NMAMIT, Nitte GC Meeting 30-06-2018 Minutes Page 1 Ph: 08258 281039(D) (EPBAX) 281 263, 461 Dr. Niranjan N. Chiplunkar M.Tech., Ph.D 281248, 281349,281462 PRINCIPAL Fax : 08258 - 281265 web : www.nmamit.nitte.edu.in Email: [email protected]MINUTES OF 49 th MEETING OF THE GOVERNING COUNCIL The 49 th Meeting of the Governing council was held on June 30, 2018 at 9.30 am in the Board room of NMAMIT, Nitte. MEMBERS PRESENT : 1. Sri N.Vinaya Hegde President, NET, Mangalore Chairman 2. Sri N.Vishal Hegde Trustee, NET, Mangalore Member 3. Sri M.Rajendra Director (Finance) NET, Mangalore Member 4. Dr. Gopal Mogeraya Director, NIT,Goa Member 5. Sri Gopi Krishna Centre Head, Infosys Mangalore Member 6. Dr. K.S. Satyanarayanan HoD, Dept. of Civil Engg. SRM University, Chennai Member 7. Dr. H.C.Nagaraj Principal, NMIT, Bangalore & Dean-VTU, Belagavi Permanent Special Invitee 8. Dr. Bhamy V. Shenoy Ex Principal Consultant PA Consulting, Houstan, Texas Special Invitee
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AGENDA GC/49-01/18 Approval of the Minutes of the 48th Meeting of the Governing Council held on 30-12-2017.
The 48th Meeting of Governing Council was held on 30-12-2017 at the Board
Room NMAMIT, Nitte. The Minutes of the said meeting were circulated to all the members of the Board. No comments were received. The minutes of the same meeting are now placed before the Governing Council for its consideration and approval.
AGENDA GC/48-01/17 Approval of the Minutes of the 47th Meeting of the Governing Council held on 29-06-2017. Resolution: Resolved to confirm and approve the minutes of 47th Meeting. AGENDA GC/48-02/17 Report of Action taken in pursuance of 47th meeting
of Governing Council held on 29-06-2017. Resolution: Resolved to approve the action taken report
AGENDA GC/48-03/17 Discussion about Centres of Excellence.
AGENDA GC/48-06/17 - Ratification for Conference/Workshop organized and attended Resolution: Noted and approved.(as per the suggestion made in previous GC meeting, actions are taken, which are given next)
AGENDA GC/48-07/17 Ratification of request made to VTU to get NoC to join Nitte University. Resolution: Noted.
AGENDA GC/48-08/17 Ratification for Authorization to receive grants from DST SERB for and FDP “Machine Learning and applications in Science and Technology”. Resolution: Noted and ratified.
AGENDA GC/48-09/17 Result Analysis of Odd Semester-2017-18
Resolution: Noted.
AGENDA GC/48-10/17: Any other matter
Resolution: Noted.
The matter was placed before Governing Council for its confirmation and approval.
RESOLUTION: Resolved to Confirm and Approve the minutes of 48th Meeting of Governing Council.
GC/48-09/17: Result Analysis of Odd semester 2017-18:
Principal presented the list of 54 numbers of slow learners who were failed in 1st semester during December 2017 Exam and the details of steps taken to provide them additional academic inputs. GC appreciated the actions taken for failed students.
GC Suggested to depute senior faculty members to teach 1st semester classes as far as possible. Other than Remedial classes, counseling is also necessary for some students- members added.
Chairman asked the Principal to provide details of students who left the course and the college during 2017-18, at an early date.
Resolution : Noted and Resolved to approve the Action Taken Report.
GC/48-10/17: Any other matter
Academic and Administrative audit
Resolution : Noted and Resolved to approve the Action Taken Report.
III. Agenda for discussion and approval GC/49-03/18: Academic related matters Result Analysis of Even Semester held during May 2018 (Before Makeup) The matter was placed before Governing Council for its ratification and approval
Resolution: GC Noted and approved.
List of students eligible for the award of degrees
Note: Member Secretary presented the list of students eligible for the award of degrees.
The matter was placed before Governing Council for its information and approval Resolution: Resolved and approved
List of Gold and Silver medal winners
Note: Member Secretary presented the List of Gold and Silver medal winners.
The matter was placed before Governing Council for its information and approval.
(iv) Detailed Syllabus and requirement details of 6 months Certificate courses on
“Cyber Security”, “Welding Technology”, “Robotics” and “Automotive
electronics” as given below was placed before the GC for approval. These courses
will be run as per the VTU guidelines from January 2019, if sufficient number of
candidates opt for it.
Syllabus of “Cyber Security” 18IS101 Economics for Cyber Security 4+0+0+0 Hrs/Week: 4 Total Hours:52
UNIT-I 10Hours
Introduction to security economics: Overview, Brief history of the field: why study cybersecurity as an economics problem, Economics for Engineers, Economics of information goods, security engineering for economists.
UNIT-II 11Hours
Measuring cyber security: How to measure cyber security? Metrics in practice, data collection and processing, case study: security metrics for botnet mitigation by ISPs
UNIT-III 11Hours
Security Investment and Management: Security Strategies: Reasons to invest in security for security providers and consumers. Optimal information security investment: Security cost and benefits, security/investment metrics, Gordon-Loeb model & extensions, Timing of security investments, Risk Management: Risk acceptance vs. avoidance, risk mitigation, risk transfer: Cyber insurance, operational security management: secure software development, patch management, incident management, forensics, may be identity management.
UNIT IV 10Hours
Market Failures: Public goods, Information asymmetries, Externalities, Policy Interventions to correct market failures: Ex ante safety regulation/ex post liability, information disclosure (trust seals, certifications and breach notification), indirect intermediary liability
Case study: cooperation and information sharing: phishing takedown, the role of intermediaries, case study: payment card industry.
UNIT V 10Hours
The Human Factor: Introduction to behavioural economics, The heuristics and biases tradition, Applying behavioural economics: consumer behaviour and deception, The behavioural economics of privacy, security economics and policy.
References
1.The law and economics of Cyber Security, Mark F. Grady & Francesco Parisi, Cambridge UP publisher, 2005.
2. Managing Cyber Security Resources: A Cost-Benefit Analysis, Lawrence A Gordon & Martin P.Loeb.
18IS102 Cyber Security for Physical Systems 4+0+0+0 Hrs/Week: 4 Total Hours:52
UNIT-I 11Hours
Who are Cybercriminals? Classifications of Cybercrimes. Security and vulnerability of cyber-physical infrastructure networks, game theory for infrastructure security, An analytical framework for cyber-physical networks, Mobile and wireless network security, Robust wireless infrastructure against jamming attacks, Security of Mobile Adhoc networks, Defending against Identity based Attacks in wireless networks, Security of sensor networks.
Cyber offenses: How Criminals Plan Them: How Criminals Plan the Attacks, Social Engineering, Cyber stalking, Cyber cafe and Cybercrimes, Botnets: The Fuel for Cybercrime, Attack Vector.
Cybercrime: Mobile and Wireless Devices: Introduction, Proliferation of Mobile and Wireless Devices, Trends in Mobility, Credit Card Frauds in Mobile and Wireless Computing Era, Security Challenges Posed by Mobile Devices, Registry Settings for Mobile Devices, Authentication Service Security, Attacks on Mobile/Cell Phones, Mobile Devices: Security Implications for organizations, Organizational Measures for Handling Mobile, Organizational Security Policies and Measures in Mobile Computing Era, Laptops.
UNIT-III 10Hours
Tools and Methods Used in Cybercrime: Introduction, Proxy Servers and Anonymizers, Phishing, Password Cracking, Keyloggers and Spywares, Virus and Worms, Trojan Horses and Backdoors, Steganography, DoS and DDoS Attacks.
Hardware&Security:Vulnerabilities& Solutions, Languages and Security: Safer software through Language and Compiler techniques, Cloud computing and data security, Event Awareness and System Monitoring for Cyber Physical Infrastructure,
UNIT-IV 10Hours
Introduction to Indian Cyber Law, Objective and Scope of the it Act, 2000, Intellectual Property Issues, Overview of Intellectual - Property – Related Legislation in India, Patent, Copyright, Law Related to Semiconductor Layout and Design, Software License
Pervasive Sensing and Monitoring for Situational Awareness, Managing and Securing Critical Infrastructure with Semantic Policy and Trust-Driven Approach, Policies.
UNIT-V 10Hours
Access Control and Formal Methods, Formal Analysis of Policy-Based Security Configuarations in Enterprise Networks, Security and Privacy in Smart Grid. Automotive Information Technology, Mobile Health-Care (m-health) systems, VoIP Telecommunication Networks.
18IS104 Digital Forensics 4+0+0+0 Hrs/Week: 4 Total Hours:52
UNIT-I 11Hours
Introduction to IT laws & Cyber Crimes – India and International perspectives, Governance and Legal Issues. Principles of Digital investigations, Hardware forensics tools – Single purpose, Computer networks and Servers Software forensics tools, Log file analysis, Cloud forensics.
Understanding Computer Forensics: Introduction, Historical Background of Cyberforensics, Digital Forensics Science, The Need for Computer Forensics, Cyberforensics and Digital Evidence, Forensics Analysis of E-Mail.
UNIT-II 11Hours
Understanding Computer Forensics: Introduction, Historical Background of Cyberforensics, Digital Forensics Science, The Need for Computer Forensics, Cyberforensics and Digital Evidence, Forensics Analysis of E-Mail, Digital Forensics Life Cycle, Chain of Custody Concept, Network Forensics, Approaching a Computer Forensics Investigation, Setting up a Computer Forensics Laboratory: Understanding the Requirements, Computer Forensics and Steganography, Relevance of the OSI 7 Layer Model to Computer Forensics.
UNIT-III 10Hours
Forensics and Social Networking Sites: The Security/Privacy Threats, Computer Forensics from Compliance Perspective, Challenges in Computer Forensics, Special Tools and Techniques, Forensics Auditing, Antiforensics.
Analysis of Acquisition, Validation, Discrimination, Extraction, Reconstruction, Reporting, Forensics examination protocols, NIST forensics Tools. Crime-specific Digital Triage Process.
Operating System and File System Forensics, Detecting Data Concealment Programs Using Passive File System Analysis.Assessing Trace Evidence Left by Secure Deletion Programs. Architecture for SCADA Network Forensics.- Portable Electronic Device Forensics,
UNIT-V 10Hours
Data Forensics - Data Fingerprinting, Theoretical Interpretations and Modeling in Forensics - Applications of Graph theory and Bayesian models. Applying Machine Trust Models to Forensic Investigations. Exploring Big Haystacks. Forensic Techniques. Countering Hostile Forensic Techniques.
TEXTBOOKS/REFERENCES:
1. A. Vishwanathan, Cyber Law – Indian and International Perspectives on Key Topics, LexisNexis Publishers, ISBN: 9788180387395, 2012. 2. Bill Nelson, Amelia Philips and Christopher Steuart, “Guide to Computer Forensics and Investigations”, Fourth Edition, Cengage Learning, ISBN: 1-435-49883-6, 2009. 3. Eoghan Casey, Handbook Computer Crime Investigation's Forensic Tools and Technology, First Edition, Academic Press, 2001. 4. Olivier, Martin S., and SujeetShenoi, (eds), Advances in Digital Forensics II, Vol. 222, Springer, 2006.
2. SunitBelapure and Nina Godbole, “Cyber Security: Understanding Cyber Crimes, Computer Forensics And Legal Perspectives”, Wiley India Pvt Ltd, ISBN: 978-81-265-21791, 2013.
To provide skill training certification course to the engineering students and diploma holders. The trained people can take up jobs in ship building, automotive industry and piping and general welding applications.
Minimum Intake: 10 students
Maximum Intake: 25 Students
Fee to be charged: Rs. 16,500/per student
Academic Calendar: First week of January to Last week of June.
Course Duration/Subject/Lab: 10 Weeks + 4 weeks industry internship
Sl. No. Job Roles 1. Manual metal arc welding/Shielded metal arc welding welder/Shield metal
1. Cost of welding/welder Part of tuition fee collected. 2. Electricity charges/welder
3. Lab testing/welder 4. Instructor charges 5. Overheads/ Miscellaneous & contingency 6. Food & Accommodations @ actual by the student. 7. Travel (To & fro, one time) Total cost per welder for the module 16500/-
The 3 Courses are taught to the students sequentially utilizing 5 weeks/course. The corresponding Lab components are conducted parallel with the course. The Theory and Laboratory classes will be conducted during first three weeks and during forth week laboratory examination will be conducted and in the fifth week theory examination is conducted. Two Questions to be set from each unit and students shall answer FIVE full questions choosing at least ONE question from each unit.
Fundamentals of Robotics
Sub Code : Credits : 4
Hrs/Day: 4+0+0+0 Total Hours : 52
Unit-1
Introduction to Automation: Basic Elements of an Automation system, Advanced Automation functions, Levels of Automation, Production system Facilities, Manufacturing support systems, Automation in production systems, Manual labor in production systems, Automation Principal and strategies, Fixed Automation-Automated flow lines, Methods of work part transport, transfer mechanism -continuous transfer, intermittent transfer, indexing mechanism, operator-Paced free transfer machine, buffer storage, control functions, Automations for machining operations, Design and Fabrication considerations.
12 Hours
Unit-2
Introduction to Robotics: Robot anatomy, Links and joints, Degree Of Freedom, arm configuration, Wrist configuration, End effectors, Coordinate frames, Mapping, Mapping between rotated frames, Mapping between translated frames, Mapping between rotated and translated frames, Description of object in space, Transformation of vectors, rotation of vectors, Translation of vectors, Combined rotation and translation of vectors, Composite transformation, fundamental rotation matrices, Principal axes rotation, Fixed angle representation, Euler angle representation, Equivalent angle axis representation, Problems Active Learning of 3D homogeneous Transformations.
End effector for Robotics: End Effectors-classification-mechanical, magnetic, vacuum and adhesive gripper-gripper force analysis and design, Robot control-unit control system concept-servo and non-servo control of robot joints, adaptive and optimal control. 10 Hours
Unit -4
Sensors for Robotics: Sensor devices, types of sensors-contact, position and displacement sensor, Force and torque sensors- proximity and range sensors- acoustic sensors –Robot vision systems sensing and digitizing – image processing and analysis
8 Hours
Unit-5
Actuators for Robotics: Types of Robotic Actuators: hydraulic actuators, Pneumatic actuators, comparison of hydraulic and pneumatic actuators, Electric Actuators-stepper motor, DC/AC servo motors, transmission used in robotics.
8 Hours
Text Books:
1. Nagrath and Mittal, Robotics and Control Tata McGraw-Hill Education 2003 2. Mikell P. Groover, Automation, Production Systems, and Computer-Integrated
Manufacturing, 4th Edition, Pearson 2015. 3. Mikell P Groover& Nicholas G Odrey, Mitchel Weiss, Roger, N Nagel, Ashish
Dutta, Industrial Robotics, Technology, programming and Applications, McGraw Hill, 2012.
2. Experiments on 1. Stepper motor 2. Servo motors
Statics and Dynamics of Robotics
Sub Code : Credits: 4
Hrs/day: 4+0+0+0 Total Hours : 52
Unit-1
Direct Kinematics of Robot: Mechanical structure and Notations, Description of links and joints, Kinematic Modelling of the manipulator, Denavit – Hartenberg notation, Kinematic relationship between adjacent links, Manipulator transformation matrix, Problems.
10 Hours
Unit-2
Inverse kinematics of Robot: Manipulator workspace, Solvability of inverse kinematic model, Existence of solution, multiple solutions, Solution technique, closed form solution, Guidelines to obtain closed form solutions, Problems.
8 Hours
Unit-3
Manipulator Differential Motion and Statics: Linear and angular velocity of rigid body, Linear velocity, Angular velocity, Linear velocity due to angular motion, Combined linear and angular motion, Relationship between transformation matrix and angular velocity, Mapping velocity vector, Velocity propagation of a link, Angular velocity of a link, Manipulator Jacobian, Jacobian computation, The prismatic joint Jacobian, The rotary joint Jacobian, Jacobian inverse , Jacobian singularity, Computation of singularities, Wrist singularities, Arm singularities, static analysis, Force and Moment balance, The Jacobian in statics, Problems.
12 Hours
Unit-4
Robot Dynamics: Lagrangian mechanics, Two degree of freedom manipulator – dynamic model, Lagrange – Euler formulation, Velocity of a point on the manipulator, The inertia tensor, the kinetic energy, The potential energy, Equation of motion, The LE dynamic
model algorithm Derivation of Dynamic equation of motion for 2DOF and 3DOF robot configurations. 10 Hours
Unit-5
Robot Trajectory Planning: Definitions and planning tasks, Terminology, joint space techniques, Use of a p- Degree polynomial as interpolation function, Cubical polynomial trajectories, Linear function with parabolic blends, Cartesian space techniques, A straight –line path, A circular path, Position path, Orientation path, Joint-space versus Cartesian space, trajectory planning, problems. 12 Hours
Text Books:
4. Nagrath and Mittal, Robotics and Control Tata McGraw-Hill Education 2003 5. Mikell P Groover& Nicholas G Odrey, Mitchel Weiss, Roger, N Nagel, Ashish
Dutta, Industrial Robotics, Technology, programming and Applications, McGraw Hill, 2012.
Refferences:
1. Ghosal, A., Robotics: Fundamental Concepts and Analysis, Oxford University Press, 2nd reprint, 2008.
2. NPTEL online course on Robot dynamics and control.
Part A 1. Experiments on direct kinematics using pipe models of 3R, SCARA, RPY robots 2. Experiments on inverse kinematics using pipe models of 3R, SCARA, RPY
robots 3. Experiments on Linear joint Jacobian 4. Experiments on Rotary joint Jacobian
Part B 1. Experiments on Estimation of Jacobian for
1. 2R robot 2. 3R robot 3. RPY wrist
2. Experiments on Robot Singularities for 1. 2R robot 2. 3R robot 3. RPY wrist
3. Experiments on simulation of cubic polynomial trajectory 4. Experiments on simulation of trapezoidal velocity trajectory
Robotic Simulation: Introduction to different robotic simulation software, Representing a position and orientation in 2D and 3D, Combining Translation and Rotation, Moving to point, Following a line, Following a path, Moving to a pose Robot arm forward and inverse kinematic simulation, Trajectories-Joint space motion, Trajectory motion. (10 Hours)
Unit 2
Robot Controller: Introduction to IRC5 controller, General architecture of IRC5 controller, Control hardware of IRC5 controller, Control Software of IRC5 controller, Machine interfaces and Sensor Interface for IRC5 Controller [4 hours] (10 Hours)
Unit 3
Programmable Logic Controllers: Introduction to Programmable logic controller (PLC), Role in automation (SCADA), advantages and disadvantages, hardware, internal architecture, sourcing and sinking, characteristics of I/O devices, list of input and output devices, examples of applications. I/O processing, input/output UNITs, signal conditioning, remote connections, networks, processing inputs I/O addresses.
Ladder programming- ladder diagrams, logic functions, latching, multiple outputs, entering ladder programs, functional blocks, program examples, location of stop and emergency switches, Internal relays, timer and counter, Shift register and data handling. (12 hours)
Unit 4
Drive Systems for Robotics: Introduction to Stepper Motor, H Bridge Drive system for stepper motor, AC and DC servo motor, Sensor and Limit switch, Electric drive system in Robotics. (10 Hours)
Communication Systems and Protocols: Introduction to Communication Systems, Analog and Digital Communication Systems,Serial communication, Parallel Communication, Robot Communication Systems and Protocols:ProfiNET, Profibus, DeviceNET and Ethernet.
Engineering 3. “Industrial Communication Systems”, 1st Editionby Bogdan M. Wilamowski, J. David
Irwin. 4. “Communication Protocol Engineering”- 1st Edition by Miroslav Popovic 5. “Introduction to Analog and Digital Communications”, - 2nd Edition by Simon haykin 6. “Robotics,VisionandControl” Peter CorkeFundamentalAlgorithmsIn MATLAB. 7. “Field bus and network in Process Automation” Sunith Kumar Sen, CRC Press.
References:
1. http://nptel.ac.in/downloads/108105063/ 2. Deutschmann Automation User Manual Universal Filed BUS Gateway for
1. Basic Robot operation and handling 2. Robot Calibration
Calibration for base coordinate system Calibration for Tool coordinate system Calibration for work object coordinate system
3. Pick and Place using different end effectors 2 Jaw Pneumatic gripper 3 Jaw Pneumatic gripper Suction cup
4. Pick and Place using Camera 5. Position control of Stepper using Arduino micro controller 6. DC Motor forward and reverse direction control using PLC 7. ON OFF control of DC Motor using PLC 8. Latching the start with stop pushbutton to control DC motor 9. Position Control AC servo motor using PLC 10. Speed control of Servo Motor Using PLC 11. Pneumatic valve ON and OFF control Using PLC 12. Speed Control of DC Motor using PWM 13. Position Control Stepper Motor using PLC 14. Conveyor Control Using Programmable Logic Controller 15. Energizing and de-energizing relay using on-off switch 16. Control a Piezoelectric actuator using PLC
The 3 Courses are taught to the students sequentially utilizing 5 weeks/course. The corresponding Lab components are conducted parallel with the course. Weightage will be more for practical than theory. Examination will be conducted as continuous evaluation process at the end of each month.
Engine Management
Sub Code : Credits : 2
Hrs/Day:2+0+0+0 Total Hours :26
ENGINE COMPONENTS AND COOLING & LUBRICATION SYSTEMS:
SI & CI engines, Cylinder-arrangements and their relative merits, Liners, Piston, connecting rod, crankshaft, valves, valve actuating mechanisms, valve and port timing diagrams, Types of combustion chambers for S. I. Engine and C. I. Engines, Choice of materials for different engine components, engine positioning, cooling requirements, methods of cooling, thermostat valves, different lubrication arrangements
FUEL SUPPLY SYSTEMS FOR SI AND CI ENGINES: Fuel mixture requirements for SI engines, types of carburetors, C.D. & C. C. carburetors, multi point and single point fuel injection systems, CRDI, fuel transfer pumps: AC Mechanical Pump, SU Electrical Pumps, fuel injection pumps and injectors, Fuel gauge sensor, Throttle position sensor, Mass air flow sensors, Turbocharger construction and operation
Clutches- Single plate, multiplate and centrifugal clutches. Gear box: Necessity for gear ratios in transmission, Constant mesh gear box, Synchromesh gear box, over drive, fluid coupling and torque converter, Epicyclic gear box, principle of automatic transmission, Vehicle Speed Sensors, calculation of gear ratios, Numerical calculations for torque transmission by clutches.
TEXT BOOKS: 1. Automotive Mechanics by S. Srinivasan, Tata McGraw Hill, 2003 2. Automobile Engineering, Kirpal Singh, Vol I and II, 2013. REFERENCE BOOKS: 1. Automobile Engineering, R. B. Gupta, Satya Prakashan, 4th Edn., 1984 . 2. Automobile Engineering, Narang, Khanna Publishers 2002 3. Automotive Mechanics, Crouse, McGraw Hill 2002 4. Automotive Mechanics, Joseph Heithner 2000 5. Automobile Mechanics by N. K. Giri, Khanna publishers 2002 6. Newton and Steeds Motor Vehicle, Butterworth, 2nd Edn. 1989. 7. Automobile Engineering by K. K. Jain and R. B_ Arshana, Tata McGraw Hill, 2002
Practical on Engine Management
Sub Code : Credits : 4
Hrs/Day: 0+0+4+0 Total Hours :60
1. Study of Automotive - Chassis & superstructure/body and its functions. 2. Study of more commonly used tools and equipment in Automotive shop. 3. Study of carburetors and petrol & diesel fuel injection systems 4. Power train - Dismantling and assembly of single/multi cylinder Engine. 5. Power train - Study of clutch mechanism. Demonstration and study of dry friction
clutches - Single plate & multi-plate types 6. Power train - Demonstration and study of transmission system - Gear box
Propeller shaft, universal joints, Hotchkiss. and torque tube drives, differential, rear axle, different arrangements of fixing the wheels to rear axle, steering geometry, camber, king pin inclination, included angle, castor, toe-in & toe-out, condition for exact steering, steering gears, power steering, general arrangements of links and stub axle, over steer, under steer & neutral steer, Steering angle sensors, numerical problems.
SUSPENSION AND SPRINGS:
Requirements, leaf spring, coil spring, Torsion bar suspension systems, independent suspension for frontwheel, Air suspension system.
BRAKES:
Types of brakes, mechanical, compressed air, vacuum and hydraulic braking systems, construction and working of master and wheel cylinder, brake shoe arrangements, Disk brakes, Drum brakes, numerical problems related to brake torque, minimum stopping distance with brakes on front, rear and all wheels, weight transfer and heat dissipation during braking.
TYRES
Desirable tyre properties, Types of tyres.
AUTOMOTIVE EMISSION:
Automotive exhaust emissions, sources and emission control method: EGR, SCR, Emission Standards
TEXT BOOKS: 1. Automotive Mechanics by S. Srinivasan, Tata McGraw Hill, 2003 2. Automobile Engineering, Kirpal Singh, Vol I and II, 2013.
REFERENCE BOOKS: 1. Automobile Engineering, R. B. Gupta, Satya Prakashan, 4th Edn., 1984 . 2. Automobile Engineering, Narang, Khanna Publishers 2002 3. Automotive Mechanics, Crouse, McGraw Hill 2002 4. Automotive Mechanics, Joseph Heithner 2000 5. Automobile Mechanics by N. K. Giri, Khanna publishers 2002 6. Newton and Steeds Motor Vehicle, Butterworth, 2nd Edn. 1989. 7. Automobile Engineering by K. K. Jain and R. B_ Arshana, Tata McGraw Hill, 2002
Practical on Automotive Control System
Sub Code : Credits: 2
Hrs/Day: 0+0+3+0 Total Hours: 45
1. Study of cut section of wheel & tyres (bias and radial types). 2. Demonstration and study of Front axle and steering system 3. Demonstration and study of various suspension systems 4. Power train - Demonstration and study of Universal joints, propeller shaft, final drives,
differential, and rear axles 5. Demonstration and study of brake mechanism (hydraulic type) and study of disc and
drum brakes 6. Field visit to Automotive Servicing Station - Study of electrical system, wheel alignment
(measuring and adjustment of castor, camber, king-pin inclination, toe-in and toe-out), automotive emission control systems.
The matter was placed before Governing Council for its approval.
GC/49-08/18: Institute-Industry Collaboration Initiatives Note: Dr. A.N.Parameswaran, Director Industry-Institute Collaboration presented the Institute-Industry Collaboration initiatives. The matter was placed before Governing Council for its information and approval.
Resolution: GC Noted the same.
GC/49-09/18: Any other matter with the permission of the Chair. For information:
Graduation day will be held on 7th July 2018. Member Secretary invited all Members for Graduation day to be held on 7th July 2018.
Dr. K. Chidananda Gowda, Former Vice Chancellor, Kuvempu University will be the
Chief Guest for the function.
Induction program for 1st years from 29th July to 15th August 2018.
(3 weeks)
Member Secretary gave details about the Induction program that will be conducted as