Applied Engineering Mathematics




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Devadas shetty, Richard A Kolk, Mechatronics system Design, PWS Publishing company,1998
  • D.A. Bradly, D. Dawson, N.C. Burd and A.J. Loader, Mechatronics – Electronics in products and prorcesses. Chapman and Hall, 1993.

  • Robert H. Bishop. Editor-in-chief. “The Mechatronics Handbook”, CRC Press, with ISA – The Instrumentation, Systems, Automation Society, 2002.



    P2CCB09 ADVANCED MATERIAL SCIENCE L T P C

    3 1 0 4

    OBJECTIVES:


    • To give review of mechanical behavior of materials.

    • To gain knowledge in alloys, treatments of materials for surface modification.

    • To know about non metallic materials and modern materials.


    UNIT- I

    Review Of Mechanical Behavior Of Materials 9

    Plastic deformation in poly phase alloys - Strengthening mechanisms - Griffith's theory of failure modes – Brittle and ductile fractures - Damping properties of materials - fracture toughness - Initiation and propagation of fatigue cracks - Creep mechanisms - Hydrogen embitterment of metals, Selection of materials for various applications.


    UNIT- II

    Engineering Alloys 9

    Cast iron , steels , alloy steels and stainless steels – an overview of phases and microstructure, types, specifications applications, heat treatment, effect of alloying elements, Aluminum, Magnesium and Ti wrought and cast alloys used in engineering applications –Types, specifications, applications, heat treatment , Nano coating.

    UNIT -III

    Introduction to Surface engineering 9

    Mechanical surface treatment and coating - Friction, Wear, Hardness, Toucgness - Case hardening and hard facing - thermal spraying – vapour deposition-ion implantation - Diffusion coating - Electroplating and Electrolysis - Conversion coating - Ceramic and organic coatings – Diamond coating


    UNIT- IV

    Nonmetallic Materials 9

    Composite materials, ceramics, plastics -Introduction, an overview of processing, their characteristic features, types and applications


    UNIT- V

    Introduction To Modern Materials 9

    Super alloys- Refractory metals - Shape memory alloys- Dual phase steels, Micro alloyed, High strength low alloy steel, Transformation induced plasticity (TRIP) steel, Maraging steel –SMART materials, Green materials, Nano materials, Metallic glass


    TOTAL : 45+15 (Tutorial) = 60 periods

    REFERENCES


    1. Callister W.D. (2006) "Material Science and Engineering- An introduction", Wiley –Eastern.

    2. Raghavan, V., (2003) "Physical Metallurgy", Prentice Hall of India.

    3. Thomas H. Courtney, (2000) "Mechanical Behavior of Materials", McGraw Hill,.

    4. Flinn R. A. and Trojan P. K., (1999)"Engineering Materials and their Applications", Jaico.

    5. KENNETH BUDINSKI – (1988) "Surface Engineering for wear resistance ", Prentice Hall.

    6. Avner S.H., (2006) "Introduction to physical metallurgy" –Tata McGraw hill



    P2CCB10 COMPUTER AIDED MANUFACTURING LAB L T P C

    0 0 3 2

    OBJECTIVES:


    • To gain knowledge on NC tool system with metal cutting and process planning.

    • To impart knowledge on surface modeling software and high speed machining in unigraphics.

    • To generate CNC program for DECKEL MAHO machining centre.


    Contents 


    • NC programming

    • Metal cutting

    • Generation of manufacturing drawings

    • Process planning

    • Part program

    • Generate CNC program for DECKEL MAHO 3 axis machining centre

    • Evaluate High speed machining in Unigraphics

    • Know about knowledge ware in Machining processes

    • Introduction To Robotics


    Introduction to numerical control- coordinate systems, tooling, tool changing, tool storage, tool offset, linear, circular interpolation, fixed cycles; fundamentals of metal cutting, cutting tool materials and cutting fluids, machining centers & machine tool structures; generating manufacturing drawings using Solidworks , CATIA & Unigraphics - engine cover, crank case, cylindrical clutch plate, wheel hub, engine blocks; process planning CAM using SOLIDCAM, and CIMATRON; Computer Aided Manufacturing and Virtual Machining; Introduction to Rapid Prototyping Technologies.


    Manual part programming for lathe and milling machine; NC parameters for 3D machining, CNC code generation by using CAM software, simulation of machining operation using any CAM softare, generating RP parts using 3D printer; a study on multi axis machining in CATIA and Unigraphics; a study of GRIP and UFUNC in Unigraphics; evaluation of high speed machining in Unigraphics; knowledge ware in machining processes.


    INTRODUCTION TO ROBOTICS


    • Study of characterstics of rotary, linear joints & 2Jaw Gripper.

    • Programming Robot arm for straight line motion.

    • Programming Robot arm for Zig Zag motion.



    REFERENCES


    1. David Bedworth, "Computer Integrated Design and Manufacturing", TMH, New Delhi, 1998.

    2. Yorem Koren, "Computer Integrated Manufacturing Systems", McGraw Hill, 1983.

    3. Ranky, Paul G., "Computer Integrated Manufacturing", Prentice Hall International 1986.

    4. R.W. Yeomamas, A. Choudry and P.J.W. Ten Hagen, "Design rules for a CIM system", North Holland Amsterdam, 1985.

    5. SolidCAM Help Manual.

    6. CIMATRON Help Manual.

    7. ProE Help Manual.

    ELECTIVE I


    PECCB13 RELIABILITY ENGINEERING L T P C

    3 0 0 3

    OBJECTIVES:


    • To gain knowledge in reliability data analysis, prediction models and reliability management.


    UNIT -I

    Reliability Concept 9

    Reliability function - failure rate - Mean Time Between Failures (MTBF) - Mean Time to Failure (MTTF) - a priori and a posteriori concept - mortality curve - useful life availability - maintainability - system effectiveness.


    UNIT- II

    Reliability Data Analysis 9

    Time-to-failure distributions - Exponential, normal, Gamma, Weibull, ranking of data - probability plotting techniques - Hazard plotting


    UNIT –III

    Reliability Prediction Models 9

    Series and parallel systems - RBD approach - Standby systems - m/n configuration - Application of Baye's theorem - cut and tie set method - Markov analysis - FTA - Limitations.


    UNIT –IV

    Reliability Management 9

    Reliability testing - Reliability growth monitoring - Non parametric methods - Reliability and life cycle costs - Reliability allocation - Replacement model


    UNIT- V

    Risk Assessment 9

    Definition and measurement of risk - risk analysis techniques - risk reduction resources - industrial safety and risk assesment.


    TOTAL : 45 periods


    REFERENCES


    1. Modarres, " Reliability and Risk analysis ", Mara Dekker Inc., 1993.

    2. John Davidson, “The Reliability of Mechanical system ", Institution of 3.

    3. MechanicalEngineers,London, 1988.

    C.O. Smith" Introduction to Reliability in Design ", McGraw Hill, London, 1976.


    PECCB14 MANUFACTURING SYSTEM AND SIMULATION L T P C

    3 0 0 3


    OBJECTIVES:


    • To know about computer modeling and simulation system.

    • To study about Random numbers and Random variable generation.

    • To study about random variable generation types of dissimulation and discrete event simulation.


    UNIT- I

    Computer Modeling And Simulation System 9

    Introduction to simulation- steps in simulation-nature of computer modeling and simulation- types of models- Monte Carlo simulation, limitation of simulation, areas of application, examples. Components of a system- discrete and continuous systems- Examples, Model of a system-variety of modeling approaches.


    UNIT- II

    Random Number Generation 9

    Properties of random numbers, Random number generation techniques-the mid product method- constant multiplier technique- additive congruential method- linear congruential method, Test for random numbers- frequency tests- test for autocorrelation.


    UNIT- III

    Random Variable Generation 9

    Random variable generation –inverse transform technique- exponential distribution – uniform distribution- Weibull distribution- triangular distribution. Empirical continuous distribution- generating approximate normal variates- Erlang distribution.


    UNIT- IV

    Distribution And Evaluation Of Experiments 9

    Discrete uniform distribution- Poisson distribution- geometric distribution- acceptance and rejection technique for poisson , gamma distribution. Variance reduction techniques- antithetic variables- Validation of simulation models- Verification of simulation models.


    UNIT- V

    Discrete Event Simulation 9

    Concepts in discrete-event simulation- manual simulation using event scheduling, simulation of queuing system, simulation of inventory systems. Simulation of manufacturing and material handling systems. Introduction to Simulation packages – simulation using spreadsheet, SimQuick, WITNESS, ARENA, GPSS. Programming for discrete event systems in GPSS- case studies.


    TOTAL : 45 periods


    REFERENCES


    1.Jerry Banks, John S. Carson II and Barry L. Nelson. “Discrete- Event System Simulation”. Prentice hall Inc.1984.

    2.G. Gordon, “ System Simulation” Prentice hall Inc.1991.

    3.Francis Neelamkovil, “Computer Simulation and Modeling.” John wiley & Sons, 1987.

    4.Narsing Deo, “ System Simulation with Digital Computer.’ Prentice hall of India, 1979.

    5.Ruth M. Davis and Robert M.O’ keefe, “ Simulation Modeling with Pascal.” Prentice hall inc, 1989.

    PECCB15 DESIGN FOR MANUFACTURING L T P C

    3 0 0 3

    OBJECTIVES:


    • To gain knowledge about factors such as design, casting corridenation, machining corrideration in manufacturing units.

    • To know about few case studies in manufacturing systems.


    UNIT- I

    Introduction 9

    General design principles for manufacturability - strength and mechanical factors, mechanisms selection,

    evaluation method, Process capability - Feature tolerances - Geometric tolerances - Assembly limits – Datum features - Tolerance stacks


    UNIT- II

    Factors Influencing Form Design 9

    Working principle, Material, Manufacture, Design - Possible solutions - Materials choice - Influence of materials on from design - from design of welded members, forgings and castings.


    UNIT –III

    Component Design-Machining Consideration 9

    Design features to facilitate machining - drills - milling cutters - keyways - Doweling procedures, counter sunk screws - Reduction of machined area - simplification by separation - simplification by amalgamation - Design for machinability - Design for economy - Design for clampability - Design for accessibility - Design for assembly


    UNIT -IV

    Component Design - Casting Considerations 9

    Redesign of castings based on parting line considerations - Minimizing core requirements, machined holes, redesign of cast members to obviate cores.


    UNIT –V

    Redesign For Manufacture And Case Studies 9

    Identification of uneconomical design - Modifying the design - group technology - Computer Applications for DFMA


    TOTAL : 45 periods

    REFERENCES


    1. Harry Peck, "Design for Manufacture", Pittman Publication, 1983.

    2. Robert Matousek, "Engineering Design - A systematic approach", Blackie & Sons Ltd., 1963.

    3. James G. Bralla, "Hand Book of Product Design for Manufacturing", McGraw Hill Co., 1986.

    4. Swift K.G., "Knowledge based design for manufacture, Kogan Page Ltd., 1987.


    PECCB16 COMPUTER INTEGRATED DESIGN L T P C

    3 0 0 3

    OBJECTIVES:


    • To know about design and details of shaft.

    • To gain knowledge about types of gears used and gear boxes.

    • To know about clutches, design and thermal aspect of brakes.


    UNIT -I

    Introduction 9

    Phases of design - Standardization and interchangeability of machine elements - Tolerances for process and function - Individual and group tolerances - Selection of fits for different design situations - Design for assembly and modular constructions - Concepts of integration.


    UNIT- II

    Shafting 9

    Analysis and design of shafts for different applications - detailed design - preparation of production drawings -Integrated design of shaft, bearing and casing - Design for rigidity.


    UNIT- III

    Gears And Gear Boxes. 9

    Principles of gear tooth action - Gear correction - Gear tooth failure modes - Stresses and loads – Component design of spur, helical, bevel and worm gears - Design for sub assembly - Integrated design of speed reducers and multispeed gear boxes - application of software packages.


    UNIT- IV

    Clutches 9

    Integrated design of automobile clutches and over running clutches.


    UNIT- V

    Brakes 9

    Dynamic and thermal aspects of vehicle braking - Integrated design of brakes for machine tools, automobiles and mechanical handling equipments

    TOTAL : 45 periods


    REFERENCES



    1. Newcomb, T.P. and Spur, R.T. , "Automobile brakes ad braking systems", Chapman and Hall ,2nd Edition , 1975.

    2. Juvinall, RL.C. ,"Fundamentals of Machine Component Design", John Wiley ,1983.

    3. Maitra G.M. , "Hand Book for Gear Design", Tata McGraw Hill , 1985.

    4. Shigley , J.E. ,"Mechanical Engineering Design ", McGraw Hill , 1986.


    PECCB17 METROLOGY AND NON DESTRUCTIVE TESTING L T P C 3 0 0 3


    UNIT I

    MEASURING MACHINES 9

    Tool Maker's microscope - Co-ordinate measuring machines - Universal measuring machine - Laser viewers forproduction profile checks - Image shearing microscope - Use of computers - Machine vision technology -Microprocessors in metrology.


    UNIT II

    STATISTICAL QUALITY CONTROL 9

    Data presentation - Statistical measures and tools - Process capability - Confidence and tolerence limits - Controlcharts for variables and for fraction defectives - Theory of probability - Sampling - ABC standard – Realibility and life testing.


    UNIT III

    LIQUID PENETRANT AND MAGNETIC PARTICLE TESTS 9

    Characteristics of liquid penetrants - different washable systems - Developers - applications - Methods of

    production of magnetic fields - Principles of operation of magnetic particle test - Applications - Advantages and limitations.


    UNIT IV

    RADIOGRAPHY 9

    Sources of ray-x-ray production - properties of d and x rays - film characteristics - exposure charts - contrasts -operational characteristics of x ray equipment - applications.


    UNIT V

    ULTRASONIC AND ACOUSTIC EMISSION TECHNIQUES 9

    Production of ultrasonic waves - different types of waves - general characteristics of waves - pulse echo method- A, B, C scans - Principles of acoustic emission techniques - Advantages and limitations - Instrumentation - applications.


    TOTAL : 45 periods


    References:

    1. JAIN, R.K. " Engineering Metrology ", Khanna Publishers, 1997.

    2. Barry Hull and Vernon John, " Non Destructive Testing ", MacMillan, 1988.

    3. American Society for Metals, " Metals Hand Book ", Vol.II, 1976.

    4. Progress in Acoustic Emission, " Proceedings of 10th International Acoustic Emission Symposium ",Japanese Society for NDI, 1990.


    Web References:

    1. www.metrologytooling.com

    2. www.sisndt.com

    3. www.iuk'tu-harburg.de


    ELECTIVE II, III, IV

    PECCB18 CONCURRENT ENGINEERING L T P C

    3 0 0 3


    OBJECTIVES:


    • To gain insight on information technology uses, manufacturing concepts and project management.


    UNIT –I

    Introduction 9

    Extensive definition of CE - CE design methodologies - Organizing for CE - CE tool box collaborative product development


    UNIT- II

    Use Of Information Technology 9

    IT support - Solid modeling - Product data management - Collaborative product commerce - Artificial Intelligence - Expert systems - Software hardware co-design.


    UNIT- III

    Design Stage 9

    Life-cycle design of products - opportunity for manufacturing enterprises - modality of CE Design - Automated analysis idealization control - Concurrent engineering in optimal structural design - Real time constraints.


    UNIT -IV

    Manufacturing Concepts And Analysis 9

    Manufacturing competitiveness - Checking the design process - conceptual design mechanism – Qualitative physial approach - An intelligent design for manufacturing system - JIT system - low inventory - modular - Modeling and reasoning for computer based assembly planning - Design of Automated manufacturing.


    UNIT -V

    Project Management 9

    Life Cycle semi realization - design for economics - evaluation of design for manufacturing cost – concurrent mechanical design - decomposition in concurrent design - negotiation in concurrent engineering design studies - product realization taxonomy - plan for Project Management on new product development – bottleneck technology development.

    TOTAL : 45 periods


    REFERENCES


    1. Anderson MM and Hein, L. Berlin, "Integrated Product Development", Springer Verlog, 1987.

    2. J. Cleetus "Design for Concurrent Engineering", Concurrent Engg. Research Centre, Morgantown, WV, 1992.

    3. Andrew Kusaik, "Concurrent Engineering: Automation Tools and Technology", Wiley, John and Sons Inc., 1992.

    4. Prasad, "Concurrent Engineering Fundamentals: Integrated Product Development", Prentice Hall, 1996.

    5. Sammy G Sinha, "Successful Implementation of Concurrent Product and Process", Wiley, John and Sons Inc., 1998.

    PECCB19 INDUSTRIAL ROBOTICS L T P C 3 0 0 3

    OBJECTIVES:


    • To gain knowledge of robots used in industrial.

    • To understand drives, control, end effectors, sensors in robotics.

    • To gain knowledge in programming of robots.


    UNIT- I

    Basic Of Robotics 9

    Definition, need and scope of industrial robots– Classification - selection of robot - Robot anatomy - Robot configurations - work volume - Precision movement - Basic robot motions - safety considerations


    UNIT- II

    Robot Kinematics And Dynamics 9

    Robot kinematics - Direct and inverse kinematics- Vector operations - Translational transformations and Rotational transformations - Properties of transformation matrices-Homogeneous transformations and Manipulator - Forward solution - Inverse solution-Trajectory planning - Differential kinematics & statics - Robot dynamics -Methods for orientation and location of objects - Rigid body mechanics.


    UNIT- III

    Drives, Controls And Robot End Effectors 9

    Design of drive systems-Hydraulic and Pneumatic drives-Linear and rotary actuators and control valves-Electro hydraulic servo valves - electric drives. End effectors design - Mechanical - Magnetic -Vacuum - Adhesive - air operated grippers. Force analysis and Robot motion control - Adaptive and optimal control - electronic control- feedback control- interfacing.


    UNIT -IV

    Sensors In Robotics And Applications 9

    Robot position sensors - proximity and range sensors – tactile sensors – velocity and acceleration sensors - force and torque sensing devices- sensing joint forces and slip. Robot work cell design - Robot cell layouts -Multiple robots and machine interference-Robot cycle time analysis-Industrial applications of robots - material handling - processing - assembly and inspection- tele operations


    UNIT- V

    Programming Of Robots And Vision Systems 9

    Robot programming methods and languages - lead through programming -Motion interpolation. Computer control and Robot Softwares - task planning. Robotic vision system-Image components and representation - Hardware - Image processing and analysis- Object recognition and categorization- Image segmentation- Software consideration- Training of vision system. Robot intelligence-Artificial intelligence techniques - problems representation in AI - Problem reduction and solution techniques - Application of AI and knowledge based expert systems in robots.

    TOTAL : 45 periods


    REFERENCES


    1. Groover M.P., "Industrial robotics Technology, programming and applications", McGraw-Hill Book Co., 1995.

    2. Fu K.S., Gonzalez R.C., and Lee C.S.G., " Robotics control, sensing, vision and intelligence ", McGraw-Hill Book Co., 1987.

    3. R.D. Klafter, T.A. Chmielewski and M. Negin, " Robot Engineering An Intergrated approach ", Prentice Hall of India, New Delhi, 1994.

    4. S. R. Deb, “Robotics Technology and Flexible Automation ", Tata McGraw-Hill Publishing Co., Ltd., 1994.

    5. J.J. Craig, " Introduction to Robotics Mechanics and Control ", Addison-Wesley, 1999.

    6. Kozyrey,Yu."Industrial Robotics", MIR Publishers Moscow,1985.

    7. Mikell, P. Groover, Mitchell Weis, Roger, N. Nagel, Nicholas G.Odrey" Industrial Robotics

    8. Technology, Programming and Applications", McGraw Hill,Int.,1986

    9. Timothy Jordonides etal, "Expert Systems and Robotics", Springer-Verlag, NewYork, May 1991.


    PECCB20 DESIGN OF HYDRAULIC AND PNEUMATIC SYSTEMS L T P C

    3 0 0 3

    OBJECTIVES:


    • To understand hydraulic systems and actuators.

    • To understand hydraulic circuit design and control.

    • To gain knowledge in pneumatic systems, installation and it’s maintenance.


    UNIT- I

    Hydraulic Systems And Actuators 9

    Basic principles-Hydraulic Principles. Hydraulic Power Generators - Selection and specification of pumps, pump characteristics. Hydraulic Actuators – Linear, Rotary - Selection –Characteristics

    UNIT- II

    Control And Regulation Elements 9

    Hydraulic Valves: Pressure, Flow, Direction Controls- proportional control valve. Fluid power symbols.

    UNIT –III

    Design Of Hydraulic Circuits 9

    Hydraulic circuits:- Reciprocating, Quick return, Sequencing, synchronizing and other industrial circuits like press circuits - hydraulic milling machine - grinding, planning, copying, forklift, earth mover circuits - design and selection of components - safety and emergency mandrels.

    Design of Hydraulic circuits – Selection and sizing of components-calculation of frictional head loss-equivalent length for various components- actuator load calculation- pump sizing

    UNIT- IV

    Pneumatic Systems And Circuits 9

    Pneumatic system fundamentals: FRL, actuators and valves. Logic Circuits - Position - Pressure Sensing, switching, electro-pneumatic. Design of Pneumatic circuits using– Karnaugh maps. Cascade-Step counter

    UNIT- V

    Installation, Maintenance And Special Circuits 9

    Pneumatic equipments - selection of components - design calculations -application - fault finding – hydro pneumatic circuits - use of microprocessors for sequencing - PLC, Low cost automation - Robotic circuits.


    TOTAL : 45 periods


    REFERENCES


    1. S. R. Majumdar, “Oil hydraulics and Pneumatics”, Tata McGraw Hill, 2003.

    2. W Bolton “Pneumatic and hydraulic systems”, Butterworth Heinemann, 1997.

    3. Anthony Esposite, “Fluid Power with Applications”, Pearson Education,2000.

    4. J Michael, Pinches and John G Ashby, “Power Hydraulics”, Prentice Hall, 1989.

    5. Andrew Parr, “Hydraulics and Pneumatics”, Jaico, 1999.

    6. Dudleyt A Pease and John J Pippenger, “Basic Fluid Power” , Prentice Hall, 1987.



    PECCB21 DESIGN OF MATERIAL HANDLING EQUIPMENTS L T P C

    3 0 0 3

    OBJECTIVES:


    To learn

    • Material handling equipment in industries.

    • Design of hoists elements.

    • Design and types of conveyors and elevators.


    UNIT –I

    Materials Handling Equipment 9

    Material handling equipment: fixed path equipment - conveyors, sorting consolidating and diverting devices, cranes-Automatic Storage and Retrieval System - Magnetic handling systems, AGV, robotics and mobile material handling , etc., Types, selection and applications.


    UNIT- II

    Design Of Hoists 9

    Design of hoisting elements: Welded and roller chains - Hemp and wire ropes - Design of ropes, pulleys, pulley systems, sprockets and drums, Load handling attachments. Design of forged hooks and eye hooks - crane grabs - lifting magnets - Grabbing attachments - Design of arresting gear - Brakes: shoe, band and cone types.


    UNIT –III

    Drives Of Hoisting Gear 9

    and and power drives - Traveling gear - Rail traveling mechanism - cantilever and monorail cranes - slewing, jib and luffing gear - cogwheel drive - selecting the motor ratings.


    UNIT- IV

    Conveyors 9

    Types - description – design and applications of Belt conveyors, apron conveyors and escalators Pneumatic conveyors, Screw conveyors and vibratory conveyors


    UNIT- V

    Elevators 9

    Bucket elevators: design - loading and bucket arrangements - Cage elevators - shaftway, guides, counter weights, hoisting machine, safety devices - Design of form lift trucks.


    TOTAL : 45 periods


    REFERENCES


    1. N. Rudenko, “Materials handling equipment”, ELnvee Publishers, 1970.

    2. A. O. Spivakovsy and V. K. Dyachkov, “Conveying Machines”, Volumes I and II, MIR Publishers, 1985.

    3. M. Alexandrov, M., Materials Handling Equipments, MIR PUblishers, 1981.

    4. 4.A. Boltzharol, “Materials Handling Handbook”, The Ronald Press Company, 1958.



    PECCB22 DATA COMMUNICATION IN CAD/CAM L T P C

    3 0 0 3

    OBJECTIVES:


    • To impart knowledge on digital computer, operating system and microprocessors.

    • To know about networking and computer networks.


    UNIT-I

    Digital Computers And Microprocessors 9

    Digital computer-block diagram-digital components-register transfer and micro operations-instruction code-training and control instruction cycle-I/O Interrupt design of basic computer. Machine language-assembly language-the assembler. Registers ALU and Bus systems-timing and control-machine cycle and timing diagram. History of microprocessors -block diagram of 8086 and its functions and operation. Features of Pentium Processors


    UNIT- II

    Operating Systems And Environments 9

    Operating systems-types-functions-UNIX & WINDOWS NT-Architecture-GUI. Compliers-Analysis of the source program-the phases of a complier-cousin of the complier, the grouping of phases-complier construction tools.

    UNIT- III

    Communication Model 9

    Overview of Data communication and Networking-Analog / Digital signals and transmission-protocols and architecture-data communication concepts and terminology-network topologies and transmission media-wireless transmission-data encoding-asynchronous and synchronous communication-Physical layer standards-RS 232C, RS 449, RS442A.

    UNIT –IV

    Computer Networks 9

    Evolution of computer networks-LAN and WAN Layered networks-architecture-the OSI reference model services-network standardization-case studies-managing remote systems in network-file systems-networking in manufacturing.

    UNIT- V

    Internet 9

    Internet-basic concepts-internet services-protocols-intranet services-mail based services-system and network requirements-internet tools-Usenet-E-mail-IRC-www-FTP-Telnet

    TOTAL : 45 periods


    REFERENCES


    1. R.S. Goankar, “Microprocessor Architecture, Programming and Applications of 8085’, Penram International, 1997.

    2. M. Morris Mano, “Computer System Architecture’, Prentice Hall of India, 1996.

    3. Alfred V. Aho, Ravi Sethji, Jeffrey D Ullman, “Compliers Principles Techniques and Tools”, Addison 3.Welley, 1986.

    4. J.L. Peterson, P. Galvin and A. Silberschaz, “Operating Systems Concepts “,Addison Welley, 1997.

    5. William Stallings, “Data of Computer Communications” Prentice Hall of India, 1997.

    6. Andrew S. Tanenbanum “Computer Networks”, Prentice Hall of India 3rd Edition, 1996.

    7. Christian Crumlish, “The ABC’s of the Internet’, BPB Publication, 1996.



    PECCB23 PERFORMANCE MODELING AND ANALYSIS OF MANUFACTURING SYSTEMS L P C

    3 0 0 3

    OBJECTIVES:


    • To gain knowledge about manufacturing systems and simulations.

    • To know about queuing models and networks in manufacturing.

    • To know about petri nets in manufacturing systems.


    UNIT- I

    Manufacturing Systems And Simulation 9

    Modeling automated manufacturing systems- role of performance modeling-performance measures- performance modeling tools- Simulation models- Analytical models. Automated manufacturing systems- introduction- product cycle-manufacturing automation- Economics of scale and scope. Manufacturing system- input-output model- plant configurations. Performance measures- manufacturing lead time- work in process-machine utilization- throughput- capacity- flexibility- performability- quality. Computer control system- control system architecture- factory communications- local area networks- factory networks- open system interconnection model- net work to network interconnections- manufacturing automation protocol- data base management system.


    UNIT- II

    Manufacturing Process 9

    Examples of Stochastic processes- Poison process, Discrete time Markov Chain models- Definitions and notation- Sojourn Times in States- Examples of DTMCs in manufacturing- Chapman-Kolmogorov equation- Steady state analysis. Continuous Time Markov chain models- Definition and notation-Sojourn times in states- Examples of CTMCs in manufacturing- Equation for CTMC evolution- Markov model of a transfer line- Birth and Death Process in manufacturing.


    UNIT- III

    Queuing Models 9

    Notation for queues- Examples of queues in manufacturing-Performance measures-the M/M/m queue- queues with general distributions- queues with breakdowns- Analysis of a flexible machining center


    UNIT- IV

    Queuing Networks 9

    Examples of queuing network models in manufacturing- Little’s Law in queuing networks- Open queuing network- closed queuing networks- Product form queuing networks.


    UNIT –V

    Petri Nets 9

    Classical Petri nets- Stochastic Petri net- Generalized stochastic Petri nets modeling of KANBAN system- Manufacturing models.

    TOTAL : 45 periods

    REFERENCES

    1. 1.N. Viswanadham and Y. Narahari “Performance Modeling of Automated Manufacturing Systems”. Prentice hall of India, New Delhi, 1994.

    2. 1.K.S. Trivedi, “Probability and Statics with Reliability, Queuing and Computer Science Applications,” Prentice Hall, New Jersey, 1982.

    3. 2.S.C. Gupta and V.K. Kapoor, “ Fundamentals Mathematical Statics”, 3rd Edition, Sulton Chand and Sons, New Delhi, 1988

    PECCB24 ADVANCED VIBRATION ENGINEERING L T P C

    3 0 0 3

    OBJECTIVES:


    • To understand single and multi degree of freedom.

    • To know about continuous and torsional vibration in bars and beams.

    • To gain knowledge in non-linear and random virabtion.


    UNIT -I

    Single And Two Degrees Of Freedom System 9

    Introduction to free, forced, transient and damped vibrations, terminology and applications. Discrete systems – single degree and two degree systems, response to free forced motions (steady state and transient) applications to vibration isolation and absorption.


    UNIT –II

    Several Degrees Of Freedom 9

    Multi degree systems – techniques of analysis such as Dunkerley, Rayleigh, Holzer, Matrix iteration, Transfer matrices and modal analysis


    UNIT- III

    Continuous And Torsional Vibration 9

    Continuous systems Free and forced vibrations of bars for longitudinal, shear, torsional and transverse vibrations, Beams with attached masses rotor dynamics and FEM applications.


    UNIT- IV

    Non-Linear Vibrations 9

    Non-linear vibrations, jump phenomenon and stability. Applications including self excited and parameter excited vibrations.


    UNIT- V

    Random Vibrations 9

    Random vibrations – stationary and non-stationary, ergodic systems, response of single degree systems to random excitation.


    TOTAL : 45 periods

    REFERENCES


    1. W. T. Thomson, “ Theory of Vibration” Kluwer Academic Pub; 4th edition , 1999.

    2. TSE, Morse and Hinkel, “Mechanical Vibrations”, Chapman and Hall, 1991.

    3. Den Hartong, “ Mechanical Vibrations”, McGraw Hill, 1986.

    4. V.P.Singh, Dhanput Rai & Co., “Mechanical vibrations”. 1988.

    5. S.Timoshenko, D.H.Young , “Vibrations Problems in Engineering”, D.Van Hostrand Company, Inc, Afiliated east-west press Pvt. Ltd., 1991.



    PECCB25 COMPUTATIONAL FLUID DYNAMICS L T P C

    3 0 0 3


    OBJECTIVES:


    • To develop finite difference and finite volume discretized from CFD.

    • To formulate and implicit algorithms for solving the Euler equations and navier storves equations.


    UNIT –I

    Governing Differential Equation And Finite Difference Method 9

    Classification, Initial and Boundary conditions, Initial and Boundary value problems. Finite difference method, Central, Forward, Backward difference, Uniform and non-uniform Grids, Numerical Errors, Grid Independence Test.


    UNIT- II Conduction Heat Transfer 9

    Steady one-dimensional conduction, Two and Three dimensional steady state problems, Transient one dimensional problem, Two-dimensional Transient Problems.


    UNIT- III

    Incompressible Fluid Flow 9

    Governing Equations, Stream Function - Vorticity method, Determination of pressure for viscous flow, SIMPLE Procedure of Patankar and Spalding, Computation of Boundary layer flow, Finite deference approach


    UNIT -IV 9

    Steady One-Dimensional and Two-Dimensional Convection - Diffusion, Unsteady one-dimensional convection -Diffusion, Unsteady two-dimensional convection - Diffusion - Introduction to finite element method - Solution of steady heat conduction by FEM - Incompressible flow - Simulation by FEM.


    UNIT- V 9

    Algebraic Models - One equation model, K-I Models, Standard and High and Low Reynolds number models,Prediction of fluid flow and heat transfer using standard codes.


    TOTAL : 45 periods


    REFERENCES


    1. Muralidhar, K.,and Sundararajan,T., "Computational Fluid Flow and Heat Transfer", Narosa Publishing House, New Delhi1995.

    2. Ghoshdasdidar, P.S., "Computer Simulation of flow and heat transfer", Tata McGraw-Hill Publishing Company Ltd., 1998.

    3. Subas, V. Patankar "Numerical heat transfer fluid flow", Hemisphere Publishing Corporation, 1980.

    4. Taylor, C and Hughes J.B., Finite Element Programming of the Navier Stock Equation, Pineridge Press Ltd.,U.K.1981.

    5. Anderson, D.A.,Tannehill, I.I., and Pletcher, R.H., Computational Fluid Mechanics and Heat Transfer, Hemishphere Publishing Corporation, New York, USA, 1984.

    6. Fletcher, C.A.J.,"Computational Techniques for Fluid Dynamics 1" Fundamental and General Techniques, Springer-Verlag,1987.



    PECCB26 INTELLECTUAL PROPERTY RIGHTS  L T P C

    3 0 0 3

    Objective:

    • To understand the technicalities in the development, recognition and ownership of intellectual Property assets.

    • To introduce IPR as a concept, and provide a different form of Intellectual Property Rights, copyright, Trademark, Industrial Design and Geographical Indications. Trade Secrets, Biodiversity and Information Technology related areas.

    • To gain insight about the challenges faced in the practical enforcement of these rights


    UNIT -I 9

     Fundamentals of IPR

    Introduction to IPR - Need for IPR - General framework of IPR - IPR Legislations in India - Agreement on Trade-related aspects of IPR – WIPO - Consequences of IPR Protection in developing Countries - Practical IPR issues in developing business plan 


    UNIT- II 9

     Patents and Design

    Patents and Patent information - Need for Patent - Patentable and Non- Patentable Invention - Types of Patent application in India - PCT System - Guidelines for Registration of Patent - Patent filing, Opposition and Grand - Concept of design - Design Act 2000 - Need for protection of design - Essential Requirements for Registration of Design - Procedure for Registration of Design 


    UNIT- III 9

    Trademark and Integrated Circuits

    Concept, Purpose, Characteristics and functions of Trademark - Trademark Act - Trademark Search - Trade Secret - Guidelines for Registration of Trademark - Registration Procedure - NICE Classification - Collective Trademark - Community Trademark - Sales, Transfer and Licensing of Trademark - Concept of Integrated Circuit Layout design - Registration of Integrated Circuit Layout design - Semiconductor Chip Protection 


    UNIT- IV 9

     Copyright and Geographical Indications

    Concept of Copyright - Works Protected and Not Protected by Copyright - India Copyright Law - Rights Conferred by Copyright - Copyright infringement - Computer Program and Database Copyright - Registration of Copyright in India - Copyright in Digital era - Concept of Geographical Indications - Geographical Indications Act - Filling and Granting of Geographical Indications in India -  Registration of Geographical Indications in India

      
     UNIT- V 9

     IPR Management

    IPR Audit - Trademark Audit - Range of IP Services - Classification of IP Services - IPR Regime - Important Principles of IP Management Sectoral IPR 

    TOTAL : 45 periods
  • 1   2   3   4

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