & economic aspects; Public awareness; Role of
NGOs; Legislation.
UNIT II : On-Site Storage & Processing :On-site storage methods – materials used for
containers – on-site segregation of solid wastes – public health & economic aspects of storage –
options under Indian conditions – Critical Evaluation of Options
UNIT III : Collection And Transfer :Methods of Collection – types of vehicles –
Manpower requirement – collection routes; transfer stations – selection of location, operation
& maintenance; options under Indian conditions.
UNIT IV : Off-Site Processing :Processing techniques and Equipment; Resource recovery from
solid wastes – composting, incineration, Pyrolysis - options under Indian conditions.
UNIT V : DISPOSAL :Dumping of solid waste; sanitary land fills – site selection, design and
operation of sanitary landfills – Leachate collection & treatment.
Text Books/Reference Books:
1. George Tchobanoglous et.al., “Integrated Solid Waste Management”, McGraw-Hill
Publishers, 1993.
2. B.Bilitewski, G.HardHe, K.Marek, A.Weissbach, and H.Boeddicker, “Waste
Management”, Springer, 1994
3. Manual on Municipal Solid Waste Management, CPHEEO, Ministry of Urban
Development, Government of India, New Delhi, 2000
4. R.E.Landreth and P.A.Rebers, “Municipal Solid Wastes – problems and Solutions”,
Lewis Publishers, 1997.
5. Bhide A.D. and Sundaresan, B.B., “Solid Waste Management in Developing
Countries”, INSDOC, 1993
Product Design and Development(GEC-12)
No. of Credits: 3
L T P Total
3 0 0 3
Sessional: 25 Marks
Theory :75 Marks
Total :100
Duration of Exams: 3 Hours
UNIT 1. Introduction: Design theory, design materials, human factors in design, man-machine
system, applied ergonomics, characteristics of successful product development,
challenges to product development.
UNIT 2.Development process and product planning: Generic development process, Concept
development, product development process flows, product planning process, identify
customer needs.
UNIT 3. Product specifications and concept generation: Product specification, steps to
establish the target specifications, Concept generation, five step concept generation
method, concept selection, concept screening, concept testing, product architecture
UNIT 4. Product design methods: Creative and rational, clarifying objectives - the objective
tree method, establishing functions- the function analysis method, setting
requirements – the performance specification method, determining characteristics –
the QFD method, generating alternatives – morphological chart method, evaluating
alternatives – the weighted objective method, improving details – the value
engineering method and design strategies.
UNIT 5. Design for manufacture: Estimating manufacturing cost, reducing component,
assembly and support costs, design for assembly, design for disassembly, design for
environment, design for graphics and packaging, effective prototyping – principle and
planning
UNIT 6. Industrial design: Its need, impact and quality, industrial design process and its
management, legal issues in product design, design resources, economics and
management of product development projects.
UNIT 7. Prototyping: Basics and principles of prototyping, prototyping technologies, planning
for prototypes
Text Books
1. K.T. Ulrich and S.D. Eppinger, “Product design and development”, Tata McGraw Hill
2. Chitale & Gupta, “Product Development”, Tata McGraw Hill
3. Monks, J. G., “Operations Management”, McGraw Hill, 1997.
4. George Dietor, A material and Processing approach, McGraw Hill
Power Plant Engineering (GEC-13)
No. of Credits: 3
L T P Total
3 0 0 3
Sessional: 25 Marks
Theory :75 Marks
Total :100
Duration of Exams: 3 Hours
UNIT 1. Introduction: Energy resources and their availability, types of power plants, selection
of the plants, review of basic thermodynamic cycles used in power plants.
UNIT 2. Hydro Electric Power Plants : Rainfall and run-off measurements and plotting of
various curves for estimating stream flow and size of reservoir, power plants
design, construction and operation of different components of hydro-electric power
plants, site selection, comparison with other types of power plants.
UNIT 3. Steam Power Plants: Flow sheet and working of modern-thermal power plants,
super critical pressure steam stations, site selection, coal storage, preparation, coal handling
systems, feeding and burning of pulverized fuel, ash handling systems, dust collection-
mechanical dust collector and electrostatic precipitator.
UNIT 4. Combined Cycles: Constant pressure gas turbine power plants, Arrangements of
combined plants ( steam & gas turbine power plants ), re-powering systems with gas
production from coal, using PFBC systems, with organic fluids, parameters
affecting thermodynamic efficiency of combined cycles. Problems.
UNIT 5. Nuclear Power Plants: Principles of nuclear energy, basic nuclear reactions,
nuclear reactors-PWR, BWR, CANDU, Sodium graphite, fast breeder,
homogeneous; gas cooled. Advantages and limitations, nuclear power station, waste
disposal.
UNIT 6. Power Plant Economics: load curve, different terms and definitions, cost of
electrical energy, tariffs methods of electrical energy, performance & operating
characteristics of power plants- incremental rate theory, input-out put curves,
efficiency, heat rate, economic load sharing, Problems.
UNIT 7. Non-Conventional Power Generation: Solar radiation estimation, solar energy
collectors, low, medium & high temperature power plants, OTEC, wind power plants,
tidal power plants, geothermal power plants.
UNIT 8. Direct Energy Conversion Systems: Fuel cell, MHD power generation-principle, open
& closed cycles systems, thermoelectric power generation, thermionic power
generation.
Text Books
1. Power station Engineering and Economy by Bernhardt G.A. skrotzki and William A.
Vopat – Tata Mc Graw Hill Publishing Campany Ltd., New Delhi
2. Power Plant Engineering: P.K. Nag Tata McGraw Hill second Edition 2001.
Robotics Engineering(GEC-14)
No. of Credits: 3
L T P Total
3 0 0 3
Sessional: 25 Marks
Theory :75 Marks
Total :100
Duration of Exams: 3 Hours
UNIT 1 . Introduction: Automation and Robotics, Historical Development, Definitions, Basic
Structure of Robots, Specifications of Robots, Robot Anatomy, Complete Classification of
Robots, Fundamentals about Robot Technology, Factors related to use Robot Performance,
Basic Robot Configurations and their Relative Merits and Demerits, Types of Drive
Systems and their Relative Merits, the Wrist & Gripper Subassemblies.
UNIT 2. Control of Robots: Concepts and Model about Basic Control System, Transformation
and Block Diagram of Spring Mass System, Control Loops of Robotic Systems, PTP and
CP Trajectory Planning, Different Types of Controllers, Control Approaches of Robots.
UNIT3. . Kinematics of Robot Manipulator: Introduction, General Description of Robot
Manipulator, Mathematical Preliminaries on Vectors & Matrices, Homogenous Representation
of Objects, Robotic Manipulator Joint Co-Ordinate System, Euler Angle & Euler
Transformations, Roll-Pitch-Yaw(RPY) Transformation, Relative Transformation, Direct &
Inverse Kinematics’ Solution, D H Representation & Displacement Matrices for
Standard Configurations, Geometrical Approach to Inverse Kinematics. Homogeneous Robotic
Differential Transformation: Introduction, Jacobian Transformation in Robotic Manipulation.
UNIT4 . Robotic Workspace & Motion Trajectory: Introduction, General Structures of Robotic
Workspaces, Manipulations with n Revolute Joints, Robotic Workspace Performance Index,
Extreme Reaches of Robotic Hands, Robotic Task Description.
UNIT5 . Robotic Motion Trajectory Design: Introduction, Trajectory Interpolators, Basic
Structure of Trajectory Interpolators, Cubic Joint Trajectories. General Design Consideration
on Trajectories:- 4-3-4 & 3-5-3 Trajectories, Admissible Motion Trajectories.
UNIT6 .Industrial Applications: Objectives, Automation in Manufacturing, Robot Application
in Industry, Task Programming, Goals of AI Research, AI Techniques, Robot Intelligence and
Task Planning, Modern Robots, Future Application, Challenges and Case Studies.
Text Books/ Reference Books:
1. A Robot Engineering Textbook – Mohsen Shahinpoor – Harper & Row publishers, New
York.
2. Robotics, control vision and intelligence, Fu, Lee and Gonzalez. McGraw Hill.
3. Introduction to Robotics, John J. Craig, Addison Wesley Publishing.
4. Robotics for Engineers , Yoram Koren, McGraw Hill International.
5. Industrial Robotics, Groover, Weiss, Nagel, McGraw Hill International.
6. Company Fundamentals of Robotics Analysis and Control, Schilling, PHI.
7. Introduction to Robotics, Niku, Pearson Education, Asia.
8. Robotics, control vision and intelligence, Fu, Lee and Gonzalez. McGraw Hill
AUD-13: ENTREPRENEURSHIP DEVELOPMENT
Duration of Exam: 3 hrs
Course Objective:
This course aims to acquaint the students with challenges of starting new ventures and enable
them to investigate, understand and internalize the process of setting up a business.
Unit-I
Entrepreneurship: Concept, knowledge and skills requirement; characteristics of successful
entrepreneurs;role of entrepreneurship in economic development; entrepreneurship process;
factors impacting emergence of entrepreneurship
Unit-II
Starting the venture: generating business idea – sources of new ideas, methods of generating
ideas, opportunity recognition; environmental scanning, competitor and industry analysis;
feasibility study – market feasibility, technical/operational feasibility, financial feasibility:
drawing business plan
Unit -III
Functional plans: marketing plan – marketing research for the new venture, steps in preparing
marketing plan, contingency planning; organizational plan – form of ownership, designing
organization structure; financial plan – cash budget, working capital
Unit -IV
Sources of finance: debt or equity financing, commercial banks, venture capital; financial
institutions supporting entrepreneurs; legal issues – intellectual property rights patents,
trademarks, copyrights, trade secrets, licensing
Suggested Readings:
1. Hisrich, Robert D., Michael Peters and Dean Shephered, Entrepreneurship, Tata McGraw Hill,
New Delhi
2. Barringer, Brace R., and R. Duane Ireland, Entrepreneurship, Pearson Prentice Hall, New
Jersy (USA)
3. Lall, Madhurima, and Shikha Sahai, Entrepreneurship, Excel Books,
New Delhi
4. Charantimath, Poornima, Entrepreneurship Development and Small Business
Entreprises ,
5. Pearson Education, New Delhi
AUD-14: COMMUNICATION AND SOFT SKILLS
Duration of Exam: 3 Hours
Course Objective:
The objective of this course is to expose the students to basic communication and soft skills and
to familiarize them with behavioral skills and business etiquettes.
Unit -I
Communication Skills - Concept, characteristics and process of communication; 7C's of
communication; listening skills, verbal communication, non-verbal communication, body
language, art of meeting and greeting, making effective conversation
Unit -II
Presentation Skills - Difference between speech and presentation, handling of presentation
audience questions, holding meetings, group discussion and interviews; structuring a
presentation, delivering the presentation; situational presentation
Unit -III
Behavioral Skills - Positive altitude, self-management, problem solving skills, time management
skills, anger management, coping skills, assertiveness team building skills
Unit -IV
Business Etiquette - Business dress and grooming, office courtesies, etiquette for special
occasions, meeting etiquette, dining etiquette
Suggested Readings:
1. Kaul, Asha, The Effective Presentation, Response Books, New Delhi
2. Fox, She, Business Etiquette for Dummies, Wiley Publishing inc.
3. Chaney, Lillian and Janette Martin, The Essential Guide to Business Etiquette, Praeger,
London
4. Sanghi, Seema, Towards Personal Excellence, Response Books, New Delhi
5. Sherfield, Robert M, R J Montgomery and Patricia G Moody, Developing Soft Skills, Pearson
Education, New Delhi
6. Chancy, Lillian and Janelte Martin, The Essential Guide to Business Etiquette, Praeger,
Londonson
Edueation, New Delhi
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