CURRICULUM AND SYLLABUS - Hindustan Univ

1

DEPARTMENT OF AUTOMOBILE ENGINEERING

CURRICULUM AND SYLLABUS

B.Sc Automobile Maintenance

(Applicable for Students admitted from Academic Year 2020-2021)


SCHOOL OF MECHANICAL SCIENCES

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HINDUSTAN INSTITUTE OF TECHNOLOGY & SCIENCE

Motto, Vision, Mission and Value Statement

Motto

To Make Every Man a Success and No Man a Failure.

Vision

To be an International Institute of Excellence, providing a conducive environment for education

with a strong emphasis on innovation, quality, research and strategic partnership blended with

values and commitment to society.

Mission

To create an ecosystem for learning and world class research.

To nurture a sense of creativity and innovation.

To instill highest ethical standards and values with a sense of professionalism.

To take up activities for the development of Society.

To develop national and international collaboration and strategic partnership with

industry and institutes of excellence.

To enable graduates to become future leaders and innovators.

Value Statement

Integrity, Innovation, Internationalization


VISION

To enable the graduates to be successful in their career as an Automobile Engineer.

MISSION

M1: To inculcate knowledge in Automobile Engineering

M2: To impart skills and training on the advancements in Automobile

Engineering such as Automotive Electronics, Autonomous Vehicles, etc.

M3: To instill the highest ethical standards to be a Professional Automobile

Engineer for social development.

3

Curriculum structure

B. Sc. AUTOMOBILE MAINTENANCE

SEMESTER - I

SL.

NO

COURSE

CATEGORY

COURSE

CODE NAME OF THE COURSE L T P C S TCH

1 HS

TLA2101

HLA2101

FLA2101

FLA2106

Tamil Or Hindi Or French Or German

3 0 0 3 0 3

2 HS ELA2101 English 3 0 0 3 0 3

3 BS MAA2101 Basics of Mathematics 3 1 0 4 1 4

4 PC AMB2101 Introduction to Automobiles 3 0 0 3 1 3

5 PC AMB2102 Power of Mobility 3 0 0 3 1 3

6 PC AMB2103 Drive Trains 3 0 0 3 1 3

PRACTICAL

7 PC AMB2131 Engine Systems Laboratory 0 0 2 2 0 2

8 PC AMB2132 Chassis Systems Laboratory 0 0 2 2 0 2

Total 18 1 4 23 4 23

SEMESTER - II

SL.

NO

COURSE

CATEGORY

COURSE


1 PC AMB2116 Process for Automobile Reconditioning 3 0 0 3 1 3

2 PC AMB2117 Application of Hydrocarbons in

Automotive Engines 3 0 0 3

1 3

3 PC AMB2118 Engine Overhauling and Maintenance 3 0 0 3 1 3

4 PC AMB2119 Modelling of Automobile Components 3 0 0 3 1 3

5 HS AMB2120 Environmental Science 3 0 0 3 1 3

PRACTICAL

4

6 PC

AMB2141 Hydrocarbon Characterization

Laboratory 0 0 2 2

0 2

7 PC AMB2142 Automobile Reconditioning Lab 0 0 2 2 0 2

Total 15 0 4 19 5 19

SEMESTER - III

SL.

NO

COURSE

CATEGORY

COURSE


1 PC AMB2201 Automotive Electrical Technology 3 0 0 3 1 3

2 PC AMB2202 Passenger Comfort Techniques 3 0 0 3 1 3

3 PC AMB2203 Automotive Materials 3 0 0 3 1 3

4 PC AMB2204 Emission, Norms and Measurements 3 0 0 3 1 3

PRACTICAL

5 PC AMB2231 Automotive Electrical Lab 0 0 2 2 0 2

6 PC AMB2232 Employability skills Lab 0 0 2 2 0 2

Total 12 0 4 16 4 16

SEMESTER - IV

SL.

NO

COURSE

CATEGORY

COURSE


1 PC AMB2216 Autotronics 3 0 0 3 1 3

2 PC AMB2217 Hybrid and Electric Vehicles 3 0 0 3 1 3

3 PC AMB2218 Modern Garage Equipment 3 0 0 3 1 3

4 PC AMB2219 Integral Vehicle Safety 3 0 0 3 1 3

5 PC AMB2220 Aesthetics and Ergonomics of Vehicle 3 0 0 3 1 3

PRACTICAL

6 PC AMB2241 Vehicle Diagnostics Lab-I 0 0 2 2 0 2

7 PC AMB2242 Vehicle Safety Analysis Lab 0 0 2 2 0 2

Total 15 0 4 19 5 19

5

SEMESTER - V

SL.

NO

COURSE

CATEGORY

COURSE


1 PC AMB2301 Vehicle Dynamics 3 1 0 4 1 4

2 MC AMB2302 Maintenance Planning and Cost

Estimation 3 0 0 3

1 3

3 PC AMB2303 OBD 3 1 0 4 1 4

4 PC Elective-I 3 0 0 3 0 3

PRACTICAL

5 PC AMB2331 Vehicle Diagnostics Lab-II 0 0 2 2 0 2

6 PC AMB2332 Vehicle Dynamics Lab 0 0 2 2 0 2

7 PC AMB2333 Internship 0 0 0 1 0 0

Total 12 2 4 19 3 18

SEMESTER - VI

SL.

NO

COURSE

CATEGORY

COURSE


1 PC AMB2316 Body Repair and Maintenance 3 0 0 3 1 3

2 MC AMB2317 Garage Organization and Transport

Management 3 0 0 3 1 3

3 PC Elective-II 3 0 0 3 0 3

4 PC Elective-III 3 0 0 3 0 3

PRACTICAL

5 PC AMB2341 Project 0 0 12 6 0 6

Total 12 0 12 18 2 18

Total Credits: 114

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LIST OF DEPARTMENTAL ELECTIVES WITH GROUPING - SEMESTER WISE

SEM COURSE

CATEGORY

COURSE


5 DE AMC2351 Electronic Engine Management Systems 3 0 0 3 0 3

5 DE AMC2352 Automotive NVH 3 0 0 3 0 3

5 DE AMC2353 Fuel Cells and Modern Storage Devices 3 0 0 3 0 3

5 DE AMC2354 After Treatment Techniques 3 0 0 3 0 3

6 DE AMC2361 Off-road Vehicles 3 0 0 3 0 3

6 DE AMC2362 Fluid Power Systems 3 0 0 3 0 3

6 DE AMC2363 Basics of Motorsports 3 0 0 3 0 3

6 DE AMC2364 Autonomous Mobility 3 0 0 3 0 3

6 DE AMC2365 Entrepreneurship Development 3 0 0 3 0 3

6 DE AMC2366 Total Quality Management 3 0 0 3 0 3

6 DE AMC2367 Business Ethics 3 0 0 3 0 3

6 DE AMC2368 Supply Chain and Logistics Management 3 0 0 3 0 3

Credit Split Up

Sl.No Description No. of Subjects & Credits

Total no of Credits

1 Core Theory Course 17 x 3

2x4 51 8

2 Basic Science Course 1x4 4

3 Elective Theory Course 3 x3 9

4 Management Theory Course 2 x3 6

5 Ability Enhancement Theory Course 3 x 3 9

6 Core Laboratory Course 9 x 2 18

7 Ability Enhancement Lab Course 1 x 2 2

8 Internship 1 x 1 1

9 Project Work 1 x 6 6

Total Credits 114

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SYLLABUS FOR B.SC AUTOMOBILE MAINTENANCE

SEMESTER-I

COURSE TITLE TAMIL CREDITS 3

COURSE CODE TLA2101 COURSE CATEGORY HS L-T-P-S 3-0-0-0

CIA 50% ESE 50%

CO COURSE OUTCOMES

1. செய்யுள்

2. இலக்கணம் – இலக்கணக்குறிப்புமட்டும்

3. சமொழித்திறன்

4. பொடந்தழுவியஇலக்கியவரலொறு

5. சபொதுக்கட்டுரர

MODULE – 1: செய்யுள் (6)

நல்லததொர்வரீை, தமிழ்வளர்ச்ெி, ஆறுதன்வரலொறுகூறுதல் , ெிற்பி

முள்முள்முள், அப்துல்ரகுமொன், குருடர்களின்யொரை

MODULE – 2: தமிழ் இலக்கிய வரலாறு (6)

ெிறுகரதகள் ததொற்றமும் வளர்ச்ெியும், புதுக்கவிரதகள் ததொற்றமும் வளர்ச்ெியும்,

நொடக இலக்கியத்தின் ததொற்றமும் வளர்ச்ெியும்

MODULE – 3: இலக்கணம் (6)

செய்யுள்பகுதியில் அரமந்துள்ள இலக்கணக்குறிப்பு, இடஞ்சுட்டி சபொருள் விளக்கம்

தருதல்

MODULE – 4: வாய்சமாழி இலக்கியம் (6)

தொலொட்டு , கொதல் , ஒப்பொரி

MODULE – 5: சமாழிப்பயுற்ெி (6)

சபொருந்தியசெொல்தருதல் ,மரபுத்சதொடர்கள், கரலச்செொற்கள்.

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COURSE TITLE HINDI CREDITS 3

COURSE CODE HLA2101 COURSE CATEGORY HS L-T-P-S 3-0-0-0

CIA 50% ESE 50%

CO COURSE OUTCOMES

1. Understand about poetry and its sophistication

2. Understand about the Hindi literature

MODULE 1: OLD POETRY (12)

1. Kabir ( Dohe only)

2. Surdas (First 5 Pad only)

3. Tulasidas (KevatPrasang only)

4. Raheem (First 12 Dohe only)

5. Tirukkural (First 12 Kural only)

MODULE 2: HISTORY OF HINDI LITERATURE (12)

1. KaalVibhajan

2. VeergathaKaalAthavaAadiKaal – Pramukh

3. KaviaurRachanayen, - RaasokiPramanikatha

4. BhakthiKaal – PramukhKaviaurRachanayen-

5. NirgunaursagunBhakthiSahithyakiViseshatayen

6. ReethiKaal – PramukhKavi – aurRachanayen –

7. ReethiKaalkiViseshatayen

TEXT BOOKS

1 PRESCRIBED TEXT BOOK : POETRY SELECTION (2007), University Pub-lications,University of

Madras

REFERENCE BOOKS

1 Hindi SahithyakaVivechanatmakItihas - By Raj Nath Sharma, VinodPustak-Mandir, Agra

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2 Hindi SahithyaYugaurPravrithiya - Dr. Shiva Kumar Varma, Ashok Prakashan, NayiSarak, New

Delhi

COURSE TITLE FRENCH CREDITS 3

COURSE CODE FLA2101 COURSE CATEGORY HS L-T-P-S 3-0-0-0

CIA 50% ESE 50%

CO COURSE OUTCOMES

1 Understanding the basic skills in written and spoken French.

To encourage students oral and written mastery of the language

2 Applying the concepts for oral and written mastery of the language

MODULE 1: (6)

1.1. Se presenter a des publics different et saluer

1.2. Salueretprendre conge

1.3. La presentation, s ‘appeler et etre et pronomssujets, C’ est / ilest / elle est.

1.4. Articles definis /indefinis, Voici / voila/ilya

1.5. Des cartesd’identite.

1.6. Presenter quelqu’un

1.7. Parler de soi

1.8. Les nationalites, les verbs er(commencer, habiter…)

1.9. Les chiffres 1 a 50

1.10. Des vedettesetleurs nationalities

1.11. Epreuves

MODULE2: (6)

2.1 Exprimerses gouts, ses preferences.

2.2 La negation, les articles definis.

2.3 Les moiset les jours / le calendrier.

2.4 Les verbs er (suite).

2.5 L’interrogation avec intonation

2.6 decrireun lieu, les noms des differentessalles…

2.7 Les adjectives qualificatifsmon, ma, mes et notre, nos

2.8 Epreuves

MODULE3: (6)

3.1 Donner des directions / localizer un lieu / trouver un lieu

3.2 Les verbs alleretmettre.

3.3 L’articlecontracteet les prepositions de lieu (en, a, au…)

3.4 L’ imperatif

3.5 Les mots de caracterisation d’un lieu et les lieuxurbains

3.6 Les transports

3.7 Discuteretacheter des produits, Ca fait…et les expressionsDe quantite, les fruits, les legumes, les

produitsalimentairesLes produitspropres aux pays different.

3.8 La negation et le COD

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3.9 Le conditionnel (je voudrais) et les verbesIrreguliers :pouvoir, vouloir, prendre.

3.9.1 Epreuves

MODULE 4: (6)

4.1 fixer unrendez-vous avec le medecin

4.2 L’heure

4.3 Les nombres de 51 a 100

4.4 Les verbessortiretpartir

4.5 L’interrogation avec est-ceque

4.6 Les parties du corps, avoir + les expressions et les Maladies communes

4.7 Les adjectifspossessifs – notre/nos, votre/vos, sa/ses/son,

4.8 Le COI

4.9 L’entrainement DELF

4.9.1 Epreuves

TEXT BOOKS

1 Krishnan, C &Alber Adeline, Le Tramway Volant-I, Saraswathi House Pvt Ltd, India 2011

REFERENCE BOOKS

1 CAPELLE Guy; MENAND, Robert Taxi-1, Hachette, Paris,2008

2 MERIEUX, Regine; LOISEAU, Yves, Connexions-1,Didier,Paris,2004

3 MIQUEL, Claire, Vite et Bien-1, CLE International, Paris, 2009

4 POISSON QUINTON, Sylvie, SIREJOLS, Evelyne, Amical-1, CLE International, Pairs, 20011

COURSE TITLE GERMAN CREDITS 3

COURSE CODE FLA2106 COURSE CATEGORY HS L-T-P-S 3-0-0-0

CIA 50% ESE 50%

CO COURSE OUTCOMES

1 Language and Culture

2 Basic Grammar

3 Reading Skills

4 Listening Skills

5 Writing and speaking skills

MODULE 1- LANGUAGE AND CULTURE (6)

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GREETINGS – SELF INTRODUCTION – NUMBERS AND ALPHABETS – NAMES OF COUNTRIES AND

CONTINENTS

MODULE 2- BASIC GRAMMAR (6)

DEFINITE AND INDEFINITE ARTICLES – SIMPLE VERBS AND CONJUGATION – PRONOUNS – POSSESSIVE

PRONOUN – W QUESTIONS

MODULE 3 - READING SKILLS (6)

READING SIMPLE PASSAGES – CONTEXT BASED LEARNING – PROFESSIONS – LANGUAGE AND

COUNTRY – FREETIME ACTIVITIES – DAILY ROUTINE

MODULE 4 - LISTENING SKILLS (6)

COMPREHENDING REAL TIME SITUATION BASED DIALOGUES – TRAVEL ANNOUNCEMENTS –

SUPERMARKET – PLANS FOR VACATIONS – DIALOGUES AT WORK.

MODULE 5 - WRITING AND SPEAKING SKILLS (6)

INTRODUCING SELF – DESCRIBING DAILY ROUTINE – AT THE CAFÉ, RESTAURANT – ORDERING FOOD –

WEATHER AND CLOTHING – FAMILY.

TEXT BOOKS

1 NETZWERK A1 DEUTSCH ALS FREMDSPRACHE BY STEPHANIE DENGLER (2012)

2 STUDIO D A1 DEUTSCH ALS FREMDSPRACHE BY HERMANN FUNK (2011)

REFERENCE BOOKS

1 PASSWORD DEUTSCH 1 BY ULRIKE ALBRECHT

COURSE TITLE ENGLISH CREDITS 3

COURSE CODE ELA2101 COURSE CATEGORY HS L-T-P-S 3-0-0-0

CIA 50% ESE 50%

CO COURSE OUTCOMES

1. Demonstrate an understanding of importance of listening Skills and understanding

the nuances to develop listing skills.

2. Demonstrating speaking skills and ways to improve.

3 Understanding and appreciating poetry

4. Enabling to draft mail and emails.

5. Eliciting and imparting the knowledge of English using comprehension skills

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MODULE – 1: LISTENING SKILL (6)

Listening & Note taking-- Pre-reading & While-reading activities --Reading comprehension--Functional

grammar--Enriching word power- Extensive reading--Functional writing--Reading for pleasure--

Making formal speech--Academic writing--Speech practice--Pronunciation practice—Interpretation—

Acronyms--Grammatical accuracy--Poetry appreciation – Telling humorous anecdotes (real and

imaginary) and jokes. Self-evaluation through Self-test.

MODULE – 2: READING COMPREHENSION (6)

Listening & Note taking-- Critical thinking--Reading comprehension Reference skills-- Critical reading—

Interpretation--Poetry appreciation—Project--Soft skills---Enriching word power Pronunciation

practice--Academic writing -- Extensive reading Reading & Note making-- Functional grammar --

Proverb expansion Self test –Developing conversational skills by telling jokes.

MODULE– 3: POETRY APPRECIATION (6)

Listening and Note taking -- Critical thinking -- Reading and Note making-- Reference skills --

Functional grammar -- Reading for pleasure -- Poetry appreciation – Developing public speaking skills

by telling humorous anecdotes and jokes about oneself and others.

MODULE – 4: WRITING SKILL (6)

Speech practice -- Reading and Note making -- Critical thinking Summarizing -- Poetry appreciation --

Group, pair & individual work Extended writing -- Enriching word power -- E mail writing Reference

skills -- Pronunciation practice—Developing creative writing skills through writing jokes about

classmates, friends etc.

MODULE – 5: COMPREHENSION SKILLS (6)

Silent reading and testing comprehension skills—Reading aloud and accuracy in pronunciation—

Making short speeches before small groups to check fluency—Writing small pieces of discourse meant

for day to day communication—Writing short academic pieces for exam purposes—Doing self-check

grammar tests to improve grammatical accuracy.

TEXT BOOKS

1 Functioning in English Book I & II by Dr. P. Bhaskaran, Emerald Publishers, 2018

E BOOKS

1 https://thinkedc.com/wp-content/uploads/2016/10/Effective-Listening-Skills-eBook.pdf

COURSE TITLE BASICS OF MATHEMATICS CREDITS 4

COURSE CODE MAA2101 COURSE CATEGORY BS L-T-P-S 3-1-0-0

CIA 50% ESE 50%

CO COURSE OUTCOMES

13

1. Able to understand the concept of matrices

2. Able to understand the features of Differential Calculus

3. Able to understand the Integral Calculus

4. Able to demonstrate the concept of Permutation and Combination

5. Able to understand basic knowledge on Probability

MODULE 1: MATRICES (9)

Definition of a Matrix and Types – determinants – Adjoint of a square matrix – Inverse of a Matrix –

Rank of a Matrix – solution by Cramer’s rule.

MODULE 2: DIFFERENTIAL CALCULUS (9)

Methods of differentiation of functions – Product and Quotient rules – Inverse trigonometric

functions – Maxima and minima of functions for single variable.

MODULE 3: INTEGRAL CALCULUS (9)

Integration – Methods of integration – Substitution method - Integration by parts – Integration using

partial fraction - Bernoulli’s formula.

MODULE 4: PERMUTATION AND COMBINATION (9)

Permutation and Combination, Binominal Theorem, Exponential and Logarithmic Series

MODULE 5: PROBABILITY (9)

Basics of probability – Axioms of probability – Addition theorem on probability – Multiplication

theorem on probability.

TEXT BOOKS

1. Business Mathematics – P.R.Vittal

2. Business Mathematics – D.C. Sancheti and V.K. Kapoor

REFERENCE BOOKS

1. Business Mathematics – B.M. Agarwal

2. Business Mathematics – R.S. Soni

E BOOKS

1. http://www.dphu.org/uploads/attachements/books/books_5117_0.pdf

2. http://www.cognella.com/pdf/Step-by-Step-Business-Math-and-Statistics_sneak_preview.pdf

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COURSE TITLE INTRODUCTION TO AUTOMOBILES CREDITS 3

COURSE CODE AMB2101 COURSE CATEGORY PC L-T-P-S 3-0-0-1

CIA 50% ESE 50%

CO COURSE OUTCOMES

1 Acquire the knowledge of different types of vehicles and engines.

2 Attain the concept of automotive transmission system.

3 Gain the knowledge of automotive electrical system.

4 Obtain the knowledge in construction of vehicle body.

5 Develop the knowledge on two wheelers and three wheelers.

MODULE 1- Introduction to Vehicle Structure and Engine (9)

Types of Automobiles-Vehicle Construction-Chassis Frame and Body. Engine-Components-systems-

Functions.

MODULE 2 – Introduction to Automotive transmission (9)

Clutch-components-function-types; Gear box-components- function-types, gears and gear trains.

MODULE 3- Introduction to Automotive Electrical system (9)

Battery- starting system-charging system- lighting system and accessories.

MODULE 4 -Introduction to Vehicle Body (9)

Car body-Bus Body-Commercial vehicle body details-Aerodynamic study.

MODULE 5 – Introduction to Two and three wheelers (9)

Two wheelers- construction-components; Three-wheelers-construction-components

TEXT BOOKS

1 Kirpal singh, Automobile Engineering, Volume I and II, standard publishers’ distributors, 2014

2 Rajput, A text book of Automobile Engineering, Firewall media, 2010

15

REFERENCE BOOKS

1 K.K.Ramalingam - "Automobile Engineering" - Scitech Publication, Chennai - 2010

2 James E Duffy, Modern Automotive Technology, 2010

COURSE TITLE POWER OF MOBILITY CREDITS 3

Course Code AMB2102 Course Category PS L-T-P-S 3-0-0-1

CIA 50 % ESE 50 %

CO COURSE OUTCOME

1 Acquire basic knowledge of automotive engines constructions and working principles

2 Attain knowledge on air and fuel intake systems

3 Obtain knowledge on combustion process in automotive engines.

4 Acquire knowledge on cooling and lubrication system in automotive engines

5 Gain knowledge on engine testing procedures

MODULE 1 – INTRODUCTION TO IC ENGINES (9)

Evolution of Engines – Basic Terminology and Concepts of IC Engines – Classification – Working of Two

Stroke and Four Stroke Engine – Construction and Operation of Petrol and Diesel Engines – Otto Cycle

– Diesel Cycle – Engine Power – Efficiency.

MODULE 2 – AIR AND FUEL INTAKE SYSTEM (9)

Air intake systems – Function – Components – Carburetor – Requirements – Types; Ignition system – Magneto Coil and Battery Coil Ignition System – spark plug- MPFI, GDI; Fuel Injection System – Types of Nozzle - Electronic Fuel Injection – CRDI.

MODULE 3 – COMBUSTION CONCEPTS (9)

Principle of Combustion – Combustion in SI engine – Stages of Combustion -Abnormal combustion–Stages of Combustion in diesel engine. Knocking Combustion in CI Engines– Controlling Knocking.

MODULE 4 – COOLING AND LUBRICATION SYSTEMS (9)

Cooling System – Types – Properties of Coolant; Lubrication System - types – Properties of Lubricants.

MODULE 5 – ENGINE TESTING (9)

Automotive and Stationary Engine Testing Standards – Variable Load Test - Dynamometers – Types –Performance, Emission and Combustion Characteristics.

TEXT BOOKS

1.Ganesan.V., Internal Combustion Engines, Tata McGraw Hill Publishing Co., 2017

2.Ramalingam K.K, Internal Combustion Engines, SciTech Publication, Third Edition, 2018.

3.Mathur and Sharma. Internal Combustion Engines, Dhanpat Rai and Sons Publications, 2014 REFERENCE BOOKS

1. Heldt.P.M. High Speed Combustion Engines, Oxford IBH Publishing Co., Calcutta, 2011.

88

2. Maleev, V.M., Diesel Engine Operation and Maintenance, McGraw Hill, 2010.

COURSE TITLE DRIVE TRAINS CREDITS 3


CIA 50% ESE 50%

CO COURSE OUTCOMES

1 Acquire the knowledge of different types of chassis.

2 Attain the concept of various front axles and steering systems

3 Gain the knowledge of various Drive line systems

4 Obtain the knowledge in Suspension system

5 Develop the knowledge of Braking systems

MODULE 1- Chassis, clutch and gear box (9)

Types of chassis layout, types of chassis frames, constructional details, materials.; Clutch, types; Gear

box, types.

MODULE 2 - Drive line and rear axle (9)

Propeller shaft, types of joints; final drive, differential; rear axles- types; rear axle housing.

MODULE 3- Front axle and steering system (9)

Front axle and stub axles, Steering system- types of steering gear boxes, front wheel geometry- true

rolling motion of wheels - Ackermann steering system; power steering -types.

MODULE 4 - Suspension system, wheels and Tyres (9)

Suspension system, leaf spring, coil spring and torsion bar springs, independent suspension systems,

shock absorbers; w heels and tyres -types.

MODULE 5 - Brake system (9)

Brakes, drum brakes, disc brakes, parking brake, hydraulic Brake system, air brake system, antilock brake

system.

TEXT BOOKS

1 Kirpal singh, Automobile Engineering, Volume I, standard publishers’ distributors, 2014

2 Rajput, A text book of Automobile Engineering, Firewall media, 2010

REFERENCE BOOKS

1 K.K.Ramalingam - "Automobile Engineering" - Scitech Publication, Chennai - 2010

2 James E Duffy, Modern Automotive Technology, 2010

COURSE TITLE ENGINE SYSTEMS LABORATORY CREDITS 2

Course Code AMB2131 Course Category

PC L-T-P-S 0-0-2-0

CIA 80 % ESE 20 %

CO COURSE OUTCOME

1 Able to dismantle, study and reassemble the engine components and its sub systems.

2 Able to understand the working principle of various systems of an engine.

3 Able to analyse the engine testing procedures and performance characteristics.

LIST OF EXPERIMENTS

1. Study of engine components.

2. Dismantling, study and assembling of Carburetor.

3. Dismantling, study and assembling of 4 cylinder petrol engine

4. Dismantling, study and assembling of 4 cylinder diesel engine

5. Study of Ignition System.

6. Study of Mechanical Fuel Injection System

7. Study of Common Rail Direct Injection System.

8. Study of Cooling and Lubrication System.

9. Port Timing Diagram and Valve Timing Diagram

10. Performance Test on IC Engine

COURSE TITLE CHASSIS SYSTEMS LABORATORY CREDITS 2


CIA 80% ESE 20%

CO COURSE OUTCOMES

1 The students should be able to dismantle, study and reassemble the Chassis components and

its sub systems.

2 The students should be expertise in conducting the various performance tests in two and

three-wheeler systems.

LIST OF EXPERIMENTS

1. Study and measurement of the chassis frames: Heavy duty vehicle & Light duty vehicle

2. Dismantle, study and assembling of various clutches.

3. Dismantle, study and assembling of various gear boxes and transfer case.

4. Dismantle, study and assembling of various joints and propeller shafts.

5. Dismantle, study and assembling of Front Axle, Rear Axle and Differential

6. Dismantle, study and assembling of various Steering systems.

7. Dismantle, study and assembling of various Braking systems – including ABS

8. Dismantle, study and assembling of dependent and independent suspension systems

9. Road performance test of a two-wheeler using chassis dynamometer.

SEMESTER-II

COURSE TITLE PROCESS FOR AUTOMOBILE RECONDITIONING CREDITS 3


CIA 50% ESE 50%

CO COURSE OUTCOMES

1 Able to perform various metal joining process

2 Able to perform deformation process

3 Able to perform various machining operation

4 Able to produce smooth metal surfaces using surface and cylindrical grinding machines

5 Able to perform Automobile reconditioning process

MODULE 1- METAL JOINING PROCESSES (9)

Gas welding, Flame characteristics, Filler and Flux materials; Arc welding, Electrodes, Types of Arc welding; Resistance welding; special welding processes -Plasma arc welding, Electron beam welding, welding Robots; Brazing and soldering. MODULE 2- METAL FORMING PROCESSES (9)

Hot and cold working processes – forging, rolling, drawing and extrusion. Sheet metal working -

blanking, piercing, punching, trimming, bending.

MODULE 3 - MACHINING PROCESSES (9)

Centre Lathe- constructional features- operations on a lathe – taper turning methods, thread cutting

methods; Drilling – types- construction; boring machines– types- construction; Introduction to CNC

Machines.

MODULE 4 – MILLING AND METAL FINISHING PROCESSES (9)

Milling – types- construction, milling operations; Grinding – types- grinding processes. Precise Finishing

Processes: Lapping, honing.

MODULE 5 - RECONDITIONING PROCESSES (9)

Special machine tools for reconditioning- Cylinder reboring, Valve grinding, crank shaft machining; brake

drum machining.

TEXT BOOKS

1 Hajra Choudhary S.K., "Elements of Manufacturing Technology", Vol. I & Vol. II, 11th edition,

Media Publishers, Mumbai, 2011.

2 Dr.Kirpal singh, Automobile Engineering, Volume-II, Standard Publishers and distributers, 2012

REFERENCE BOOKS

1 Jain K.C. Agarwal, L.N. "Metal Cutting Science and Production Technology", 1st edition, Khanna

Publishers, 2010.

2 Chapman W.A.J., "Workshop Technology", Vol. II, Arnold Publishers.

COURSE TITLE APPLICATION OF HYDROCARBONS IN AUTOMOTIVE ENGINES CREDITS 3


CIA 50% ESE 50%

CO COURSE OUTCOMES

1 Acquire knowledge on manufacture of fuels and lubricants

2 Familiarize on fuels for SI Engines

3 Familiarize on fuels for CI Engines

4 Obtain the knowledge on theory of combustion

5 Develop the knowledge on testing of fuels and lubricants.

MODULE 1- MANUFACTURE OF FUELS AND LUBRICANTS (9)

Petroleum refining process, classification of petroleum fuels. Chemical structure- hydrocarbons-

Manufacture of lubricating oils, SAE standards and specification.

MODULE 2- FUELS FOR SI ENGINES (9)

Types of fuels, liquid and gaseous fuels, heating value of fuels, chemical structure of hydrocarbon fuel

for SI Engines, desirable characteristics of SI Engine fuels- octane rating.

MODULE 3 - FUELS FOR CI ENGINES (9)

CI engine fuels, cetane rating, alternate fuels for CI Engines, biofuels – alcohols, edible and non-edible

biofuels.

MODULE 4 – THEORY OF LUBRICATION (9)

Friction- types of lubricants- functions. Classification of lubricating oils, properties of lubricating oils.

Grease classification, properties.

MODULE 5 – TESTING OF FUELS AND LUBRICANTS (9)

ASTM standards; Testing of Viscosity, density, flash and fire point, cloud point, pour point, calorific

value, octane number, cetane number; Fuel additives.

TEXT BOOKS

1 Internal Combustion Engineering by Ganesan V. Tata McGraw -Hill Publishing Co. New Delhi.

2 A course in Internal combustion engines, Mathur and sharma, Dhanpatrai publications.

REFERENCE BOOKS

1 Fuels – Solids. Liquids, Gaseous by Brame.J.S.S. and King.I .G.

2 Fuels and Fuel Technology by Francis, W, Vol. I & II

3 Lubrication. Raymond G. Gunther, Chipton Book Co.

COURSE TITLE ENGINE OVERHAULING AND MAINTENANCE CREDITS 3


CIA 50% ESE 50%

CO COURSE OUTCOMES

1 Able to familiarise on engine dismantling

2 Able to do reconditioning of engine parts

3 Able to perform engine assembling

4 Able to do engine periodical maintenance

5 Able to perform engine breakdown maintenance

MODULE 1- ENGINE DISMANTLING (9)

Dismantling of Engine components, cleaning of engine components, visual inspection,

measurement of dimensions and finding deviations, wear analysis.

MODULE 2- RECONDITIONING OF ENGINE COMPONENTS (9)

Reconditioning of Cylinder block, cylinder bore, piston, connecting rod, crank shaft, camshaft, valves,

inlet and exhaust manifolds, Fuel injection pumps, fuel injectors, water pump, radiator, oil pump, oil

sump, fuel tank, silencer.

MODULE 3 - ENGINE ASSEMBLING (9)

Assembling of engine components, cylinder head bolts tightening procedure, valve timing setting,

fan belt assembly, belt tensioner, tappet clearance setting, spark timing setting, distributor setting,

Calibration of fuel injection pump, fuel injector setting, bleeding of fuel system.

MODULE 4 - ENGINE PERIODICAL MAINTENANCE (9)

Scheduled maintenance of various systems; Checking Engine oil level, gearbox oil level, coolant

level; Changing Engine oil and engine oil filter; Cleaning or changing fuel filter; Checking the

condition of engine oil, coolant, checking the belt tension, spark plug cleaning and testing; checking

the condition of battery and battery terminals; air filter cleaning; Study of Maruti Dzire engine

maintenance.

MODULE 5 - ENGINE BRAKEDOWN MAINTENANCE (9)

Radiator maintenance, coolant pump maintenance, Thermostat cleaning, Fuel pump overhauling,

Lubrication oil pump servicing, valve grinding, valve lapping, valve clearance setting. Silencer service,

Engine blowby and engine service. Study of Ashok Leyland Passenger bus engine maintenance.

TEXT BOOKS

1 Kirpal Singh - “Automobile Engineering, Vol.2 "- Standard Publishers Distributors, New Delhi –

2013.

2 William.H.Crouse, Automotive Mechanics, McGraw Hill Publishers.

REFERENCE BOOKS

1 James D Halderman - Advanced Engine Performance Diagnosis – PHI.

2 Service Manuals from Different Vehicle Manufacturers.

COURSE TITLE MODELLING OF AUTOMOBILE COMPONENTS CREDITS 3


CIA 50% ESE 50%

CO COURSE OUTCOMES

1 Practice on drafting and computer aided drafting.

2 Familiarize on orthographic and isometric projections.

3 Develop the knowledge on drawing of 2D Automotive components

4 Develop the knowledge on drawing of 3D Automotive components

5 Acquire Knowledge in assembling the Automotive Components

MODULE 1: BASICS OF MODELLING (9)

Importance of graphics - BIS conventions and specifications - drawing sheet sizes - Lettering –

Dimensioning - Scales. Drafting methods - introduction to Computer Aided Drafting – Computer

Hardware – Workstation – Printer and Plotter – Introduction to software for Computer Aided Design

and Drafting – Exposure to Solid Modelling software – Geometrical Construction-Coordinate

Systems/Basic Entities – 3D printer.

Software: Autocad

MODULE 2: ORTHOGRAPHIC AND ISOMETRIC PROJECTIONS (9)

General principles of presentation of technical drawings as per BIS - Introduction to Orthographic

projections - Naming views as per BIS - First angle projection method. Conversion to orthographic

views from given pictorial views of objects, including dimensioning – Drafting of Orthographic views

from Pictorial views. Principles of isometric projection and solid modelling.

MODULE 3: TWO DIMENSIONAL DRAWING OF AUTOMOTIVE COMPONENTS (9)

Drawing of Piston, Piston-pin, Piston rings, Connecting Rod, Crankshaft, Flywheel, Inlet and Exhaust

Valves, propeller shaft, differential.

Software: Autocad

MODULE 4: THREE DIMENSIONAL DRAWING OF AUTOMOTIVE COMPONENTS (9)

Modelling of Piston, Piston-pin, Piston rings, Connecting Rod, Crankshaft, Cylinder Block, Shafts,

Flywheel, Inlet and Exhaust Valves, propeller shaft, differential.

Software: Solidworks

MODULE 5: ASSEMBLY DRAWING (9)

3D Assembly of Piston, Piston-pin, Piston rings, 3D Assembly of Connecting Rod, 3D Assembly of

Crankshaft and its bearings.

Software: Solidworks /Autocad

TEXT BOOKS

1 Jeyapoovan T, Engineering Drawing and Graphics Using AutoCAD, 7th Edition, Vikas Publishing

House Pvt Ltd., New Delhi, 2016

2 Introduction to AutoCAD – 2D and 3D Design, A.Yarmwood, Newnes Elsevier, 2011

3 R.K. Jain, "Machine Design", Khanna Publishers, New Delhi, 2012.

REFERENCE BOOKS

1 Engineering Drawing and Graphic Technology-International Edition, Thomas E. French, Charles J. Vierck, Robert J. Foster, McGraw-Hill, 2014

2 Engineering Drawing and Design, Sixth Edition, C. Jensen, J.D. Helsel, D.R. Short, McGraw-Hill, 2012

COURSE TITLE ENVIRONMENTAL SCIENCE CREDITS 3

COURSE CODE AMB2120 COURSE CATEGORY HS L-T-P-S 3-0-0-1

CIA 50% ESE 50%

CO COURSE OUTCOMES

1 Understand the fundamentals of environmental sciences

2 Gain knowledge on the environmental pollution

3 Understand the importance of value education

4 Know about the recent trends and troubleshooting of possible solutions

5 Familiarize on various types of energy sources etc.

MODULE 1- Introduction to Fundamentals of Environmental Sciences (9)

Vehicle population assessment in International, National and Metropolitan cities and contribution

to pollution, effects on human health and environment, global warming, types of emission,

transient operational effects on pollution. Emission Norms and Regularity Body – Challenges.

MODULE 2- ENVIRONMENTAL POLLUTION (9)

Definition – Causes, effects and control measures of: (a) Air pollution (b) Water pollution (c) Soil

pollution (d) Marine pollution (e) Noise pollution (f) Thermal pollution (g) Nuclear hazards – Soil waste

Management: Causes, effects and control measures of urban and industrial wastes – Role of an

individual in prevention of pollution – Pollution case studies

MODULE 3 - VALUE EDUCATION (9)

Population growth, variation among nations – Population explosion – Family Welfare Programme –

Environment and human health – Human Rights – Value Education – HIV / AIDS – Women and Child

Welfare – Role of Information Technology in Environment and human health – Case studies

MODULE 4 - ENVIRONMENTAL ETHICS (9)

Environmental ethics: Issues and possible solutions – Climate change, global warming, acid rain,

ozone layer depletion, nuclear accidents and holocaust

MODULE 5- ENERGY AND ENVIRONMENT (9)

Sun as source of energy; solar radiation and its spectral characteristics; Fossil fuels–classification, composition,

physio-chemical characteristics and energy content of coal, petroleum and natural gas. Principles of generation of

hydroelectric power, tidal, Ocean Thermal Energy Conversion, wind, geothermal energy; solar collectors,

photovoltaics, solar ponds

TEXT BOOKS

1 A text book of “Environmental Studies for Undergraduate Courses” by UGC and Bharati vidyapeeth

institute of Environmental Education and Research, Pune

2 Gilbert M.Masters , Introduction to Environmental Engineering and Science, Pearson Education Pvt., Ltd.,

Second Edition, ISBN 81-297-0277-0, 2004

REFERENCE BOOKS

1 BharuchaErach, The Biodiversity of India, Mapin Publishing Pvt. Ltd., Ahmedabad India, 2004

2 Trivedi R.K., Handbook of Environmental Laws, Rules, Guidelines, Compliances and Standards, Vol. I and II,

Enviro Media

COURSE TITLE HYDROCARBON CHARACTERIZATION LABORATORY CREDITS 2


CIA 80% ESE 20%

CO COURSE OUTCOMES

1 Understand the fundamentals of testing of fuels and lubricants.

2 Gain knowledge on property testing of fuels and lubricants.

LIST OF EXPERIMENTS

1. ASTM distillation test of liquid fuels

2. Aniline Point test of diesel

3. Reid vapour pressure test.

4. Flash and Fire points of petrol and diesel.

5. Temperature dependence of viscosity of lubricants by Redwood Viscometer.

6. Temperature dependence of viscosity of lubricants by Saybolt Viscometer

7. Drop point of grease and mechanical penetration in grease.

COURSE TITLE AUTOMOBILE RECONDITIONING LAB CREDITS 2


CIA 80% ESE 20%

CO COURSE OUTCOMES

1 Able to perform cylinder reboring, valve refacing operations.

2 Able to calibrate the Fuel Injection pump.

3 Able to do play adjustment in clutch, brake; brake bleeding and brake adjustment.

4 Able to do tube and tyre removal.

5 Able to perform wheel alignment and wheel balancing.

LIST OF EXPERIMENTS

1. Cylinder reboring.

2. Valve grinding and valve lapping.

3. Calibration of fuel injection pump.

4. Adjustment of pedal play in clutch, brake and hand brake.

5. Brake bleeding and brake shoe adjustment

6. Wheel balancing

7. wheel alignment

SEMESTER-III

COURSE TITLE AUTOMOTIVE ELECTRICAL TECHNOLOGY CREDITS 3


CIA 50% ESE 50%

CO COURSE OUTCOMES

1 Familiarize with lead acid battery and accessories.

2 Acquire the knowledge of starting system.

3 Develop the knowledge on charging system.

4 Gain knowledge on automotive electronics.

5 Gain the information about sensors and activators.

MODULE 1 - BATTERIES AND ACCESSORIES (9)

Principle and construction of lead acid battery, characteristics of battery, rating capacity and efficiency

of batteries, various tests on batteries, maintenance and charging. Lighting system: insulated and earth

return system, details of head light and side light, LED lighting system, headlight dazzling and preventive

methods - Horn, wiper system and trafficator.

MODULE 2 - STARTING SYSTEM (9)

Condition at starting, behaviour of starter during starting, series motor and its characteristics, principle

and construction of starter motor, working of different starter drive units, care and maintenances of

starter motor, starter switches.

MODULE 3 - CHARGING SYSTEM (9)

Generation of direct current, shunt generator characteristics, armature reaction, third brush regulation,

cut out, Voltage and current regulators, compensated voltage regulator, alternators principle and

constructional aspects and bridge rectifiers, new developments.

MODULE 4 - FUNDAMENTALS OF AUTOMOTIVE ELECTRONICS (9)

Current trends in automotive electronic system, electromagnetic interference suppression,

electromagnetic compatibility, electronic dashboard instruments, onboard diagnostic system,

security and warning system.

MODULE 5 - SENSORS AND ACTUATORS (9)

Types of sensors: sensor for speed, throttle position, exhaust oxygen level, manifold pressure,

crankshaft position, coolant temperature, exhaust temperature, air mass flow for engine application.

Solenoids, stepper motors, relay.

TEXT BOOKS

1 Young A.P. & Griffiths. L. "Automotive Electrical Equipment", ELBS & New Press- reprint 2010.

2 Crouse, W.H "Automobile Electrical Equipment", McGraw-Hill Book Co., Inc., New York, 3rd

edition, reprint 2010.

REFERENCE BOOKS

1 Kholi.P.L "Automotive Electrical Equipment", Tata McGraw-Hill Co., Ltd., New Delhi,

reprint 2011

2 Robert Bosch "Automotive Hand Book", SAE (5th Edition), 2010.

COURSE TITLE PASSENGER COMFORT TECHNIQUES CREDITS 3


CIA 50% ESE 50%

CO COURSE OUTCOMES

1 Understand the concepts and components of automotive cooling and heating systems

2 Understand the safety concepts in relation to the vehicle body

3 Understand the safety systems available for passenger

4 To know about the Collison avoiding systems

5 Understand the Comfort conditions for a vehicle driver

MODULE 1- Air Conditioning (9)

Vehicle Refrigeration System and related problems- Fixed thermostatic and Orifice tube system-

Variable displacement thermostatic and Orifice tube system- Vehicle air conditioning operation

Types of compressor- Compressor Clutches- Compressor Clutch electrical circuit- Compressor

lubrication- Condensers- Evaporators- Expansion devices- Evaporator temperature and pressure

controls- receiver-drier- Accumulators- refrigerant hoses, Connections and other assemblies-

Heating system

MODULE 2- Safety Concepts (9)

Active safety: driving safety, conditional safety, perceptibility safety, operating safety- passive safety:

exterior safety, interior safety, deformation behavior of vehicle body, speed and acceleration

characteristics of passenger compartment on impact

MODULE 3 - Passenger Safety (9)

Seat belt, regulations, automatic seat belt tightener system, collapsible steering column, tilt able

steering wheel, air bags, electronic system for activating air bags, bumper design for safety.

MODULE 4 - Collision (9)

Collision warning system, causes of rear end collision, frontal object detection, rear vehicle object

detection system, object detection system with braking system interactions

MODULE 5 - Driver Comfort and Convenience System (9)

Steering and mirror adjustment, central locking system, Garage door opening system, tyre pressure

control system, rain sensor system, environment information system.

TEXT BOOKS

1 Steven Daly- “Automotive Air –Conditioning Climate Control Systems” - Butterworth –

Heinemann – Elsevier Publications -2011.

2 Bosch - “Automotive Handbook” - 5th edition - SAE publication.

REFERENCE BOOKS

1 J.Powloski - “Vehicle Body Engineering” - Business books limited, London.

2 William H. Crouse and Donald I. Anglin - “Automotive Air conditioning” - McGraw Hill Inc.

COURSE TITLE AUTOMOTIVE MATERIALS CREDITS 3


CIA 50% ESE 50%

CO COURSE OUTCOMES

1 The students should be able to Familiarize on the constitutions of alloys and their phase

diagrams

2 The students should be able to understand the various heat treatment process

3 The students should be able to Gain knowledge on the selection criteria of materials

4 The students should be able to Attain knowledge about the non-metallic materials

5 The students should be able to Develop knowledge on the mechanical properties and testing of

materials

MODULE 1- CONSTITUTION OF ALLOYS AND PHASE DIAGRAMS (9)

Constitution of alloys - Solid solutions, substitutional and interstitial - phase diagrams, Isomorphous,

eutectic, peritectic, eutectoid and peritectoid reactions, Iron carbide equilibrium diagram. Classification

of steel and cast Iron, properties and application.

MODULE 2 - HEAT TREATMENT (9)

Full annealing, stress relief, recrystallisation and spheroidizing - Normalising, hardening and Tempering

of steel. Hardenability, Jominy end quench test - Austempering, martempering - Case hardening,

carburising, nitriding, cyaniding, carbonitriding - Flame and Induction hardening.

MODULE 3 - SELECTION OF MATERIALS (9)

Criteria of selecting materials for automotive components viz cylinder block, Cylinder head, piston,

piston ring, Gudgeon pin, connecting rod, crank shaft, crank case, cam shaft, engine valves, clutch plate,

bearings, chassis, body panel and brake lining.

MODULE 4 - NON-METALLIC MATERIALS (9)

Polymers - types of polymer, commodity and engineering polymers - Properties and applications of PE,

PP, PS, PVC, PMMA, PET, PC, PA, ABS, PI, PAI, PPO, PPS, PEEK, PTFE Polymers - Urea and Phenol

formaldehydes - Engineering Ceramics - Properties and applications of Al2O3, SiC, Si3N4 , PSZ and Sialon

- Fiber and particulate reinforced composites.

MODULE 5 - MECHANICAL PROPERTIES AND TESTING (9)

Mechanical properties- Mechanism of plastic deformation, slip and twinning - Types of fracture -

Testing of materials under tension, compression - Hardness tests (Brinell, Vickers and Rockwell) -Impact

test -Izod and charpy.

TEXT BOOKS

1 Raghavan.V.Materials Science and Engineering, Prentice Hall of India Pvt. Ltd., 2010

REFERENCE BOOKS

1 William D Callister "Material Science and Engineering", John Wiley and Sons 2012

2 Kenneth G.Budinski and Michael K.Budinski "Engineering Materials" Prentice-Hall of India Private

Limited, 4th Indian Reprint 2012.

3 Sydney H.Avner "Introduction to Physical Metallurgy" McGraw-Hill Book Company 2012

COURSE TITLE EMISSION, NORMS AND MEASUREMENTS CREDITS 3

Course Code AMB2204 Course Category PC L-T-P-S 3-0-0-1

CIA 50 % ESE 50 %

CO COURSE OUTCOME

1 Familiarize about the effect of various automotive emissions.

2 Gain knowledge about the formation of various types of pollutants from SI Engine

3 Gain knowledge about the formation of various types of pollutants from CI Engine

4 Acquire knowledge about the significance of emission control techniques.

5 Gain information on various emission measurement technique, standards and test procedures.

MODULE 1 – INTRODUCTION (9)

Emissions – Types – Vehicle Population Assessment in International, National and Metropolitan Cities and

Contribution to Air Pollution – Effects on Human Health and Environment – Global Warming – Transient

Operational Effects on Pollution. Emission Norms – Regularity Body – Challenges.

MODULE 2 – FORMATION OF POLLUTANTS IN SI ENGINES (9)

Pollutants Formations – Mechanism of HC and CO Formation in SI engines. NOx Formation in SI Engines. Effects of Design and Operating Variables on Emission Formation – Flame Quenching – Source and Control of Evaporative Emission – Two Stroke Engines Pollutants Formation.

MODULE 3- FORMATION OF POLLUTANTS IN CI ENGINES (9)

Pollutants Formation in CI engines – Smoke and Particulate Formation in CI engines – Formation of NOx in CI engines – Formation of HC in CI engines – Effect of Design Variables and Operating Variables on CI Engine Emissions.

MODULE 4- CONTROL OF SI AND CI ENGINES EMISSIONS (9)

COURSE TITLE AUTOMOTIVE ELECTRICAL LABORATORY CREDITS 2


CIA 80% ESE 20%

CO COURSE OUTCOMES

1 Familiarize with various testing procedures of Battery, Alternator and Starter motor.

2 Acquire the Diagnosis of ignition system and automotive electrical wiring.

3 Develop the Skills on Off Board Diagnostics Systems (OBDS) procedure.

4 Gain the knowledge about the Multimeter, Oscilloscope.

5 Acquire the skill on Diagnostics Program.

LIST OF EXPERIMENTS

Electrical

1. Battery testing

2. Alternator testing.

3. Starter motor testing.

4. Diagnosis of ignition system.

5. Diagnosis of automotive electrical wiring.

6. Fault finding of relay & fuses in car using Off Board Diagnostics Systems (OBDS).

7. Relay & fuse Fault diagnostic of a car using OBDS

Engine Design – Selection of Operating Variables – Crankcase and Evaporative Emission Control – Thermal and Catalytic Reactors. EGR – Water Injection – NOx Traps – SCR. Diesel Particulate Filters – Types – Secondary Air Injection. Fuel Modifications Techniques. Two Stroke Engine Pollution Control.

MODULE 5– EMISSION STANDARDS AND MEASUREMENT TECHNIQUES (9)

Measurement of Emissions – CO – HC – NOx – PM. Construction and Working Principle of NDIR – FID – Chemiluminescent Analyzers – Gas Chromatograph and Smoke Meters. Emission Standards, Test Procedures – SHED Test – Dilution Tunnels – BS VI Norms.

TEXT BOOKS

1. Ganesan, V- "Internal Combustion Engines"- Tata McGraw-Hill Co.- 2013.

2. Paul Degobert - Automobiles and Pollution - SAE International ISBN-1-56091-563-3, 2015

REFERENCE BOOKS

1. SAE Transactions- "Vehicle Emission"- 2012 (3 volumes).

2. Obert.E.F.- "Internal Combustion Engines”

3. Marco Nute- " Emissions from two stroke engines, SAE Publication.

Electronics

1. Study of Digital voltmeter

2. Study of Oscilloscope

3. Dvom Diagnotics

4. Oscilloscope Diagnostics

5. Fault finding location of sensor in car using OBDS

COURSE TITLE EMPLOYABILITY SKILLS LABORATORY CREDITS 2


CIA 80% ESE 20%

CO COURSE OUTCOMES

1. Demonstrate the importance of Computer software and hardware

2.

Demonstrate the ability to Creating documents in Microsoft Word,

3.

Demonstrate the ability to Managing Windows Explorer, Creating, moving, renaming and deleting folders and files,

4.

Understanding spreadsheet functionality, Creating spreadsheets in Microsoft Excel, typing text numbers and dates into a worksheet, Easy formulas, Easy formatting, Charting the data, Making and saving changes to the workbook

5.

Ability to visit a specific website and bookmarking, Demystifying the Cloud, Computer security best practices

MODULE – 1: INTRODUCTION TO COMPUTERS (6)

Introduction to Computers – Classification of Computers; Role of Computers in society; Inside the Computers – Hardware (processing, memory, i/o, storage), Software (systems, application), CPU, OS, (DOS, Windows, Unix, Linux), Storage Devices; Programming – Overview, need for languages, skills; Networking Basics; Virus; Hacking.

MODULE – 2: WORD PROCESSING (6)

Word Processing – Open, Save and close word document; Editing text – tools, formatting, bullets; Spell Checker; Navigating in word – keyword, Mouse; document formatting – paragraph alignment, indentation, headers and footers, numbering; printing – preview, options MODULE – 3: FILE MANAGEMENT (6)

File Management – Understanding the importance of file management; backing of files, navigating thru My Computer and Windows Explorer; Files and Folders – editing, retrieving, deleting, renaming, subfolders – manipulate windows – maximize, minimize; Power point basics – terminology, templates, viewing

MODULE – 4: SPREAD SHEETS (6)

Spreadsheets – MS Excel – opening, entering text and data, formatting, navigating; Formulas – entering, handling and copying; Charts – creating, formatting and printing, header and footer, centering data, printing

MODULE – 5: INTERNET (6)

Networks – Internet Explorer – components; www – working, browsing, searching, saving – Bookmark – favorite, create, delete – Printing a web page; email – creating, receiving, reading and sending messages

TEXT BOOKS

1. Introduction to Computers – Peter Norton, Tata McGraw-Hill.

REFERENCE BOOKS

1. Microsoft 2003 – Jennifer Ackerman Kettel, Guy Hat-Davis, Curt Simmons, Tata McGraw-Hill.

3 https://en.wikiversity.org/wiki/Introduction_to_Computers

SEMESTER-IV

COURSE TITLE AUTOTRONICS CREDITS 3


CIA 50 % ESE 50 %

CO COURSE OUTCOMES

1 Familiarize on driver information system

2 Familiarize on telematics.

3 Acquire the knowledge on infotronics

4 Familiarize on comfort system

5 Familiarize on Security system

UNIT I - INTRODUCTION (9)

Driver information, driver perception, driver convenience, driver monitoring, general vehicle control,

longitudinal and lateral control, collision avoidance and vehicle monitoring.

UNIT II - TELEMATICS (9)

Global positioning system, geographical information systems, navigation system, architecture,

automotive vision system and road recognition.

UNIT III - INFOTRONICS (9)

Vehicle communication networks-Gateway Communication-Powertrain Communication network –

Multimedia communication network- Body vehicle Network- CAN(Control Area Network)-LIN(Local

Interconnect Network)-MOST(Media Oriented Signal Transmission)-FLEXRAY.

UNIT IV - COMFORT SYSTEMS (9)

Adaptive cruise control system, active suspension system, power steering, collapsible and tiltable

steering column and power windows, Adaptive lighting system.

UNIT V - SECURITY SYSTEMS (9)

Anti-theft technologies – mechanical, electromechanical and electronic immobilizers, alarm system,

stolen vehicle tracking system, remote keyless entry, smart card system and number plate coding.

TEXT BOOKS

1. Ljubo Vlacic, Michel Parent and Fumio Harashima, “Intelligent Vehicle Technologies”,

Butterworth-Heinemann publications, Oxford.

2. Robert Bosch, “Automotive Hand Book”, SAE.

3. Ronald K Jurgen, “Navigation and Intelligent Transportation Systems – Progress in Technology”,

Automotive Electronics Series, SAE, USA.

REFERENCE BOOKS

1. William B R, “Understanding Automotive Electronics”, Butter worth Heinemann Woburn.

2. Bechhold, “Understanding Automotive Electronics”, SAE.

3. Allan W M B, “Automotive Computer Controlled Systems”, Elsevier Butterworth-Heinemann,

2011.

COURSE TITLE HYBRID AND ELECTRIC VEHICLES CREDITS 3


CIA 50% ESE 50%

CO COURSE OUTCOMES

1 Acquire the knowledge on hybrid electric drive train systems.

2 Familiarize on concepts of electric vehicle & performance of electric vehicles.

3 Gain knowledge on Electric Propulsion Systems & Generators.

4 Attain knowledge on Energy Storages and control systems.

5 Acquire knowledge on Fuel Cells & Solar Cars and Control Systems.

MODULE 1- HYBRID VEHICLES (9)

Concepts of hybrid electric drive train, types, architecture of series and parallel hybrid electric drive

train, merits and demerits, design of series and parallel hybrid electric drive train.

MODULE 2- ELECTRIC VEHICLES (9)

Layout of an electric vehicle, performance of electric vehicles – traction motor characteristics, tractive

effort, transmission requirements, vehicle performance, energy consumption, advantage and

limitations, specifications, system components, electronic control system.

MODULE 3- ELECTRIC PROPULSION SYSTEMS AND GENERATORS (9)

DC motors, AC motors, permanent magnet motors, brushless DC and reluctance motors,

characteristics, regenerative braking. DC generators, AC generators, voltage and frequency regulations

MODULE 4- CONTROL SYSTEMS AND ENERGY STORAGES (9)

Control system principles, speed and torque control. Electromechanical batteries- types of batteries –

lead acid batteries, nickel-based batteries, lithium-based batteries, electrochemical reactions,

thermodynamic voltage, specific energy, specific power, energy efficiency, ultra-capacitors.

MODULE 5- FUEL CELLS & SOLAR CARS (9)

Fuel cell, construction, working, equations, possible fuel sources, fuel reformer, design. Solar cars-

photovoltaic cells, tracking, efficiency and cost comparison.

TEXT BOOKS

1. Mehrdad Ehsani, Yimin Gao, sebastien E. Gay and Ali Emadi, “Modern Electric, Hybrid Electric

and Fuel Cell Vehicles: Fundamentals, Theory and Design”, CRS Press, 2014.

2. James Larminie and John Loury, “Electric Vehicle Technology-Explained”, John Wiley & Sons Ltd.,

2013.

REFERENCE BOOKS

1. Sandeep Dhameja, “Electric Vehicle Battery Systems”, Butterworth –Heinemann, 2012.

2 Donwhite Consultant Incorporate – Handbook of EMI / EMC – Vol I – 2015

3 Ronald K Jurgen, “Electric and Hybrid – Electric Vehicles”, SAE, 2012

4 Ron Hodkinson and John Fenton, “Light Weight Electric/Hybrid Vehicle Design”, Butterworth-

Heinemann, 2011.

COURSE TITLE MODERN GARAGE EQUIPMENT CREDITS 3


CIA 50% ESE 50%

CO COURSE OUTCOMES

1 The students should be able to Familiarize on Service Station Equipment & Tune up Equipment

2 The students should be able to Gain knowledge on Sensor Fusion Systems

3 The students should be able to Acquire the knowledge on Path Planning and terrain management

systems

4 The students should be able to Attain the knowledge on Connected And Control Systems Cars

MODULE 1- Service Station and Tune up Equipment (9)

Construction- function - Air Compressor - Hydraulic Hoist - Car washer - Oil sprayers - Grease dispensers - manual

and bucket type - Tyre inflation Gauge - Tyre and tube remover - Leaf Spring rechambering machine - Use of

vacuum pressure Gauge - Compression Gauge - Distribution Tester- cam(dwell) angle tester(r.p.m.) - Battery

Tester -Spark plug cleaner and tester -Ignition timing light -Fuel injector tester -Fuel consumption tester.

MODULE 2- Engine Repair Tools, Measuring and Tester (9)

Specification and use of -Torque wrench, pneumatic wrench -Piston ring compressor and expander -Valve lifter

and valve spring tester -Piston ring groove cleaner - Scrappers - Inside micrometer - Outside micrometer -

Special micrometer for cylinder bore and crank pin measurement -Cylinder bore Dial gauge -Wheel aligning

instruments, cylinder leakage tester, exhaust gas analyser, smoke meter.

MODULE 3- Electrical Repair Equipment (9)

Specifications and use of - Electrical Test Bench - Battery Charger - Head Lights Beam Aligner – Growler,

soldering iron, digital multimeter.

MODULE 4- Chassis and Body Reconditioning Equipment (9)

Brake Efficiency Tester - Clutch Fixture and Brake Line Rivetters - Crane and Chain Pulley Block - Jacks - Surface

Protection Methods - Paint Spray Gun - Paint Drying Equipment - Wheel Balancer- Static and Dynamic.

MODULE 5- Instrumentation and Testing Equipment (9)

Specification and use of - Bench Grinder - Cylinder Boring Machine and Honing Machine - Crankshaft Grinding

Machine and Camshaft Grinding Machine - Connecting Rod Aligner - Line Boring Machine and Arbor Press - valve

Grinding and Lapping Machine - Fuel Injection Pump Calibration Machine, Valve Seat Cutter and Grinder -

Radiator Tester - Shaping Machine; OBD, diagnostic tools.

TEXT BOOKS

1. Garage equipment by R.K.Chauhan, Ishan Publications, 2013

2. Engineering metrology and measurements by R.K.Rajput, SK Kataria and sons publications.

REFERENCE BOOKS

1. Tune up testing and performance, Ken layne, Prentice Hall publications, 2014.

COURSE TITLE INTEGRAL VEHICLE SAFETY CREDITS 3


CIA 50% ESE 50%

CO COURSE OUTCOMES

1 To realise the need and necessity of the Automotive Safety Systems & Principles

2 To design the safety system with self-computing electronic devices

3 To acquire the knowledge on various safety systems & devices implemented in Automobiles

4 To understand the concepts of bio mechanics and its relevance to the automobiles

5 To learn the concepts of crash mechanics, crash modelling and simulation tests for automotive

collision

MODULE 1- Introduction to Automotive Safety Systems (9)

Evolution of automotive safety, Active safety: driving safety, conditional safety, perceptibility

safety, operating safety, passive safety: exterior safety, interior safety, concept of crumble zone,

safety sandwich construction

MODULE 2- Intelligent Safety Systems (9)

Lane departure warning system - Parking aid with Ultrasonic Sensors - power windows- Autonomous

Vehicle System- Fisheye Camera, Multi-camera System, Calibration, Mapping, Localization, Obstacle

Detection.

Module 3 - Safety Systems & Equipment (9)

Design of Air Bags - Electronic Systems for activating Air Bags -- EBD (Electronic Brake force

distribution) -ESP or ESC (Electronic Stability Program or Electronic Stability Control)-seat belt

tightening system, child lock, anti-lock braking systems, Adaptive headlight system.

MODULE 4 - Automotive Biomechanics (9)

Basics of Bio-mechanics- Relevance in automotive industries- Dummies and mathematical model

development- impact rating and criterion- basic of head injuries and criterion- restraint design- vehicle

body design and optimization- Skull protection- multiple injury mitigation – Human and ATD Response

to High-Speed Vertical Loading- neck injury bio-mechanics.

MODULE 5 - Crash Mechanics & Crash Test Modelling (9)

Crashworthiness, Crash design techniques for front structures, Lumped Mass Spring (LMS) models,

Analytical design tools, Collapse modes- Vehicle simulation tests – frontal, lateral, rear end collisions and

roll over.

TEXT BOOKS

1 Bosch, “Automotive Handbook”, 8th Edition, SAE publication, 2011.

2 Prasad, Priya and Belwafa Jamel, "Vehicles Crashworthiness and Occupant Protection”, American

Iron and Steel Institute, USA.

REFERENCE BOOKS

1 George A. Peters & Barabara J. Peters – “Automotive Vehicle Safety”, 2002, Taylor & Francis,

London.

2 Mathew Huang – “Crash Mechanics”, CRC Press LLC, New York.

COURSE TITLE AESTHETICS AND ERGONOMICS OF VEHICLE CREDITS 3


CIA 50% ESE 50%

CO COURSE OUTCOMES

1 Acquire knowledge on basics of vehicle aerodynamics

2 Attain the concept of various car bodies

3 Gain the knowledge on bus bodies

4 Obtain the knowledge on commercial vehicle bodies

5 Develop the knowledge on vehicle body testing.

MODULE 1- Basics of Vehicle Aerodynamics (9)

Vehicle drag – types of forces and moments and its effects- body optimization techniques and

Aerodynamic Aids – study of wind tunnels.

MODULE 2- Car Body (9)

Types, Regulations, Drivers seat design & dimensions, drivers’ visibility, methods for improving visibility

and space in cars, car body construction- design for safety.

MODULE 3 - Bus Body (9)

Types: Mini bus, single decker, double decker, two level, split level and articulated bus, bus body layout,

floor height, engine location, entrance and exit locations, passenger seating dimensions, constructional

details and types, types of metal sections, conventional and integral coach type construction

MODULE 4 - Commercial Vehicle body (9)

Types of body, flat platform, drop side, fixed side, tipper body, tanker body, light commercial vehicle

body types. Dimensions of driver’s seat in relation to controls, drivers cab design. Tipper body designs,

volume/weight considerations, pay load and related regulations.

MODULE 5 - Vehicle Body Testing (9)

symmetric and asymmetric vertical loads in a car, longitudinal load, different loading situations, chassis

frame design. Construction of Doors, door apertures, windows. Spare wheel carrier construction. Sources

of body noises testing and methods of elimination. Water leakage test.

TEXT BOOKS

1 James E Duffy, Body repair technology for four wheelers, Cengage learning.

2 Powloski.J, Vehicle body Engineering, Business book Ltd.

REFERENCE BOOKS

1 P.L.Kohli, “Automotive Chassis & Body”, Papyrus Publishing House, New Delhi.

COURSE TITLE VEHICLE DIAGNOSTICS LABORATORY - I CREDITS 2


CIA 80% ESE 20%

CO COURSE OUTCOMES

1 Familiarize on workshop layout, vehicle maintenance procedures and fault-finding

techniques.

2 Acquire knowledge on maintenance and reconditioning procedure for automotive engines,

chassis and auxiliary systems

LIST OF EXPERIMENTS

1. Fault diagnosis of ignition system.

2. Fault diagnosis of starting system

3. Fault diagnosis of charging system

4. Fault diagnosis of petrol fuel system and filters & air cleaners.

5. Fault diagnosis of diesel fuel system and filters & air cleaners

6. Fault diagnosis of cooling system.

7. Fault diagnosis of lubrication system

8. Fault diagnosis of steering system

9. Fault diagnosis of brake system

COURSE TITLE VEHICLE SAFETY ANALYSIS LAB CREDITS 2


CIA 80% ESE 20%

CO COURSE OUTCOMES

1 To understand the precautions details concerning the vehicle safety in anticipated

environment

2 To develop the skills for designing the safety systems based on bio mechanics theory.

3 To improve the knowledge on light & sound signalling applications in vehicle’s safety.

4 To practice the ABS simulation module in the software environment

5 To understand the uses of crash dummies and the crash simulation techniques

LIST OF EXPERIMENTS

1. An introduction to safety regulations and norms as issued from time to time by Government of

India as per AIS 037 (Automotive Indian Standard)

2. An introduction to Bio-Mechanics

3. Visual inspection of vehicle safety systems: safety belts- Head restraints, Air bags, Bumpers, energy

absorbing systems - Impact protection from steering controls

4. Study of Crash Dummies

5. Visual inspection of Light signalling devices such as stop lamp, rear position lamp, direction

indicator, reverse lamp, reflex reflector, position lamp, number plate lamp, Gas Discharge lamp,

LED, Adoptive Front Lighting System (AFLS), Daylight Running Lamps (DRL), and horn systems

6. Simulation of ABS using MATLAB/Simulink

7. Crash simulation software tools –introduction

SEMESTER- V

COURSE TITLE VEHICLE DYNAMICS CREDITS 4


CIA 50% ESE 50%

CO COURSE OUTCOMES

1 To impart the design and basic functions of a good suspension system

2 To describe the forces acting between the tire and the road during the operation of the vehicle.

3 To familiarize with the handling characteristics of the Vehicle.

4 To know the ride characteristics of the Vehicle.

5 To learn the stability and control factors of the Vehicle.

MODULE 1- Suspension System (12)

Suspension- types- Solid Axles, Independent Suspensions, Roll Centre, Active, Semi-Active, passive

suspension systems- suspension spring rate- Vehicle suspension in fore and aft directions. Introduction to MR and ER fluids.

MODULE 2- Tire Mechanics (12)

Tire Construction, Size and Load Rating, Terminology and Axis System, Tractive Properties, Cornering

Properties, Camber Thrust, Aligning Moment, Combined Braking and Cornering, Conicity and Ply Steer,

Slip, Skid, Rolling Resistance, Wheel wobbling and shimmy.

MODULE 3 - Handling Characteristics (12)

Steady state Handling; Neutral steer; Under steer and over steer; Steady state response; Yaw velocity;

Lateral Acceleration; Curvature response & directional stability; loading of automobile chassis due to

road irregularities;

MODULE 4 - Ride Characteristics (12)

Human response to vibrations; Single degree & Two-degree freedom; Free & Forced vibrations; Vehicle

Ride Model; Quarter car suspension model; Half car suspension model; Full car suspension model; Two

degree freedom model for sprung & unsprang mass; pitch & bounce.

MODULE 5 - Stability and Control of Vehicles (12)

stability of a vehicle on a slope, on a curve and a banked road. Roll centre and roll axis; anti-roll bar. ABS,

TRC and ESP systems. Active differentials and suspensions. Driver and road models.

TEXT BOOKS

1 Giri N.K – Automotive Mechanics, Khanna Publishers, 2012.

2 Ellis.J.R., Vehicle Dynamics, Business Books Ltd., London, 2011.

REFERENCE BOOKS

1 Gillespie. T.D., Fundamentals of vehicle dynamics, Society of Automotive Engineers, USA 2012.

2 Giles. J.G. Steering, Suspension and Tires, IIifee Books Ltd, London, 2014.

COURSE TITLE MAINTENANCE PLANNING AND COST ESTIMATION CREDITS 3

COURSE CODE AMB2302 COURSE CATEGORY MC L-T-P-S 3-0-0-1

CIA 50% ESE 50%

CO COURSE OUTCOMES

1 Ability to understand Organization and structure of maintenance system

2 Ability to apply the knowledge of maintenance planning activities

3 Ability to analyse the importance of Objective of cost estimation

4 Demonstrate the importance of methods of estimates – data requirements and sources

5 Understanding the importance of Estimation of material cost and labour cost

MODULE – 1: PRINCIPLES AND PRACTICES OF MAINTENANCE PLANNING 9L

Basic Principles of maintenance planning in Automobiles– Objectives and principles of planned

maintenance activity – Importance and benefits of sound Maintenance systems – Reliability and

machine availability – MTBF (Mean Time Between Failure), MTTR(Mean Time To Repair) and

MWT(Maintain Wakefulness Test).

MODULE – 2: MAINTENANCE POLICIES – PREVENTIVE MAINTENANCE 9L

Maintenance categories – Comparative merits of each category – Preventive maintenance, maintenance

schedules, repair cycle - Principles and methods of lubrication – TPM

MODULE – 3: INTRODUCTION TO COST ESTIMATION: 9L

Objective of cost estimation - classification of cost- Material cost – Determination of material cost,

Labour cost - Determination of labour cost, Expenses Analysis of overhead expenses – Factory expenses,

Administrative expenses – Selling and Distributing expenses – Allocation of overhead expenses. Cost of

product – Illustrative examples Depreciation: Depreciation – Causes of Depreciation – Methods of

Depreciation.

MODULE – 4: COST ESTIMATION AND ACCOUNTING 9L

Types of estimates – methods of estimates – data requirements and sources- collection of cost-

allowances in estimation- Maintenance manpower planning, spare parts management, Maintenance

downtime analysis, Computerized maintenance system.

MODULE – 5: MAINTANANCE COST ESTIMATION 9L

Estimation of material cost, labour cost and over heads, allocation of overheads –Estimation for

different types of jobs. Case study of job works- major and minor repairs

TEXT BOOKS

1 Sinha.B.P., "Mechanical Estimating and Costing", Tata McGraw-Hill, Publishing Co.

2 Maintenance Engineering and Management by Mishra, R.C. and Pathak, K., PHI.

REFERENCE BOOKS

1 Phillip.F Ostwalal and Jairo Munez, "Manufacturing Processes and systems", John Wiley.

2 Russell.R.S and Tailor, B.W, "Operations Management", PHI.

3 Chitale.A.V. and Gupta.R.C. "Product Design and Manufacturing", PHI.

COURSE TITLE OFF BOARD DIAGNOSIS SYSTEM (OBD) CREDITS 4


CIA 50 % ESE 50 %

CO COURSE OUTCOMES

1 Familiarize on OBD software & Procedure

2 Familiarize on malfunction indicator lamp system

3 Familiarize on Diagnosis test code

4 Familiarize on read memory value

5 Familiarize on Guided fault function

UNIT I - INTRODUCTION (12)

Introduction to OBD Testing Methodology and validation process – OBD standards – DLC connector –

Pin diagram & connector - functional test procedure- OBD software platform.

UNIT II - MIL & DTC (12)

Introduction to MIL & DTC – MIL symbols - DTC process – DTC symbol and representation - test

case - – fault identification processes

UNIT III - GUIDED FAULT FUNCTION (12)

ECU identification - Read measured Value – Guided fault function – Current flow diagram – identifying

components signal

UNIT IV - ADAPTATION (12)

ECU identification – port number identification – basic value – adaptation – read measured values -

demonstration

UNIT V - REMAPPING & TUNING (12)

Demonstration basic setting & adaptation

REFERENCE

1. Elsa Pro web portal

2. ESI tronics portal

COURSE TITLE VEHICLE DIAGNOSTICS LABORATORY - II CREDITS 2


CIA 80% ESE 20%

CO COURSE OUTCOMES

1 Familiarize on workshop layout, vehicle maintenance procedures and fault-finding

techniques.

2 Acquire the knowledge on maintenance and reconditioning procedure for automotive

engines, chassis and auxiliary systems

LIST OF EXPERIMENTS

1. Study of OBD tools & Software

2. Establishing connection between OBD software with testing vehicle

3. Read the vehicle health report and note down the fault

4. Identify number of ECU & its product information

5. Read fault memory & Erase fault memory

6. Perform actuation test

7. Perform read measured value form ECUs

8. Analysis the read measured value for faulty ECU 9. Perform Guided Function and identify the fault 10. Diagnosis the faulty components

11. Diagnosis sensor & actuator fault 12. Perform fault rectification function 13. Perform adaptation and analysis the perform of diagnosed components

COURSE TITLE VEHICLE DYNAMICS LABORATORY CREDITS 2


CIA 80% ESE 20%

CO COURSE OUTCOMES

1 To attain the knowledge on vibration, and analysis of Automotive components.

2 To practice the modal analysis with the vehicle frames.

3 To simulate the damper characteristics of the Spring using the Quarter Car Model.

4 To study the vehicle dynamic characteristics of Linkages using software like Matlab-Simulink,

MSE-Adams.

LIST OF EXPERIMENTS

1. Testing of Natural frequency of cantilever beam.

2. Determination of critical speed of shafts

3. Modal analysis of Automotive components

4. Introduction to MATLAB-Simulink and solving MCK problems

5. Suspension analysis using Quarter Car Model

6. Study of kinematic linkages using MSC-Adams.

COURSE TITLE INTERNSHIP CREDIT 1


CIA -- ESE 100%

DESCRIPTION

Students should undergo industrial training in reputed industries for a period of 2 weeks (minimum)

during the vacation period at the end of 4th semester. Assessment will be conducted along with the

5th semester as a practical subject. Students should prepare a report and seminar presentation for

the final exam.

Review / Exam Weightage

Final Viva- Voce 50%

Report 50%

Total 100%

SEMESTER-VI

COURSE TITLE BODY REPAIR AND MAINTENANCE CREDITS 3


CIA 50% ESE 50%

CO COURSE OUTCOMES

1 Able to handle tools and equipment for vehicle body repair

2 Able to use proper materials for body repairs and spray painting

3 Able to perform minor and major body repair

4 Able to do body painting

5 Able to do body maintenance

MODULE 1- Tools and equipment for Vehicle Body repair (9)

Basic Hand Tools- Types of hand tools (hammers, dollies, spanners, files, ratchets, body spoons); Power

tools – drilling machine, body jack, air compressor, shaping machine, cutting machine; Spray painting

tools – Scrapers, brushes, funnels, paint pots, spray gun, spray body filters, oven, spray boot.

MODULE 2- Materials for body repairs and spray painting (9)

Body repair materials; types of body filler- plastic filler, fiber glass filler; types of body abrasives- sand

papers, sanding disc; types of sealers- rubber sealers, seam sealers, under coating; Rivet pins – pop and

solid rivets. Spray painting materials – types of paints – enamel paints and lacquers – undercoats –

surface primer, putty/ body filler, sealers; top coats – lacquers and enamel paints.

MODULE 3 - Body repair works (9)

Basic methods of straightening auto body: aligning the metal with power jack, pulling mechanism. Heat-

shrinking the metal to bring the metal back to its original shape. Major body repair- Metal panel repairs,

plastic repairs.

MODULE 4 – Body painting works (9)

Surface preparation; types of paints – cellulose synthetic paint, enamel paint, acrylic, metallic paints;

spray gun and accessories- pressure feed gun, siphon and gravity gun- air cap, fluid needle, air valve,

trigger gun.

MODULE 5 – Body maintenance (9)

Periodical cleaning of vehicle body, washing, waxing; Interior body cleaning by vacuum cleaning;

Cleaning carpet, dashboard, seats; Body coatings.

TEXT BOOKS

1 A complete guide to auto body repair, Motor books workshop, second edition, Dennis W.Parks

2 Auto paint from preparation to final coat, Motor books workshop series, Joann Bortles

REFERENCE BOOKS

1 Automotive rust repair and maintenance, Motor books workshop series, Dennis W.Parks

2 Automotive body repair and painting manual, Haynes tech book.

COURSE TITLE GARAGE ORGANIZATION AND TRANSPORT MANAGEMENT CREDITS 3

COURSE CODE AMB2317 COURSE CATEGORY MC L-T-P-S 3-0-0-1

CIA 50% ESE 50%

CO COURSE OUTCOMES

1 Describe the modes of transport and forms of ownership

2 Illustrate Structure of passenger transport organization

3 Plan the passenger transport operations.

4 Organise the goods transport operations.

5 Identify advanced techniques in traffic management.

MODULE – 1: GARAGE LAYOUT 9L

Introduction to Automotive service business, Layout of workshop, Vehicle Reception, Maintenance facilities,

Inventory and Stock room facilities, Inspection facilities, accident repairs cum painting facilities, Accessories,

Customer lounge.

MODULE – 2: GARAGE MANAGEMENT 9L

Organizational structure, duties and responsibilities of Garage personnel i.e, Works manager, Customer care

manager, Spare parts manager, Service advisor, supervisor & technicians.

MODULE – 3: GARAGE EQUIPMENT AND SERVICING 9L

Tools and Equipment for Service, Measuring and Testing. Quick repairs, minor repair & servicing, Major repair,

Accidental repairs, Overhauling & reconditioning of vehicle.

Documents in a Garage: Job Card, Assessment of vehicle-Estimate of repair- Customer complaint form and

documentation.

MODULE – 4: TRANSPORT MANAGEMENT 9L

Types of vehicles in an organisation –passenger vehicles, goods vehicles, tankers and carriers, delivery vans,

fire fighting vehicles, break-down service vehicles.

Structure of passenger transport organizations - Duties and Responsibilities; Structure of goods transport

organizations, Scheduling of goods transport, Management Information System (MIS) in passenger / goods

transport operation.

Storage & transportation of petroleum products.

MODULE – 5: SCHEDULING AND COSTING IN TRANSPORT MANAGEMENT 9L

Planning department- Scheduling operation & control; Personal & training department-training for drivers &

conductors

Theory of fares- Basic principles of fare charging, Differential rates for different types of services, Depreciation

& debt charges, Operation cost and Revenues, Economics & records.

TEXT BOOKS

1 "Transport Development in India", S. Chand & Co. Pvt. Ltd., New Delhi.

2 Santosh Sharma, "Productivity in Road Transport", 2nd Edition, Association of State Road Transport

Undertakings, New Delhi.

3 Gilles, Tim, “Automotive Service – Inspection, Maintenance, and Repair”, Alar Elken Publications, 2007.

REFERENCE BOOKS

1 S.K. Shrivastava, "Economics of Transport"

2 Motor Vehicle Act - Govt. of India Publications.

3 P.G.Patankar, "Road Passenger Transport in India", CIRT, Pune.

4 John Dolu, manage "Fleet management ", McGraw-Hill Co.

COURSE TITLE PROJECT CREDIT 6


CIA 60% ESE 40%

DESCRIPTION

The objective of the project work is to enable the students in convenient groups of not more than 4

members on a project involving theoretical and experimental studies related to the Automobile

Maintenance. Every project work shall have a supervisor who is the member of the faculty of the

institution. Six periods per week shall be allotted in the time table and this time shall be utilized by

the students to receive the directions from the supervisor on library reading, laboratory work,

computer analysis or field work as assigned by the supervisor and also to present in periodical

seminars on the progress made in the project.

Each student will be assigned any one of the following types of project/thesis work:

(a) Industrial case study

(b) Preparation of a feasibility report

(c) Thesis by experimental research, and

(d) Design and development of equipment.

Each report must contain student's own analysis or design presented in the approved format.

Sessional marks will include

(a) Evaluation of the student's progress,

(b) Degree of involvement and participation,

(c) Merit of the project.

A student will have to defend his project/thesis and credit will be given on the

Review / Exam Weightage

First Review 20%

Second Review 20%

Third Review 20%

Report 20%

Final Viva- Voce 20%

TOTAL 100%

ELECTIVE-I

COURSE TITLE ELECTRONIC ENGINE MANAGEMENT SYSTEMS CREDITS 3

Course Code AMC2351 Course Category DE L-T-P-S 3-0-0-0

CIA 50 % ESE 50 %

CO COURSE OUTCOME

1 Familiarize with basic of electronics and its need on engine management.

2 Gain knowledge about working of different types of sensors.

3 Attain knowledge on the working of Electronic Fuel Injection for SI Engine.

4 Attain knowledge on the working of Electronic Fuel Injection System for CI Engine.

5 Familiarize with the concept of Engine mapping.

MODULE 1 - FUNDAMENTALS OF AUTOMOTIVE ELECTRONICS (9)

Basic Electronic Components – Transistors – Logic Gates – Microprocessor Architecture. Open and

Closed Loop Control Strategies – PID Control – Look up Tables. Need of Electronics in Engine

Management System.

MODULE 2 – SENSORS (9)

Types – Mass Air flow, Manifold Absolute Pressure, Temperature, Speed, Knock, and Crankshaft Position, Hall Effect – Principle of Operation – Construction – Material and Characteristics.

MODULE 3 - SI ENGINE MANAGEMENT (9)

Mono Point, Multi Point and Direct Injection Systems – Principles and Features, Bosch Injection Systems- L-Jetronic and LH –Jetronic – Layout and Working. Open Loop Control and Lambda Loop Control in Injection.

MODULE 4 - CI ENGINE MANAGEMENT (9)

Fuel Injection System – Parameters affecting Combustion and Emissions in CI Engines. Inline Injection Pump and Injector – Construction and Principle of Operation – Electronically Controlled Unit Injection System. Layout of the Common Rail Direct Injection System – Control Strategy.

MODULE 5 - IGNITION SYSTEMS AND ENGINE MAPPING (9)

Ignition Fundamentals – Types of Ignition Systems – High Energy Ignition Distributors –Electronic Spark Timing and Control. Combined Ignition and Fuel Management Systems. Digital Control Techniques – Dwell Angle, Ignition Timing and Injection Duration Calculation – Engine Mapping.

TEXT BOOKS

1. Bosch Technical Instruction Booklets.

2. Tom Denton, Automotive Electrical and Electronic Systems, Edward Amold.

3. William B Ribbens “Understanding Automotive Electronics”, SAE Publications.

4. Eric Chowanietz “Automobile Electronics” SAE Publications.

COURSE TITLE AUTOMOTIVE NVH (Noise Vibration and Harshness) CREDITS 3

COURSE CODE AMC2352 COURSE CATEGORY Core L-T-P-S 3-0-0-0

CIA 50% ESE 50%

CO COURSE OUTCOMES

1 To articulate the basic principles of NVH

2 To analyze and design to control and reduce vibration effects in Automobiles.

3 To recognize various noise sources and paths in a vehicle.

4 To identify key metrics available to assess the NVH performance of electrified vehicles.

5 To employ different noise/vibration control options to address specific noise and vibration

issues

MODULE 1- Automotive NVH Fundamentals (9)

Fundamentals of noise, vibration, sound quality, Vehicle NVH, Waves -Pressure, power, intensity-

Frequency, Decibels, Human Perception of Sound-basics of vibration- Sources of Vibration, Random

Vibration, Linear vs. Non-linear Vibration Analysis

MODULE 2- Automotive Vibration and Control (9)

Vibration Reduction at Source-Isolation of the Source, Tuned Vibration-Absorber using-Hysteretic Shape

Memory Alloy-Electro-magnetic-Proof-Mass Actuator-Feedback, Feed forward and Hybrid techniques for

Vibration control, Collocated Vs. Non collocated Control-Basics of Electro and Magneto-Rheological

Fluids, Active Vibration Isolation using ERF and MRF, Isolation of Vibrating Systems from Random

External Excitation

MODULE 3 - Automotive Noise and Control (9)

Powertrain-induced interior noise, Engine noise, Transmission noise, Driveline noise, Brake Noise, Intake

noise, Exhaust noise, Road-induced noise, Wind noise, assessment of combustion noise, assessment of

REFERENCE BOOKS

1. Robert Bosch “Diesel Engine Management” SAE Publications.

2. Robert Bosch, “Gasoline Engine Management” SAE Publications.

3. Robert N.Brady, “Automotive Computers and Digital Instrumentation”, Prentice Hall.

4. Duffy Smith, Auto Fuel Systems, The god Heart Willcox Company Inc., Publishers.

5. Heinz Heisler, Advanced Engine Technology. SAE Publications.

mechanical noise, measurement and analysis of noise, Noise control system using sound package

Materials-Materials for Vehicle Noise Control

MODULE 4 - NVH aspects of Hybrid and Electric Vehicles (9)

Vehicle NVH development of HEV, ReEV, PHEV, and EV-ICE start/stop noise/Vibration using case study

Examples-Motor NVH using case study examples-HEV/EV driveline NVH using case study examples-

Sound character of EV using case study examples-Sound character of ReEV using case study examples

MODULE 5 - NVH Control Strategies (9)

Signal Processing, Sampling, aliasing and resolution. The Wave Equation & measuring sound-

Microphones classification and usage-STFT, spectrogram, reverb time, STC, NRC, Campbell's plots,

cascade diagrams, coherence and correlation functions. Source ranking. Noise control solution - source,

path, receiver. Vibration absorbers and Helmholtz resonators. Modal, time response, and frequency

analyses.

TEXT BOOKS

1 Dynamic Vibration Absorbers, Boris and Kornev, John Wiley, 1993.

2 Principles of Vibration Control, A. K. Malik, East-West Press, India, 1990.

3 Passive Vibration Control, D. J. Mead, John Wiley & Sons Inc, 1999.

REFERENCE BOOKS

1 Norton M P, Fundamental of Noise and Vibration, Cambridge University Press,1989

2 Munjal M.L., Acoustic Ducts and Mufflers, John Wiley, 1987

3 Baxa, Noise Control of Internal Combustion Engine, John Wiley, 1984.

COURSE TITLE Fuel Cells and modern storage devices CREDITS 3

COURSE CODE AMC2353 COURSE CATEGORY DE L-T-P-S 3-0-0-0

CIA 50% ESE 50%

CO COURSE OUTCOMES

1 To present in depth knowledge of fuel cell technology.

2 To underlying concepts, methods and application of fuel cell technology.

3 To identify different areas of fuel cell technology.

4 To find the applications of all the areas in day to day life.

5 To do fuel cycle analysis

MODULE 1- INTRODUCTION TO FUEL CELLS (9)

Introduction–working and types of fuel cell–low, medium and high temperature fuel cell, liquid

and methanol types, proton exchange membrane fuel cell, solid oxide fuel cell, hydrogen fuel

cells–thermodynamics and electrochemical kinetics of fuel cells.

MODULE 2- FUEL CELLS FOR AUTOMOTIVE APPLICATIONS (9)

Fuel cells for automotive applications–technology advances in fuel cell vehicle systems–onboard

hydrogen storage–liquid hydrogen and compressed hydrogen–metal hydrides, fuel cell control system–

alkaline fuel cell–road map to market.

MODULE 3 - FUEL CELL COMPONENTS AND THEIR IMPACT ON PERFORMANCE (9)

Fuel cell performance characteristics–current/voltage, voltage efficiency and power density, ohmic

resistance, kinetic performance, mass transfer effects–membrane electrode assembly components,

fuel cell stack, bi-polar plate, humidifiers and cooling plates.

MODULE 4 – FUELING HYDROGEN (9)

Fueling Hydrogen storage technology–pressure cylinders, liquid hydrogen, metal hydrides,

carbon fibers–reformer technology–steam reforming, partial oxidation, auto thermal

reforming–CO removal, fuel cell technology based on removal like bio-mass.

MODULE 5 - FUEL CYCLE ANALYSIS (9)

Introduction to fuel cycle analysis–application to fuel cell and other competing technologies like

battery powered vehicles, SI engine fuelled by natural gas and hydrogen.

TEXT BOOKS

1 Fuel Cells for automotive applications–professional engineering publishing UK.ISBN 1-86058

4233, 2014.

2 Fuel Cell Technology Handbook SAE International Gregor Hoogers, CRC Press ISBN0-8493-0877-1-

2013.

COURSE TITLE AFTER TREATEMENT TECHNIQUES CREDITS 3


CIA 50% ESE 50%

CO COURSE OUTCOMES

1 The students should be able familiarize the effect of various automotive emissions.

2 The students should be able to gain Knowledge about the formation of various types of pollutants from

SI engines.

3 The students should be able to gain Knowledge about the formation of various types of pollutants from

CI engines.

4 The students should be able to acquire the significance of emission control techniques for SI engines.

5 The students should be able to acquire the significance of emission control techniques for CI engines.

MODULE 1-INTRODUCTION (9)

Vehicle population assessment in International, National and Metropolitan cities and contribution

to pollution, effects on human health and environment, global warming, types of emission.

MODULE 2- POLLUTANTS FROM IC ENGINES (9)

Pollutant formation in SI Engines, mechanism of HC, CO and CO2 formation in four stroke and two stroke

SI engines. NOx formation in SI engines. Pollutant formation in CI engines. Formation of Smoke and

particulate in CI engines. Formation of NO and NO2 in CI engines. Formation of HC, CO and CO2 in CI

engines.

MODULE 3- EXHAUST SYSTEM (9)

Engine Exhaust Technology Evolution – India automotive emission regulation – Noise limits for vehicles

at manufacturing stage – Basics of Exhaust System from Engine head face to tail pipe – Components of

exhaust system-Silencer (Muffler).

MODULE 4–AFTER TREATEMENT TECHNIQUE FOR SI ENGINE (9)

Technology for gasoline engine – Thermal and catalytic reactors, Elements of catalytic

reactors, catalysts and substrates, Three-way catalytic converter (TWCC) – Gasoline

particulate filter (GPF) Cold start HC control.

MODULE5-AFTER TREATEMENT TECHNIQUE FOR CI ENGINE (9)

Technology for Diesel engine- – Exhaust gas recirculation (EGR) – Diesel oxidation catalyst (DOC) –

Partial flow filter (PFF) – Diesel particulate filter (DPF) – Selective catalytic reduction (SCR) – Selective

catalytic reduction filter (SCRF). Lean NOx Trap (LNT).

TEXT BOOKS

1 B.P. Pundir-“Engine Emissions”- Alpha Science International Limited, 2015.

2 Ganesan, V- "Internal Combustion Engines"- Tata McGraw-Hill Co.- 2018.

REFERENCE BOOKS

1 SAE Transactions- "Vehicle Emission"- 2012 (3 volumes).

2 Obert.E.F.- "Internal Combustion Engines"- 2015.

ELECTIVE-II

COURSE TITLE OFF ROAD VEHICLES CREDITS 3


CIA 50% ESE 50%

CO COURSE OUTCOMES

1 Able to familiarize with the construction and working of various Earth moving equipment

2 Able to acquire the knowledge on construction and working of various constructional

equipment

3 Able to Gain knowledge on the construction and working of Farm equipment

4 Able to Familiarize with the working of Industrial equipment

5 Able to Develop the knowledge on working of Military equipment

MODULE 1 - EARTH MOVING EQUIPMENT (9)

Construction and working principles of dumpers, front-end loaders, bulldozers, backhoe loaders etc.

MODULE 2 - ROAD AND BUILDING CONSTRUCTION EQUIPMENT (9)

Layout of Constructional and Road equipment: Cranes, excavators, motor graders, Road rollers,

concrete ready mixers for construction of bridges and their working principles.

MODULE 3 – TRACTORS AND FARM EQUIPMENT (9)

Tractors – classification and working principles – various attachments to the tractors- Trailers and

body tipping mechanism. Farm equipment and their working principles - ploughing - paddy

plantation machine, harvesting machines.

MODULE 4 - INDUSTRIAL EQUIPMENT (9)

Constructional features of Overhead cranes, Mobile cranes, jib cranes. Forklifts. Towing

vehicles.

MODULE 5 - MILITARY VEHICLES (9)

Special features and constructional details of tankers, gun carriers and Military transport vehicles-

Ashok Leyland stallion.

TEXT BOOKS

1 Wong.J.T., " Theory of Ground vehicles ", John Wiley & Sons, New York, 2014

2 Construction planning, Equipment and Methods - Robert L. Peurifoy, William B. Ledbrtter,

Clifford J. Schexnayder - McGrawHill, Fifth Edition, 2013

REFERENCE BOOKS

1 Construction Equipment Management by John Schaufelberger

2 Abrosimov. K. Bran berg.A. andKatayer.K., " Road making Machinery ", MIR Publishers,

Moscow.

3 Rodichev and G.Rodicheva, Tractor and Automobiles, MIR Publishers.

COURSE TITLE FLUID POWER SYSTEMS CREDITS 3


CIA 50% ESE 50%

CO COURSE OUTCOMES

1 Understand the basics of fluid mechanics and properties of fluids.

2 Identify and able to analyse hydraulic systems

3 Identify and able to analyse pneumatic systems

4 Knowledge to design and predict the behaviour of practical fluid power systems.

5 Understand the Fluid power systems for various automotive applications.

MODULE 1- FUNDAMENTALS OF FLUID (9)

Fluid - Properties of fluids - density, specific weight, specific volume, specific gravity, viscosity,

compressibility, capillary and surface tension - Fluid statics: concept of fluid static pressure,

absolute and gauge pressures - Pascal’s law and its applications- Fluid dynamics- Euler's equation

along a streamline - Bernoulli's equation.

MODULE 2- HYDRAULIC POWER SYSTEMS (9)

https://www.amazon.in/John-Schaufelberger/e/B001ITX2KW/ref=dp_byline_cont_book_1

Hydraulic power system: components - Fluids for hydraulic system: types, properties, and selection -

Additives, effect of temperature and pressure on hydraulic fluid - Seals, sealing materials, compatibility

of seal with fluids - Types of pipes, hoses, and quick acting couplings.

MODULE 3 - PNEUMATIC POWER SYSTEMS (9)

Pneumatic power system, advantages, limitations, applications - Pneumatic compressors,

cylinders, motors, and rotary actuators – Pneumatics - circuits and applications - Pressure

Intensifiers: Air-Over-Oil Applications.

MODULE 4 - FLUID POWER CONTROL (9)

Introduction - Components of hydraulic and Pneumatic control system - Energy and power

in hydraulic systems - Hydraulic pumps, cylinders, motors and actuators - Hydraulic circuit

design and analysis - Electrical controls for fluid power circuits -Introduction to PLC.

MODULE 5 - APPLICATIONS OF FLUID POWER SYSTEMS (9)

Fluid power in industrial applications – Applications in automotive industry - brake system, engine oil

system, automatic transmission system, air conditioning system, power steering system, cooling system,

hydraulic clutch system.

TEXT BOOKS

1 Anthony Esposito, “Fluid Power with applications”, Pearson edition, 2000.

2 Majumdar S.R., “Oil Hydraulics”, Tata McGraw-Hill, 2002

3 Majumdar S.R., “Pneumatic systems - Principles and Maintenance”, Tata McGraw-Hill, New Delhi,

2005

REFERENCE BOOKS

1 Thomson, Introduction to Fluid power, Prentice HaIl, 2004

2 John Watton, Fundamentals of fluid power control, Cambridge University press, 2012.

3 Basic and Electro Hydraulics and Pneumatics, Festo Didactic Series, 7th Edition, 2003.

COURSE TITLE BASICS OF MOTORSPORTS CREDITS 3


CIA 50% ESE 50%

CO COURSE OUTCOMES

1 To Gain the knowledge on Motorsport .

2 To Know the various Students level motorsport competitions

3 To Familiarize with professional events and competitions

4 To understand various rules and bylaws of Motorsports

5 To Develop the career towards Motorsport

MODULE 1 - INTRODUCTION TO MOTORSPORT (9)

History of motorsport -Pioneers of Motorsport -Motorsport technology evolution - Secrecy in

Motorsport.

MODULE 2 –DOMESTIC MOTORSPORT EVENTS (9)

Students’ motorsport events to develop their skills - Formula SAE - Baja SAE - SAE Super mileage. Go-

Karting, Solar Vehicle and E Bike-INRC.

MODULE 3 - GLOBAL MOTORSPORT EVENTS (9)

Professional motorsport events that take place around the world - Cars – Formula One, World rally

championship, and Touring car championship -24 Hour Le Mans

MODULE 4 - RULES AND REGULATIONS (9)

The rule book - governing bodies of the sport – frequent amendments of rule book -

interpretation of rule book- Rules for car races - Rules for bikes races.

MODULE 5 - CAREER IN MOTORSPORT (9)

Career opportunities- Motorsport Engineer- Race Driver / Rider - Test Driver / Rider - Design engineer -

Race technician -Aerodynamics Engineer - Race official / steward.

TEXT BOOKS

1 Basic Motorsport Engineering: Andrew Livesey Publication Date: 17 Feb 2011 | ISBN-10:

0750689099 | ISBN-13: 978-0750689090

REFERENCE BOOKS

1 Smith's Fundamentals of Motorsport Engineering by Josh Smith Publication Date: 26 April 2013 |

ISBN-13: 9781408518083 | Edition: New edition

2 Hillier's Fundamentals of Motor Vehicle Technology Book 1Sixth Edition by Alma Hillier

Publication

COURSE TITLE AUTONOMOUS MOBILITY CREDITS 3


CIA 50% ESE 50%

CO COURSE OUTCOMES

1 The students should be able to Familiarize on concepts of Autonomous vehicle

2 The students should be able to Gain knowledge on Sensor Fusion Systems

3 The students should be able to Acquire the knowledge on Path Planning and terrain management systems

4 The students should be able to Attain the knowledge on Connected And Control Systems Cars

MODULE 1- Introduction (9L)

The 5 Levels of Autonomous Vehicles - No Automation - Driver Assistance - Partial Automation-

Conditional Automation - High Automation - Full Automation

MODULE 2- Sensor Fusion and Computer Vision (9L)

Autonomous vehicle sensors - camera, radar and lidar Computer Vision- Creating 3D Maps, Classifying

and Detecting Objects, Gathering Data for Training Algorithms - Deep Learning

MODULE 3- Localization and Path Planning (9L)

Motion planning methods -Path, manoeuvre and trajectory motion planning - Decision making and

handling of obstacles - operations aspects to motion planning methods.

MODULE 4- Control System Integration (9L)

Open loop control system – closed loop control system -PID controller - Performance of PID control

MODULE 5- Connected Car (9L)

Concept of V2V- Concept of V2I- Concept of V2X – communication Networks & Topologies

TEXT BOOKS

1. Hod Lipson and Melba Kurman “Driverless: Intelligent Cars and the Road Ahead “The MIT Press,

2016

2. Markus Maurer, J. Christian Gerdes, Barbara Lenz, Hermann Winner “Autonomous Driving”

Springer, Berlin, Heidelberg 2016

REFERENCE BOOKS

1. Bosch Automotive Handbook, 10th Edition BOSCH10

ELECTIVE-III

COURSE TITLE ENTREPRENEURSHIP DEVELOPMENT CREDITS 3


CIA 50% ESE 50%

CO COURSE OUTCOMES

1. Student should be able to define who is an Entrepreneur and what his or her

characteristic features are, what skills made them successful and what qualities

are required to become an Entrepreneur.

2. Students should be able to understand the concept of Business environment and

the various factors influencing it, Government and its role in encouraging and

supporting Entrepreneurship through various services including EDP training

programs.

3. Students are expected to get the capabilities to select Products, doing a

prefeasibility study, and prepare a feasibility report and evaluate it.

4. Students should be able to explain the various issues involved in starting a

venture, apply the growth strategies and scaling up the venture and also how to

launch a product.

5. Students are equipped to start a venture, monitor and evaluate it for avoiding

sickness, how to revive sick units and effectively manage small business units.

MODULE 1: CONCEPT OF ENTREPRENEURSHIP (9)

Entrepreneurship – Meaning – Types – Qualities of an Entrepreneur – Classification of Entrepreneurs

– Factors influencing Entrepreneurship – Functions of Entrepreneurs – Role in Economy – Women

Entrepreneurship.

MODULE 2: POLICY & INSTITUTIONAL ECO SYSTEM FOR ENTREPRENEURSHIP (9)

Start-up India – Make in India – Stand up India – Special Schemes - Entrepreneurial Development

Agencies - NSDC – EDI – MSME – SIDO – EDI – NIESBUD – Role of professional bodies and industry

associations

MODULE 3: BUSINESS PLAN & PITCHING (9)

Business idea generation techniques – Identification of Business opportunities – Feasibility study –

Marketing, Finance, Technology & Legal Formalities - Preparation of Business Plan - Pitching – Types.

MODULE 4: ENTREPRENEURIAL FINANCE (9)

Sources of Finance – Research Institutions – Venture Capital – Angel Investors – Commercial Banks –

MUDRA – NABARD – Microfinance - MSMEs and IPO.

MODULE 5: SICKNESS AND TURNAROUND STRATEGIES (9)

Industrial Sickness–Definition–Causes –Symptoms – Prediction – Revival – Managerial Deficiencies

Revival of Sick unit – BIFR and SICA’s Role – Startup India’s notion towards Winding up

TEXT BOOKS

1 S.S.Khanka, Entrepreneurial Development, S.Chand and Company Limited, New Delhi, 2007.

2 Saravanavel – Entrepreneurial Development, Ess-Pee-kay-Publishing-House, 5th Edison, 2011

COURSE TITLE TOTAL QUALITY MANAGEMENT

CREDITS 3


CIA 50% ESE 50%

CO COURSE OUTCOMES

1 Ability to understand the Total Quality Management vision, mission and policy

statement of in the organization

2 Ability to apply the knowledge of principles and philosophies of quality management

3 Ability to analyze the importance of statistical process control for the application and

reengineering process of the organization.

4 Analyzing the importance of tools and techniques for quality management

5 Understanding the importance of quality systems organizing and implementation of

TQM quality audits

MODULE – 1: INTRODUCTION 9L

Quality – vision, mission and policy statements. Customer Focus – customer perception of quality,

Translating needs into requirements, customer retention. Dimensions of product and service quality.

Cost of quality.

MODULE – 2: PRINCIPLES AND PHILOSOPHIES OF QUALITY MANAGEMENT 9L

Overview of the contributions of Deming, Juran Crosby, Masaaki Imai, Feigenbaum, Ishikawa,

Taguchi techniques – introduction, loss function, parameter and tolerance design, signal to noise

ratio. Concepts of Quality circle, Japanese 5S principles and 8D methodology. Lean Management

concepts

MODULE – 3: STATISTICAL PROCESS CONTROL 9L

Meaning and significance of statistical process control (SPC) – construction of control charts for

variables and attributed. Process capability – meaning, significance and measurement. Total

productive maintenance (TMP), Terotechnology. Business process Improvement (BPI) – principles,

applications, reengineering process, benefits and limitations. Hypotheses testing, Regression

analysis, Design of Experience

MODULE – 4: TOOLS AND TECHNIQUES FOR QUALITY MANAGEMENT 9L

7 Quality Tools, Quality new 7 tools, Quality functions development (QFD) – Benefits, Voice of

customer, information organization, House of quality (HOQ), building a HOQ, QFD process. CFM,

Quality circles, Quality Network, total employee involvement and Failure mode effect analysis

(FMEA)

MODULE – 5: QUALITY SYSTEMS ORGANIZING AND IMPLEMENTATION 9L

Introduction to IS/ISO 9004:2000 – quality management systems – guidelines for performance

improvements. Organizational limitations, Process approach, PDCA cycle, Quality Audits. TQM culture,

Leadership

TEXT BOOKS

1

Dale H.Besterfield, Carol Besterfield – Michna, Glen H. Besterfield, Mary Besterfield –

Sacre, Hermant – Urdhwareshe, Rashmi Urdhwareshe, Total Quality Management, Revised

Third edition, Pearson Education, 2011

2 Shridhara Bhat K, Total Quality Management – Text and Cases, Himalaya Publishing

House, II Edition 2010

REFERENCE BOOKS

1 Douglas C. Montgomory, Introduction to Statistical Quality Control, Wiley Student

Edition, 4th Edition, Wiley India Pvt Limited, 2008.

2 James R. Evans and William M. Lindsay, The Management and Control of Quality,Sixth

Edition, Thomson, 2005.

COURSE TITLE BUSINESS ETHICS CREDITS 3


CIA 50% ESE 50%

CO COURSE OUTCOMES

1 Demonstrate an understanding of Ethical issues in current business scenario.

2 Illustrate relationship between business ethics and business development.

3 Enabling to understand the ethics related to consumer protection and environment.

4 Understanding of various ethical issues in foreign trade and intellectual property right

5 Demonstrate an understanding of Individual ethics

MODULE 1- INTRODUCTION TO BUSINESS ETHICS (9)

Business Ethics- Meaning and nature: Importance of ethics in business. Types of business Ethics

Relation between corporate responsibility & Business ethics.

MODULE 2- BUSINESS ETHICS IN GLOBAL ECONOMY (9)

Business Ethics in Global Economy: Ethics in the context of Global Economy-Relationship Between

Business Ethics & Business Development-Role of Business Ethics in Building a civilized society.

MODULE 3 -MORAL ISSUES IN BUSINESS JUSTICE & ECONOMIC SYSTEM (9)

Moral issues in Business Justice & Economic system-ethics related to environment protection-

Ethics relating to Consumer protection-Social responsibility & Business ethics arguments for and

against Social responsibility.

MODULE 4 - AREAS OF BUSINESS ETHICS (9)

Meaning of functional ethics-types of ethics according to functions of business: marketing

ethics, foreign trade ethics and ethics relating to Copyrights.

MODULE 5 - ORGANISATIONAL AND INDIVIDUAL ETHICS (9)

Organizational Ethics Individual Ethics- Professional ethics: Corporate Ethics- Ethical behaviour - Ten

Commandments of ethical Behaviour Control & audit of ethical behaviour.

TEXT BOOKS

1 Business Ethics: - O.C. Ferrel, John Paul Fraedrich, Linda Ferrell.

2 Business Ethics: - Gautam Pherwani

REFERENCE BOOKS

1 Business Ethics: - RituPamraj

2 Business Ethics: - Prof. Agalgatti6

COURSE TITLE SUPPLY CHAIN AND LOGISTICS MANAGEMENT CREDITS 3


CIA 50% ESE 50%

CO COURSE OUTCOMES

1 Ability to understand the fundamentals of supply chain in performance measurement of the

organization.

2 Ability to apply the knowledge of strategic sourcing in creating a world class supply base

3 Ability to analyze the importance of Supply chain network in distribution network

4 Analyzing the importance of managing supply chain inventory in inventory management.

5 Understanding the current trends in supply chain integration.

MODULE 1- INTRODUCTION ( 9 )

Supply Chain Fundamentals - Importance - Decision Phases - Process view Supplier-

Manufacturer- Customer chain-Drivers of Supply Chain Performance- Structuring Supply Chain

Drivers- Overview of Supply Chain Models and Modeling Systems - Building blocks of a supply

chain network -Business processes in supply chains

MODULE 2- BUILDING CAPABILITY AND STRATEGIC SOURCING ( 9 )

Management Capability - Controllability vs. Flexibility – Integrating Capability – Chain of Capability –

Radical vs. incremental improvement - In-sourcing and Out-sourcing - Types of Purchasing Strategies-

Supplier Evaluation, Selection and Measurement - Supplier Quality Management.

MODULE 3 - SC NETWORK DESIGN (9 )

Distribution Network Design - Role, Factors Influencing Options- Value Addition - Model for Facility

Location and Capacity Location - Impact of uncertainty on Network Design -Network Design

decisions using Decision trees. Distribution - Center Location Models. Supply Chain Network

optimization Models

MODULE 4- ESTIMATING DEMAND INVENTORY & SUPPLY (9)

Overview of Demand forecasting in the supply chain -Aggregate planning in the supply chain

- Managing Predictable Variability - Managing supply chain cycle inventory - Uncertainty in

the supply chain - Safety Inventory - Determination of Optimal level of product availability

MODULE 5 - BUILDING SUSTAINABLE & GLOBAL SUPPLY CHAINS (9)

Internet-enabled supply chains: E-marketplaces - e-procurement - e-logistics - e-fulfillment - ERP and

supply chains - supply chain automation - supply chain integration – Framework for Value system

sustainability – Sustainability stakeholders/areas/levels – Global SCM

TEXT BOOKS

1 Janat Shah, Supply Chain Management – Text and Cases, Pearson Education, 2009

2 Sunil Chopra and Peter Meindl, Supply Chain Management-Strategy Planning and Operation, PHI Learning

/ Pearson Education, Sixth edition, 2015.

REFERENCE BOOKS

1 Ballou Ronald H, Business Logistics and Supply Chain Management, Pearson Education, 5th Edition, 2007

2 David Simchi-Levi, Philip Kaminsky, Edith Simchi-Levi, Designing and Managing the Supply Chain:

Concepts, Strategies, and Cases, Tata McGraw-Hill, 2005.