EE 8th sem Power System Analysis & Control Syllabus RGTU/RGPV EE801 Power System Analysis & Control Syllabus

EE 8th sem Power System Analysis & Control Syllabus RGTU/RGPV EE801 Power System Analysis & Control Syllabus

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RGTU/RGPV EE801 Power System Analysis & Control Syllabus
RGTU/RGPV Power System Analysis & Control SYLLABUS
Electrical Engineering EE 8th Semester Syllabus

PROGRAMME:  B.E. Electrical  Engineering, VIII Semester 
Course: EE801 Power System Analysis & Control

Unit-I   General  -  Problems associated with modern interconnected power Systems, deregulation, power systems restructuring, distributed generation, congestion, available  transfer capacities, pricing of energy and transmission services.

Unit-II     Power flow studies - Formulation of static power flow equations and solutions using Gauss- Seidel, Newton Raphson and FDLF methods, comparison of these methods, Economic operation of power system - Economic dispatch, Emission dispatch, line loss, ITL, economic dispatch using lagrangian multiplier method.

Unit-III   MW Frequency control-  Coherency, control area, modeling of speed control mechanism, load  damping, block diagrammatic   representation of single  and  two area interconnected system, static and dynamic response, .optimum parameter  adjustment.

Unit-IV   MVAR Voltage control Problem- Difference in control strategy over MW  – f control, characteristics of an excitation system, DC AC and static excitation system, General block diagram representation of voltage  regulators. 

Unit-V   Power System Stability - Steady state, dynamic and transients stability, Swing equation , equal area criterion, solution of swing equation using step by step method modified Eulers method and Rnge-Kutta method, methods of improving  transient stability.

EE801 Power System Analysis & Control Reference Books :
1.  Modern Power System Analysis-by I.J. Nagrath &  D.P. Kothari Tata Mc Graw – Hill Publication Company Ltd 2nd edition.
2.  Electrical Power Systems-by C.L. Wadhwa New Age International (P) Limited Publishers, 2nd edition 1998.
3.  Reactive power Control in Electric Systems-by T.J.E. Miller, John Wiley & Sons.
4.  T.K. Nagsarkar, M.S. Sukhiza, -“Power System Analysis”, Oxford University Press.
5.   Elgerd O.I., “Electric Energy Systems Theory”, TMH, New Delhi, Second Edition 1983.
6.  Prabha Kundur, “Power system stability and control”, Mc-Graw Hill Inc, New York, 1993.
7.  Taylor C.W., “Power System Voltage Stability”, Mc-Graw Hill Inc, New York, 1993.
8.  Nagrath IJ, Kothari D.P., “Power System Engineering”, Tata Mc-Graw Hills, New Delhi 1994.
9.  Weedy B.M. “Electric Power System” John Wiley and Sons, 3rd edition.
10. P.S.R. Murthy, “Power System Operation and Control”, Tata Mc-Graw Hill, New Delhi 1984.
11. Power Generation, Operation and Control by A.J. wood and B.F. Wollenberg John Wiley & Sons Inc. 1984.
12. Power Systems Analysis- by A.R. Bergen Prentice Hali Inc.
13. Economic Operation of Power Systems- by L.K. Kirchmayer Wiley Eastern Ltd.

EE801 Power System Analysis & Control List Of Experiments:
1.  To develop a program in Matlab for information of Y-bus matrix for N bus system.
2.  Load flow solution for 3-bus system using Gauss- Seidel, Newton Raphson and FDLF methods up to 3 iteration. 
3.  Load flow solution for IEEE 6-bus and 30-bus system in Matlab using  Newton Raphson method.
4.  Assessment of transient stability of a single machine system.
5.  Effect of compensation on voltage profile of IEEE 6-bus system.
6.  Study of any software tools (PSAT, EDSA, MY POWER, ETAP etc).
EE 8th sem Power System Protection Syllabus RGTU/RGPV EE802 Power System Protection Syllabus

EE 8th sem Power System Protection Syllabus RGTU/RGPV EE802 Power System Protection Syllabus

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RGTU/RGPV EE802 Power System Protection Syllabus
RGTU/RGPV Power System Protection SYLLABUS
Electrical Engineering EE 8th Semester Syllabus

PROGRAMME: B.E. Electrical Engineering-VIII Semester
Course: EE802 Power System Protection

Unit-I  Fault Analysis
Faults in power systems, single line diagram, equivalent impedance diagram, per unit reactances. Analysis (using matrices) of power systems by symmetrical components under:
(a) Three phase short circuit.
(b) Line to line fault.
(c) Line to ground fault.
(d) Double line to ground fault.
Sequence networks and their inter connections for different types of faults, effects of fault impedance. Current Limiting Reactors: Applications, types, construction and location of current limiting reactors, short circuit calculation using reactors.
                        
Unit-II     Relays  
General considerations, sensing of faults, construction of electro-magnetic attraction and induction types relays, Buchholz and negative sequence relay, concept of reset, pick up, inverse time and definite time characteristics, over current , over voltage, directional, differential and distance relays on R-X diagram. Static Relays: Introduction, advantage and limitation of static relays, static over current, directional, distance and differential relays.
                        
Unit-III     Protection
Types & detection of faults and their effects, alternator protection scheme (stator, rotor, reverse power protection etc.). Power transformer protection (external and internal faults protection), generator-transformer unit protection scheme, bus bar protection. Transmission line protection (current/time grading, distance), Pilot relaying schemes, power line carrier protection.

Unit-IV     Switchgear 
Theory of current interruption- energy balance and recovery rate theory, arc quenching, recovery and restriking voltages. Types of circuit breakers. bulk oil and minimum oil, air break and air blast, sulphur hexa fluride (SF6) and vacuum circuit breakers. Rating selection and testing of circuit breakers/operating mechanisms. LT switchgear, HRC fuses, types construction and applications.
 
Unit-V  Modern Trends In Protection
Electronic relays, static relays functional circuits: comparators, level detectors, logic and training circuits, microprocessor and computer based protection schemes, software development for protection, security  & reliability.

EE802 Power System Protection List of Experiments:   Operating Characteristics of  
1)   Over Voltage Relays
2)   IDMT Relays 
3)   Percentage based differential relays
4)   Determination of instantaneous relays
5)  Buchholz relays
6)  Solid state over current relays

EE802 Power System Protection References:   
  • Van A. R & Warrington C., “ Protective Relays : Their Theory and Practice”, Vol 1 & 2, Chapman and Hall.   
  • Paithankar Y. O.,” Transmission Network Protection: Theory and Practice”, Marcel Deicker, Inc.   
  • GEC Measurements,” Protective Relays : Application Guide”, GEC Measurements.   
  • Masson R.J., Art & Science of Protective Relaying.   
  • J & P Switchgear handbook Ravindra Nath B.,  and Chandar M., Power systems protection and switchgear    
  • Rao Sunil S, Switchgear and protection. 
  • Crane P.H.C., Switchgear Principle.   
  • The Elementary Council, “Power System Protection”, Vol.1,2 &3, Peter Peregrinus Ltd.   
  • Badriram & Vishwakarma,  Power System Protection.   Ravindranath & Chander, Power System Protection & Switchgear.
EE 8th sem Advanced Electrical Drives Syllabus RGTU/RGPV EE 8301 Advanced Electrical Drives Syllabus

EE 8th sem Advanced Electrical Drives Syllabus RGTU/RGPV EE 8301 Advanced Electrical Drives Syllabus

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RGTU/RGPV EE 8301 Advanced Electrical Drives Syllabus
RGTU/RGPV Advanced Electrical Drives SYLLABUS
Electrical Engineering EE 8th Semester Syllabus

PROGRAMME: B.E. Electrical Engineering, VIII Semester
Course: EE 8301 Advanced Electrical Drives


Unit-I Review of electric motors & Solid state converters: Speed control techniques of DC, Induction & synchronous motor, Converters, inverters, chopper and cyclo converter operation, Effects of power electronic equipments on load side & supply side.

Unit-II Review of closed loop controllers, sensors & transducers : PI, PID, Variable structure. AC, DC & Pulse tacho-generators.

Unit-III DC Drives : Converter & chopper fed DC drive, Reversing, Starting, Regenerative  breaking , Four quadrant operation, High power application.

Unit-IV AC Drive: Inverter & cyclo converter fed drive, Vector control, Sensor less operation, Linear electrical motor concept, Synchronous motor drive

Unit-V pecial Drives: Switched  reluctance & permanent magnet brushless DC Operation, Converters, Characteristics & Control, PLC based drives.

Unit-VI Servo drives & stepper motor-  AC & DC Servomotor, Stepper motor, Control techniques, Controllers, Microstepping, Sensorless  operation.

Unit-VII Power Quality & energy Conservation-  Line Side pollution, standards, Harmonic elimination techniques in converter, Filters, Energy efficient electric motors, Pay back periods, Energy conservation through sold state control.

Advanced Electrical Drives Reference:  
  • Ned Mohan, T.M. Undeland, W.P. Robbins, Power Electronics-Converters, Applications and design”, John Wiley & Sons.   
  • J.M.D. Murphy, F.O. Turnbull, “Power Electronic Control of AC motors”, Pergamon Press.   
  • P.C. Sen, D.C. drive, Pergamon Press   
  • B.K. Bose, Power Electronics & AC drive prentice Hall.   
  • Dubey G.K. “Power semi Conductor controller drives, Prentice Hall.   
  • Vedam Subramanyam, “Electrical Drives”.   
  • T.J.E. Miller, Switched Reluctance & P.M. B.L. DC motor, Pergamon Press   
  • P.V. Rao, “Power semiconductor Drives”, BS Publications.
EE 8th sem Process Control Syllabus RGTU/RGPV EE8302 Process Control Syllabus

EE 8th sem Process Control Syllabus RGTU/RGPV EE8302 Process Control Syllabus

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RGTU/RGPV EE8302 Process Control Syllabus
RGTU/RGPV Process Control SYLLABUS
Electrical Engineering EE 8th Semester Syllabus

PROGRAMME: B.E. Electrical Engineering, VIII Semester
Course:  EE8302 Process Control

Unit I
Special characteristics of process systems large time constants, interaction, multistaging, pure lag; control loops for simple systems and their Dynamics & stability.

Unit II
Generation of control action in electronic and  pneumatic controllers.  Control valves, valve positioners, relief and safety valves, relays, volume boosters, pneumatic transmitters for process variable.  Tuning of controllers - Zeigler Nichols and other techniques.

Unit III
  Different control techniques and interaction of process  parameters e.g. feed forward, cascade, ratio, over- ride controls Batch continuous process controls. Feed forward Control schemes.

Unit IV  
  Various process  schemes / unit operations and their control schemes e.g.   distillation columns, absorbers, heat exchangers, furnaces, reactors, mineral processing industries, etc.  Use of control schemes for process optimization.

Unit V
Advanced control strategies with case studies.  Use of DDC and PLC.  Introduction to supervisory control. Conversion of existing control schemes in operating plants, data loggers.

EE8302 Process Control References:   
  • Dale Patrick, Stephen Fardo, “Industrial Process Control System”.   
  • Shinskey F.G., “Process Control System”, III Ed., McGraw Hill.   
  • Smith C.A. & A.B. Corripio, “Principle & Practiced Automatic Process Control”, J. Willey.   
  • Rao M & S.Qiv, “Process Control Engg.”, Gorden & Breach.
EE 8th sem Computer Application to Power Systems Syllabus RGTU/RGPV EE8303 Computer Application to Power Systems Syllabus

EE 8th sem Computer Application to Power Systems Syllabus RGTU/RGPV EE8303 Computer Application to Power Systems Syllabus

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RGTU/RGPV EE8303 Computer Application to Power Systems Syllabus
RGTU/RGPV Computer Application to Power Systems SYLLABUS
Electrical Engineering EE 8th Semester Syllabus

PROGRAMME : BE Electrical Engineering-VIII Semester
Course:  EE8303 Computer Application to Power Systems

Unit I
  Models of power system components, network model using graph theory, formation of Z bus, transmission line models, regulating transformer, line loadability, capability curves of alternator. 

Unit II
   Control of load bus voltage using reactive power control variable, SVC & SVS, Regulated shunt compensation, series and shunt compensation, Uniform series and shunt compensation and effect on loadability of transmission lines.  

Unit III
  Sensitivity analysis-  General sensitivity relations, generation shift distribution factors, line  outage distribution factors, compensated shift factors, sensitivity associated  with voltage-VAR, sensitivities relating   load bus voltage changes in terms of PV bus voltage changes, sensitivity relating changes in
reactive power generation for changes in PV Bus Voltage. 

Unit IV
   Power system security – Security functions, Security level, contingency analysis, security control, economic dispatch using LP formulation, pre-contingency and post-  contingency, corrective rescheduling. 

Unit V
   Voltage stability - Difference between  voltage and angle  stability, PV Curve for voltage stability assessment, proximity and mechanism, modal analysis using reduced Jacobian, participation factor, effect of series and shunt compensation  on voltage stability , effect of load models.   

Computer Application to Power Systems References:
  • Power Generation, Operation and Control by A.J. wood and B.F. Wollenberg John Wiley & Sons Inc.1984.   
  • Computer methods in power systems analysis – by stage G.W. and E.L. Abiad A.H. Mc Graw Hill.   Computer Techniques in Power Systems Analysis- Pai M.A. Tata Mc Graw Hill.   
  • Computer Modeling of Electrical Power Systems, Arrillaga J. Arnord C.P Harker B.J. John Wiley &Son   
  • Computer Aided Power Systems Analysis Kusic G.L. Prentice Hall Publication.   
  • Modern Power Systems Analysis Nagrath I.J. and Kothari D.P. Tata Mc Graw Hill.   
  • Power System Analysis Grainger J.J. & Stevnson W.D. Mc Graw Hill.   
  • Power System Stability and control –P Kundur ,IEEE Press 1994.    
  • Advance Power Systems Analysis and Dynamics Singh L.P. John Wiley.
EE 8th sem Power System Planning & Reliability Syllabus RGTU/RGPV EE8402 Power System Planning & Reliability Syllabus

EE 8th sem Power System Planning & Reliability Syllabus RGTU/RGPV EE8402 Power System Planning & Reliability Syllabus

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RGTU/RGPV EE-8402 Power System Planning & Reliability Syllabus
RGTU/RGPV Power System Planning & Reliability SYLLABUS
Electrical Engineering EE 8th Semester Syllabus

PROGRAMME : B.E. Electrical Engineering-VIII Semester
Course:  EE8402 Power System Planning & Reliability

Unit-I Review of Probability Theory 
Element of probability theory Probability Distribution, Random variable, Density and distribution functions. Mathematical expectation. Binominal distribution, Poisson distributions, Normal distribution, Exponential distribution, Weibull distribution.

Unit-II Reliability of Engineering Systems
Component reliability, Hazard models, Reliability of systems wit non-repairable components, series, Parallel, Series-Parallel, Parallel-series configurations. Non-series-parallel configurations, minimal tie-set, minimal cut-set and decomposition methods. Repairable systems, MARKOV process, Long term reliability, Power System reliability.

Unit-III Reliability of Engineering Systems
Reliability model of a generating unit, State space methods, Combing states, sequential addition method, Load modeling, Cumulative load model, merging of generation and load models, Loss of load probability, Percentage energy loss, Probability and frequency of failure, Operating reserve calculations.

Unit-IV Power Network Reliability
Weather effect on transmission lines, Common mode failures, Switching after fauls, three, state components, Normally open paths, Distribution system reliability. 

Unit-V Composite System Reliability
Bulk Power supply systems, Effect of varying load, Inter connected systems, correlated and uncorrelated load models, Cost and worth of reliability.

Unit-VI Reliability Improvement & Testing
Proper Design simplicity, Component improvement Testing Plans, time censored & sequential reliability tests, accelerated life test, Environ mental  test, Reliability estimations

EE-8402 Power System Planning & Reliability References:   
J. Endreny, Reliability Modeling in Electric Power Systems, John Wiley & Sons.   
Roy Billinton & Ronald, N allan, Reliability Evaluation of Power Systems, Plenum Press, New York.
EE 8th sem EHV A.C. and D.C. Transmission Syllabus RGTU/RGPV EE8403 EHV A.C. and D.C. Transmission Syllabus

EE 8th sem EHV A.C. and D.C. Transmission Syllabus RGTU/RGPV EE8403 EHV A.C. and D.C. Transmission Syllabus

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RGTU/RGPV EE-8403 EHV A.C. and D.C. Transmission Syllabus
RGTU/RGPV EHV A.C. and D.C. Transmission SYLLABUS
Electrical Engineering EE 8th Semester Syllabus


PROGRAMME : B.E. Electrical Engineering-VIII Semester
Course:  EE8403 EHV A.C. and D.C. Transmission

Unit-I
Constitution of EHV a.c. and d.c. links, Kind of d.c. links, Limitations and Advantages of a.c. and d.c. transmission, Principal application of a.c. and d.c. transmission, Trends in EHV a.c. and d.c. transmission, Power handling capacity. Converter analysis garetz  circuit, Firing angle control, Overlapping. 

Unit-II
FACTS devices, basic types of controller, series controller, static synchronous series compensator(SSSC), thyristor-controlled series capacitor(TCSC), thyristor controlled seriesreactor(TCSR), shunt controller (STATCOM), static VAR compensator(SVC), series-series controller, combined series-shunt controller, unified power flow controller(UPFC), thyristor controlled phase shifting transformer(TCPST). 

Unit-III
Components of EHV d.c. system, converter circuits, rectifier and inverter valves, Reactive power requirements, harmonics generation, Adverse effects, Classification, Remedial measures to suppress, filters, Ground return. Converter faults & protection harmonics misoperation, Commutation failure,Multiterminal D.C. lines. 

Unit-IV
Control of EHV d.c. system desired features of control, control characteristics, Constant current control,Constant extinction angle control. Ignition Angle control. Parallel operation of HVAC & DC system. Problems & advantages. 

Unit-V
Travelling waves on transmission systems, Their shape, Attenuation and distortion, effect of junctionand termination on propagation of traveling waves. Over voltages in transmission system. Lightning,switching and temporary over voltages: Control of lighting and switching over voltages

EE8403 EHV A.C. and D.C. Transmission Reference:
1.  S. Rao,- “EHV AC & DC Transmission” Khanna pub.
2.  Kimbark,-” HVDC Transmission” john willy & sons pub.
3.  Arrillaga,- “HVDC Transmission”2nd  Edition ,IEE londan pub.
4.  Padiyar, -“HVDC Transmission” 1st Edition ,New age international pub.
5.  T.K. Nagsarkar,M.S. Sukhiza, -“Power System Analysis”, Oxford University 
6.  Narain.G. Hingorani, l. Gyugyi-”Undustanding of  FACTS concept and technology”, John Wiley & sons pub.
7.  P.Kundur- “H.V.D.C. Transmission” McGraw Hill Pub.
EE 8th sem Major Project Syllabus RGTU/RGPV EE-803 Major Project Syllabus

EE 8th sem Major Project Syllabus RGTU/RGPV EE-803 Major Project Syllabus

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RGTU/RGPV EE-803 Major Project  Syllabus
RGTU/RGPV Major Project SYLLABUS
Electrical Engineering EE 8th Semester Syllabus


PROGRAMME: B.E. Electrical Engineering-VIII Semester
Course: EE803 Major Project

The objectives of the course ‘Major Project’ are
  • To provide students with a comprehensive experience for applying the knowledge gained so far by studying various courses.    
  • To develop an inquiring aptitude and build confidence among students by working on solutions of small industrial problems.    
  • To give students an opportunity to do some thing creative and to assimilate real life work situation in institution.   
  • To adapt students for latest developments and to handle independently new situations.   
  • To develop good expressions power and presentation abilities in students.

The focus of the Major Project is on preparing a working system or some design or understanding of a complex system using system analysis tools and submit it the same in the form of a write-up i.e. detail project report. The student should select some real life problems for their project and maintain proper documentation of different stages of project such as need analysis, market analysis, concept evaluation, requirement specification, objectives, work plan, analysis, design, implementation and test plan. Each student is required to prepare a project report and present the same at the final examination with a demonstration. 

The faculty and student should work according to following schedule:
i) Each student undertakes substantial project in an approved area of the subject and supervised by a member of staff. 
ii) The student must submit outline and action plan for the project execution (time schedule) and the same be approved by the concerned faculty.
iii) At all the steps of the project, students must submit a written report of the same. 
EE 8th sem Renewable & Non Conventional Energy Systems Syllabus RGTU/RGPV EE-8401 Renewable & Non Conventional Energy Systems Syllabus

EE 8th sem Renewable & Non Conventional Energy Systems Syllabus RGTU/RGPV EE-8401 Renewable & Non Conventional Energy Systems Syllabus

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RGTU/RGPV EE-8401 Renewable & Non Conventional Energy Systems Syllabus
RGTU/RGPV Renewable & Non Conventional Energy Systems SYLLABUS
Electrical Engineering EE 8th Semester Syllabus


PROGRAMME: BE Electrical Engineering-VIII Semester
Course:  EE 8401 Renewable & Non Conventional Energy Systems

Unit - I Renewable Energy Systems
Energy Sources, Comparison of Conventional and non-conventional, renewable and non-renewablesources. Statistics of world resources and data on different sources globally and in Indian context.Significance of renewable sources and their exploitation. Energy planning, Energy efficiency and management.   

Unit – II Wind Energy System
Wind Energy, Wind Mills, Grid connected systems.  System configuration, working principles,limitations.  Effects of wind speed and grid conditions.  Grid independent systems - wind-battery, wind-diesel, wind-hydro biomass etc. wind operated pumps, controller for energy balance.Small HydroSystem Grid connected system, system configuration, working principles, limitations.  Effect of hydropotential and grid condition.  Synchronous versus Induction Generator for stand alone systems.  Use ofelectronic load controllers and self excited induction generators.Wave Energy System: Systemconfiguration: grid connected and hybrid systems. 

Unit - III  Solar Radiation
Extraterrestrial solar radiation, terrestrial solar radiation, Solar thermal conversion,  Solar Photo tonic
System Solar cell, Solar cell materials, efficiency, Characteristics of PV panels under varying insulation.  PVoperated lighting and water pumps, characteristics of motors and pumps connected to PV panels.
Biomass Energy System: System configuration, Biomass engine driven generators, feeding loads in stand-alone or hybrid modes, Biomass energy and their characteristics. 

Unit – IV  Energy from oceans
Ocean temperature difference, Principles of OTEC, plant operations, 
Geothermal Energy
Electric Energy from gaseous cells, Magneto-hydro generated energy, Non hazardous energy fromnuclear wastes, Possibilities of other modern non-conventional energy sources. 

Unit - V  Electric Energy Conservation
Energy efficient motors and other equipment.  Energy saving in Power Electronic controlled drives.Electricity saving  in  pumps, air-conditioning, power plants, process industries, illumination etc. Methods of Energy Audit. 
Measurements systems; efficiency measurements. energy regulation, typical case studies, various measuring devices analog and digital, use of thyristers.


EE 8401 Renewable & Non Conventional Energy Systems References:
  • John Twidell & Toney Weir, Renewable Energy Resources, E & F N Spon.   
  • El-Wakil, Power Plant Technology, McGraw Hill.   
  • Rai G D, Non-conventional Energy Resources, Khanna.    
  • F  Howard E. Jordan, "Energy-Efficient Electric Motor & their Application-II", Plenum Press, New York, USA.   
  • Anna Mani, "Wind Energy Resource Survey in India-Ill", Allied Publishers Ltd., New Delhi,    
  • S.P.  Sukhatme: Solar Energy, TMH-4e,    
  • Dr. A. Ramachandran, Prof B.V Sreekantan & M F.C. Kohli etc, "TERI Energy Data Directory & Year book 1994-95", Teri Tata Energy Research Institute, New Delhi, 
EE 6th sem Minor Project-I Syllabus EE 606 Minor Project-I Electrical Engineering Syllabus

EE 6th sem Minor Project-I Syllabus EE 606 Minor Project-I Electrical Engineering Syllabus

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RGTU/RGPV EE-606 Minor Project-I Syllabus
RGTU/RGPV Minor Project-I SYLLABUS
Electrical Engineering EE 6th Semester Syllabus

Branch: Electrical Engineering-VI Semester
Course: EE606 Minor Project-I

This is a culmination of a students training prior to becoming an Electrical Engineer. This shall train him forexecuting the assigned project preferably on a hardware development  system. In special cases Softwaredevelopment and Design problems can be assigned. The student is expected to spend most  of his time on Major Project during the final year. This may involve literature procurement, fabrication, experimentation, design,software etc. culminating in a ‘Project Report’ to be evaluated by the faculty and H.O.D. Proper report writingas per Technical Standards and Format is also part of the training.
EC 8th sem Nanoelectronics Syllabus EC-803 Nanoelectronics Syllabus Electronics and Communication Engineering

EC 8th sem Nanoelectronics Syllabus EC-803 Nanoelectronics Syllabus Electronics and Communication Engineering

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RGTU/RGPV EC-803 Nanoelectronics Syllabus
RGTU/RGPV Nanoelectronics SYLLABUS
Electronics and Communication Engineering EC 8th Semester Syllabus

PROGRAMME: Electronics & Communication Engineering
COURSE: EC-803 Nanoelectronics

Unit-I Introduction
The ‘Top down’ and ‘Bottom up’ approach, Why Nanoelectronics?, Nanotechnology potential.Band structure and density of states at Nanoscale: energy bands, density of states at low dimensional structure.
Electrical transport in Nanostructure:  Electrical  conduction in metals, insulator/ionic crystals  and semiconductors.  Conduction mechanism in bulk, thin film and low dimensional system. Introductory quantum mechanics for Nanoscience: size effect in smaller systems, quantum behavior of nanometric world.

Unit-II Tunnel junction and application of tunneling: Tunneling through a potential barrier, potential energy profiles of material interfaces,  applications of tunneling. Quantum wells, wires and dots: Semiconductor hetrostructure and quantum wells, quantum dots and nanoparticles.

Unit-III Single electron transistor: Coulomb Blockade, single electron transistor, other SET and FET structures. 

Unit-IV Ballastic and spin transport: Classical and semi-classical transport, ballistic transport, carbon nanotubes and nanowires, transport of spin and spintronics.
The era of new  Nanostructures  of carbon:  Buck minsterfullerence,  Nanodiomond, BN  Nanotubes,  Molecular  Machine, Nanobiometrics.

Unit V Fabrication technology: Top-down vs bottom-up technology.
Lithographic process: Lithography, Nanolithography, split gate technology, self assembly, limitation of lithographic process. 
Non-lithographic techniques: Plasma arc discharge, sputtering, evaporation, chemical vapour deposition,  pulsed laser deposition, molecular beam epitaxy, sol-gel technique, electrodeposition and other process.

EC-803 Nanoelectronics  References:
1.  G. W. Hanson: Fundamentals of Nanoelectronics, Pearson Education.
2.  K. K. Chattopadhyay and A. N. Banerjee:  Introduction to Nanoscience and Nanotechnology, PHI Learning.
3.  Vlaadiniz U. Mitin: Introduction to Nanoelectronics, Cambridge University Press.
4.  M. Dragman and D. Dragman: Nanoelectronics- Principles and devices, Artech House.
5.  Karl Goser: Nanoelectronics and Nanosystems, Springer.
6.  Daniel Minoli: Nanotechnology application to telecommunication and networking, Wiley Interscience.
7.  John H. Davis: Physics of low dimension semiconductor, Cambridge Press.
8.  Carl C. Cosh: Nanostructure materials processing property and applications, Noyes Publications.
EC 8th sem Advanced Data Networks Syllabus EC-8101 Advanced Data Networks Syllabus Electronics and Communication Engineering

EC 8th sem Advanced Data Networks Syllabus EC-8101 Advanced Data Networks Syllabus Electronics and Communication Engineering

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RGTU/RGPV EC-8101 Advanced Data Networks Syllabus
RGTU/RGPV Advanced Data Networks SYLLABUS
Electronics and Communication Engineering EC 8th Semester Syllabus

ROGRAMME: Electronics & Communication Engineering
COURSE: EC-8101 Advanced Data Networks

Unit-I Principles of Wireless Networks
Network Planning: Introduction, wireless network topologies, cellular topology.        
Wireless network operation: introduction, mobility management, radio resources and power management, security in wireless networks

Unit-II Mobile Data Networks
Introduction, the data-oriented CDPD network, GPRS and higher data rates, short messaging services in GSM, mobile application protocols.                      
Wireless LANs (WLAN)
Introduction, historical overview of the LAN industry, evolution of the WLAN industry, new interest from military and service providers, a new explosion of market and technology, wireless home networking.           

Unit-III IEEE 802.11 WLANs
Introduction, what is IEEE 802.11? The PHY layer, MAC sublayer, MAC management sublayer. HIPERLAN What is HIPERLAN? HIPERLAN-2 Wireless Geolocation Systems Introduction, what is Wireless Geolocation? Wireless geolocation system architecture, technologies for wireless geolocation, geolocation standards for E-911 services, performance measures for geolocation systems.      


Unit-IV Wireless Personal Area Network (WPAN)
Introduction, what is IEEE 802.15 WPAN? What is HomeRF? What is Bluetooth? Interference between Bluetooth and 802.11.

Satellite Networks Satellite navigation and global positioning system: Introduction, radio and satellite navigation, GPS position location principles, GPS time, GPS receivers and codes, the C/A code, Satellite signal acquisition, GPS signal levels, timing accuracy, GPS receiver operation, GPS C/A code accuracy, differential GPS.                 

Unit-V Optical Networks
Network Concepts: terminology, categories, layers. Network topologies: performance of passive linear buses, performance of star architectures.
SONET/SDH : transmission formats and speeds, optical interfaces, SONET/SDH rings, SONET/SDH networks.  High speed light-wave links: links operating at 10, 40 and 160 Gbps.
Optical add/drop multiplexing (OADM): OADM configurations, reconfigurable OADM. 
Optical switching: optical cross-connect, wavelength conversion, wavelength routing, optical packet switching, optical burst switching. WDM network examples: wideband long-haul WDM networks, narrowband metro WDM networks, passive optical network.
Mitigation of transmission impairments: chromatic dispersion compensating fiber, bragg grating dispersion compensators, polarization-mode dispersion compensation, optical amplifier gain transients.  

EC-8101 Advanced Data Networks References:
1.  K. Pahlavan and P. Krishnamurthy: Principles of  Wireless Networks, PHI Learning.
2.  G. Keiser: Optical Fiber Communications, 4th Edition, TMH New Delhi.
3.  T. Pratt, C. Bostian and J. Allnut:  Satellite Communications, 2nd Edition, Wiley Indian Pvt. Ltd.
4.  Upena Dalal: Wireless Communications, Oxford University Press.
EC 8th sem Microwave Circuits Syllabus EC-8102 Microwave Circuits Syllabus Electronics and Communication Engineering

EC 8th sem Microwave Circuits Syllabus EC-8102 Microwave Circuits Syllabus Electronics and Communication Engineering

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RGTU/RGPV EC-8102 Microwave Circuits Syllabus
RGTU/RGPV Microwave Circuits SYLLABUS
Electronics and Communication Engineering EC 8th Semester Syllabus

PROGRAMME: Electronics and Communication Engineering
COURSE: EC-8102 Microwave Circuits

 Unit I Transmission lines: Impedance matching and transformation
Plane Electromagnetic waves, Transmission Lines: Line Equations and analysis, Smith Chart, Impedance Matching and transformation single stub, double stub matching ,triple –stub tuner, impedance mismatch factor, quarter wave transformer, theory of small reflections, binomial and Chebyshev transformer, tapered transmission lines, triangular, exponential and Klopfenstein taper.

Unit II Field analysis of transmission lines:
Analysis of general transmission line and terminated transmission line circuits, Planar Transmission lines, Microstrip lines. Strip lines: Characteristic Impedance, conductor losses, Dielectric losses, Radiation Losses, Higher order modes and dispersion, Microstrip attenuation ,high frequency properties , suspended and inverted microstrip lines, coplanar lines, slot lines, Fin-lines, Coupled Lines. Substrates for microwave printed circuits

Unit III Microwave (solid state) Amplifiers:
BJT and FET,  Power gains: definitions, Stability: stability circles, tests for unconditional stability, Constant Power Gain Circles, Constant Mismatch Circles, Single stage and multi stage  transistor Amplifier design, Broadband transistor Amplifier Design, Power amplifiers. Basic Noise theory, Low noise amplifier designs, Microwave amplifier designs using S  parameters.

Unit IV Microwave oscillators and mixers:  
RF oscillators, Microwave oscillators, Oscillators Phase Noise, Frequency Multipliers,  Gunn oscillators and circuits, Transistor oscillators, Oscillator circuits and design.
Mixers: Mixer characteristics, linear and non-linear mixer operation, Mixer noise figure, Balanced mixers, Single ended diode mixer, single ended FET mixer, image reject mixers, other mixers, Mixer analysis using Harmonic Balancing.

Unit V Microwave Filters:
Periodic structures: analysis, Filter design   : image parameter and insertion loss method. specification of power loss ratio, Filter transformations, Filter Implementations, Stepped-Impedance low  –pass filters, coupled line filters, Filters using coupled resonators, Impedance and  Admittance inverters, micro strip half-wave filter, Quarter –wave coupled cavity filters, direct –coupled cavity filters, Low-Pass filter designs, Frequency transformations and expansions, Narrowband and wideband microwave filters.

EC-8102 Microwave Circuits  References:
1.  R. E. Collin: Foundations for Microwave Engineering, 2nd  Edition, Wiley India Pvt. Ltd.
2.  D. M. Pozar: Microwave Engineering, 3rd  Edition, Wiley India Pvt. Ltd.
3.  P. A. Rizzi: Microwave Engineering- Passive Circuits.
EC 8th sem Principles of Management & Managerial Economics Syllabus EC8103 Principles of Management & Managerial Economics Syllabus Electronics and Communication Engineering

EC 8th sem Principles of Management & Managerial Economics Syllabus EC8103 Principles of Management & Managerial Economics Syllabus Electronics and Communication Engineering

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RGTU/RGPV EC-8103 Principles of Management & Managerial Economics Syllabus
RGTU/RGPV Principles of Management & Managerial Economics SYLLABUS
Electronics and Communication Engineering EC 8th Semester Syllabus

PROGRAMME: Electronics and Communication Engineering
COURSE: EC- 8103 Principles of Management & Managerial Economics

Unit I
Management Concept: Management, Administration and Organization Difference and Relationship between Organization Management and Administration. Importance of Management, Characteristics of Management.

Unit II
Management: Scientific Management, Principles of Management, Process of Management, Functions of Management, Levels of Management, Project Management.

Unit III
Decision Making: Introduction and Definition, Types of Decisions, Techniques of Decision Making, Decision making under certainty Decision making under uncertainty, Decision Making under risk.

Unit IV
Managerial Economics: Introduction, Factors Influencing Manager, Micro and Macro-economics, Theory of the Cost, Theory of the Firm, Theory of Production Function.

Unit V
Productivity: Input-Output Analysis, Micro-economics Applied to Plants and Industrial Undertakings, Production and Production system, Productivity, Factors affecting Productivity, Increasing Productivity of Resources.

8103 Principles of Management & Managerial Economics References:
1.  Peter Drucker, Harper and Row: The Practice of Management. 
2.  Koontz: Essentials of Management, PHI Learning.
3.  Staner: Management, PHI Learning.
4.  Daft: Principles of Management, Cengage Learning.
5.  T. N. Chhabra: Principle and Practice of Management, Dhanpat Rai, New Delhi.
6.  Hirschey: Managerial Economics, Cengage Learning. 
7.  T. R. Banga and S.C. Sharma: Industrial Organisation and Engineering Economics, Khanna Publishers.
8.  O.P. Khanna: Industrial Engineering and Management, Dhanpat Rai.
9.  Joel Dean: Managerial Economics, PHI learning.
10.  V. L. Mote, Samuel Paul and G.S. Gupta: Managerial Economics Concepts & Cases, TMH, New Delhi.
11.  V. L. Mote: Managerial Economics, TMH, New Delhi.
EC 8th sem Major Project Syllabus EC-804 Major Project Syllabus Electronics and Communication Engineering

EC 8th sem Major Project Syllabus EC-804 Major Project Syllabus Electronics and Communication Engineering

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RGTU/RGPV EC-804 Major Project Systems Syllabus
RGTU/RGPV Major Project SYLLABUS
Electronics and Communication Engineering EC 8th Semester Syllabus

PROGRAMME: Electronics and Communication Engineering
COURSE: EC-804 Major Project 

 The student should prepare a working system or some design or understanding of a complex system that he has selected in the seventh semester using system analysis tools and submit the same in the form of a write-up i.e. detail project report. The student should maintain proper documentation of different stages of project such as need analysis, market analysis, concept evaluation, requirement specification, objectives, work plan, analysis, design, implementation and test plan wherever applicable. Each student is required to prepare a project report based on the above points and present the same at the final examination with a demonstration of the working system.  
EC 8th sem CMOS Circuit Design Syllabus EC-802 CMOS Circuit Design Syllabus Electronics and Communication Engineering

EC 8th sem CMOS Circuit Design Syllabus EC-802 CMOS Circuit Design Syllabus Electronics and Communication Engineering

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RGTU/RGPV EC-802 Advanced Communication Systems Syllabus
RGTU/RGPV Advanced Communication Systems SYLLABUS
Electronics and Communication Engineering EC 8th Semester Syllabus

PROGRAMME: Electronics and Communication Engineering
COURSE: EC-802 CMOS Circuit Design

Unit I Single-Stage Amplifier: Basic Concepts, Common Source Stage, Source Follower, Common-Gate Stage, Cascode Stage.
Frequency Response of Amplifiers General Consideration, Common-Source Stage, Source Followers, Common-Gate Stage, Cascode Stage, Differential Pair.          

Unit II Differential Amplifier: Single-Ended and Differential Operation, Basic Differential Pair, Common-Mode Response, Differential Pair with MOS Loads, Gilbert Cell.           
Feedback Amplifier: General Consideration, Feedback Topologies, Effect of Loading, Effect of Feedback on Noise. 
Switched-Capacitor Circuits General Consideration, Sampling Switches, Switched-Capacitor Amplifier, Switched-Capacitor Integrator, Switched-Capacitor Common-Mode Feedback.       

Unit III Oscillator: General Consideration, Ring Oscillator, Voltage Controlled Oscillator, Mathematical Model of VCOs.  
Phase-Locked Loops: Simple PLL, Charge-Pump PLLs, Nonideal Effects in PLLs, Delayed-Locked Loops.
                    
Unit IV Sequential Circuit Design: Introduction, Sequencing Static Circuit, Circuit Design of Latches and Flip-Flops, Static Sequencing Element Methodology.
Array Subsystem:  Introduction, SRAM, DRAM, Read-Only Memory, Serial Access Memories, Content-Addressable Memory,Programmable Logic Arrays.        

Unit V Datapath Subsystems: Introduction, Addition/Subtraction, One/Zero Detector, Comparators, Counters, Boolean Logic Operation, Coding, Shifters, Multiplication, Division, Parallel-Prefix Computations.       

EC-802 CMOS Circuit Design References:
1.  B. Razavi: Design of Analog CMOS Integrated Circuits, TMH Publication.  
2.  Weste, Harris and Banerjee: CMOS VLSI Design, Pearson Education
3.  J. M. Rabaey, Digital Integrated Circuits, PHI Learning.
4.  R. Jacob Baker: CMOS-Circuit Design, Layout and Simulation, Wiley. 
5.  A. A. Raj and T. Latha: VLSI Design, PHI Learning.

EC-802 CMOS Circuit Design List of Experiments:
Practicals should be performed using any Electronic Design Automation (EDA) - eg. Microwind / Cadence / Sylvaco / Tanner silicon HiPer / Xilinx  ISE 9i or any similar software.
1. Design and simulation of:   (a) Common source amplifier  (b) Source follower amplifier   
(c) Common gate amplifier (d) Cascode amplifier.
2. Estimation of frequency response of: (a) Common source amplifier     (b) Source follower amplifier.
     (c ) Common gate amplifier    (d) Cascode amplifier.
3. Design and simulation of differential amplifier.
4. Design and simulation of feedback amplifier.
5. Design and simulation of oscillators: (a) Ring Oscillator  (b) L-C Oscillator (c) Voltage controlled Oscillator.
6. Design and simulation of: (a) Adder  (b) Subtractor  (c) One/zero detector  (d) Comparator   (e) Counter (f) Multiplier  (g) Divider.
EC 8th sem Advanced Communication Systems Syllabus EC801 Advanced Communication Systems Syllabus Electronics and Communication Engineering

EC 8th sem Advanced Communication Systems Syllabus EC801 Advanced Communication Systems Syllabus Electronics and Communication Engineering

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RGTU/RGPV EC-801 Advanced Communication Systems Syllabus
RGTU/RGPV Advanced Communication Systems SYLLABUS
Electronics and Communication Engineering EC 8th Semester Syllabus

PROGRAMME: Electronics & Communication Engineering
COURSE: EC-801 Advanced Communication Systems

Unit-I Channel coding: Introduction, Block codes, Convolutional codes, Trellis-coded modulation, Turbo-codes, Low density parity check codes, coding for the fading channels.
Speech coding: Introduction, the sound of speech, stochastic models for speech, quantization and coding, from speech transmissionto acoustic telepresence.

Unit-II Orthogonal Frequency Division Multiplexing (OFDM)
Introduction, principle of OFDM, implementation of transceivers, frequency-selective channels, channel estimation, peak ro average power ratio, intercarrier interference, adaptive modulation and capacity, multiple access, multicarrier code division multiple access, single carrier modulation with frequency-domain equalization.
Multiantenna system: smart antennas, multiple input multiple output systems.         

Unit-III Global System for Mobile Communications (GSM)   
Historical overview, system overview, the air interface, logical and physical channels, synchronization, coding, equalizer, circuit-switched data transmission, establishing a connection and handover, services and billing.
Interim Standard 95 (IS-95) and Code Division Multiple Access (CDMA 2000)
Historical overview, system overview, the air interface, coding, spreading and modulation, logical and physical channels, handover.

Unit-IV  Wideband Code Division Multiple Access (WCDMA)    
Historical overview, system overview, the air interface, logical and physical channels, speech coding, multiplexing and channel coding, spreading and modulation, physical-layer procedures.
Statistics of Cellular systems
Time delay spread, Noise figure, power limited and bandwidth-limited system, mobile and portable coverage, Ray-tracking and building-block approach, coding scheme and variable burst-error intervals, antenna down-tilt, lnter-modulation, mobile location, angle spread with antenna height and its application.

Unit V New Concepts
Channel capacity in a Rayleigh fading environment, real-time running average, link capacities versus call drops between GSM and CDMA, data transmission via cellular systems, multiuser detection for CDMA, spectrum and technology of a WLL system, wavelet representation.


EC-801 Advanced Communication Systems References:
1.  A. F. Molisch: Wireless Communications, Wiley India Pvt. Ltd.
2.  W. C. Y. Lee: Mobile Communications Engineering- theory and practices, TMH.
3.  Upena Dalal: Wireless Communications, Oxford University Press.
4.  Kamilo Feher: Wireless Digital Communications, PHI Learning.
5.  Mullet: Introduction to Wireless Telecommunication Systems and Networks: Cengage Learning.

EC-801 Advanced Communication Systems List of Experiments: Practical should be performed using Scilab/ Matlab simulation software based on the above contents some may be as follows:
1.  Simulation of block codes, convolutional codes, parity check codes etc.
2.  Simulation of transreceiver in OFDM and plotting of BER vs SNR graphs for coded and uncoded OFDM.
3.  Simulation of transmission through a rayleigh fading channel.
Other practical may include study of:
1.  Coding, multiplexing, interleaving, spreading, modulation and demodulation in uplink and downlink for GSM and CDMA
2.  Data transmission via cellular systems.
3.  Smart antennas and MIMO systems.
CS 8th sem MANET & HIGH SPEED NETWORKS Syllabus CS 8403 MANET & HIGH SPEED NETWORKS Syllabus

CS 8th sem MANET & HIGH SPEED NETWORKS Syllabus CS 8403 MANET & HIGH SPEED NETWORKS Syllabus

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CS 8403 MANET & HIGH SPEED NETWORKS Syllabus
 RGTU/RGPV MANET & HIGH SPEED NETWORKS SYLLABUS
Computer Science and Engineering CS 8th Semester Syllabus,

PROGRAMME : B.E. Computer Science & Engineering, VIII semester
Course : CS 8403 MANET & HIGH SPEED NETWORKS  (Proposed)

Unit – I   Adhoc – Wireless N/WS : Introduction, Cellular vs Adhoc wireless Networks, Applications of Adhoc wireless Networks, Issues in Adhoc wireless N/WS. Heterogeneity in Mobile devices, Wireless Sensor N/WS, traffic Profiles, Types of Adhoc Mobile Communications, Types of Mobile Host movements, Challenges facing Ad hoc mobile N/WS.

Unit –II   Adhoc Wireless Media Access Protocols :-  Introduction Synchronous MAC  Protocol &
asynchronous MAC protocol, Problems in Adhoc channel Access Receiver Initiated MAC protocols,
Sender. Initiated MAC Protocol, Existing Adhoc MAC Protocol.

Unit – III   Overview of Adhoc Routing Protocols :- Table Driver Approaches :- DSDV, WRP, CSGR, Source Initiated On demand Approaches : AODV, DSR, TORA, SSR, LAR, PAR, ZRP, RDMAR.

Unit – IV   Communication Performance of Adhoc Networks , Route discovery time, End to End Delay Performance, Communication throughput performance, Packet loss performance, Route reconfiguration time, Energy Conservation & Power life issues.

Unit – V High Speed Networks Frame relays, Packet Switching Vs frame relay N/WS. Asychronous transfer node, ATM protocol architecture, ATM Logical Connection, ATM Cells, AAL, High Speed LANS, FAST Ethernet, fiber channel wireless LANS.

CS 8403 MANET & HIGH SPEED NETWORKS Books :-
1)  Muthukumaran, Intorduction to high Performance Network, TMH 
2)  CK Toh, Adhoc Mobile Wireless Networks Protocols & Systems, Pearson.Pearson Publication
3)  C-Siva Ram Murthy & B  S Majo , Adhoc Wireless Networks, Architectures Protocols
Pearson.Pearson Publication
4)  High speed N/WS & Internals, Performance & QOS William Stalling., IInd Edition. Pearson Publication
5)  Computer System& Network, Bluldell, Cengage Learning
CS 8th sem Robotics Syllabus RGTU/RGPV CS8402 Robotics Syllabus

CS 8th sem Robotics Syllabus RGTU/RGPV CS8402 Robotics Syllabus

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 RGTU/RGPV CS8402 Robotics  Syllabus
 RGTU/RGPV Robotics SYLLABUS
Computer Science and Engineering CS 8th Semester Syllabus,

PROGRAMME: B.E. Computer Science & Engineering, VIII Semester
Course: CS8402 Robotics

Unit-I Introduction
Introduction to robotics ,Robot Usage , Robot subsystems, Robot Classification , Technology of Robots , Basic Principles in robotics 

Unit-II Spatial Descriptions , Transformation and Sensors Robot Architecture , Descriptions: Positions , Orientations and Frames , Mappings :Changing  descriptions from Frame to Frame ,Operators: Translations ,Rotations , and Transformations , Transform Equations , Coordinate Transformations , Sensor Classification , Internal Sensors ,External sensors , Vision system ,
sensor selection .

Unit-III Kinematics
Link- Connection  Description , Forward  and Inverse Positional Analysis , Velocity Analysis: Jacobian Matrix ,Link Velocities , Acceleration analysis , Statics: Forces and Moment Balance, Recursive Calculation , Equivalent Joint Torques , Force Ellipsoid,
Dynamics : Inertia Properties , Dynamics Algorithms .

Unit-IV Control
Control Techniques , Second order Linear systems , Feedback Control , Performance of feedback control systems , Joint controller , Non linear Trajectory Control , State space Representation and control , Stability , Cartesian and force controls

Unit-V Motion Planning and Computer for Robots 
Joint space Planning ,Cartesian space planning ,Position and orientation Trajectories , Point to Point Planning , Continuous path Generation ,  Computational speed , Hardware requirements , Control considerations , Robot Programming , Hardware architecture .  A case study for Autonomous Mobile Robot .

CS8402 Robotics List of References
1.Saha , Introduction to Robotics , TMH Pub.
2.Craig , Introduction to Robotics ,Mechanics and control , Pearson Pub
3.Ghosal , Robotics –Fundamental Concepts and Analysis , Oxford Pub.
4.Niku , Introduction to Robotics:Analysis , System & Applications , PHI
5.Fu , Robotics ,TMH Pub
CS 8th sem Advance Computing Paradigm Syllabus RGTU/RGPV CS 8401 Advance Computing Paradigm Syllabus

CS 8th sem Advance Computing Paradigm Syllabus RGTU/RGPV CS 8401 Advance Computing Paradigm Syllabus

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RGTU/RGPV CS 8401 Advance Computing Paradigm Syllabus
 RGTU/RGPV Advance Computing Paradigm (ACP) SYLLABUS
Computer Science and Engineering CS 8th Semester Syllabus,

PROGRAMME: B.E. Computer Science & Engineering, VIII Semester
Course : CS 8401 Advance Computing Paradigm (Proposed)

Unit-I  Grid and Cluster Computing 
Introduction to Grid Computing , Types of grids ,Grid Activities , e governance , Grid Applications Grid Computing Organizations and their roles , Grid Architecture ,Grid computing Applications. Cluster Computing-Definition and Architecture of a cluster ,Cluster Programming Environment and Tools . 

Unit-II Quantum Computing
History of molecular electronics , Molecular scale  electronic , Quantum mechanic ,Quantum Gates and Circuits , Implementation of Quantum Computer , Quantum Algorithms .
Unit-III Nano Computing
Introduction to Nano Computing, Nano Computing Technology, Nano Information Processing, Physics of Nano Computing, Introduction to Molecular & Optical Computing.
Unit-IV Mobile and Pervasive Computing
Mobile computing , Adaptability , Mobility Management ,Context –Aware Computing and its applications , Introduction to Ad Hoc and Sensor Networks , Approaches to Security .

Unit-V Cloud Computing
Overview of Cloud Computing, Cloud Components , Applications ,Hardware and Infrastructure  Accessing the cloud , Cloud Storage ,Future of Cloud Computing .

CS 8401 Advance Computing Paradigm LIST OF REFERENCES
 1.Janakiram , Grid Computing ,TMH Pub
2.Prabhu , Grid and Cluster Computing , PHI Pub
3 Vishal Sahani & Goswami, Nano Computing, TMH Pub
4.Bhunia , Introduction to Quantum Computing , New Age Int. Pub
5.Adelstein & Gupta , Fundamentals of Mobile and Pervasive Computing , TMH Pub
6.Velte , Cloud Computing , McGraw Hill Pub 
CS 8th sem Wireless Network  Syllabus CS 8303 Wireless Network Syllabus

CS 8th sem Wireless Network Syllabus CS 8303 Wireless Network Syllabus

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 RGTU/RGPV CS 8303 Wireless Network Syllabus
 RGTU/RGPV Wireless Network SYLLABUS
Computer Science and Engineering CS 8th Semester Syllabus,

PROGRAMME:  B.E. Computer Science & Engg., VIII Semester
Course : CS 8303 Wireless Network (Proposed)

Unit 1  Introduction of Wireless Networks, Different Generations of Wireless Networks.
Characteristics of the Wireless Medium: Radio Propagation Mechanisms, Path Loss Modelling and Signal Coverage, Effect of Multipath and Doppler, Channel Measurement and Modelling Techniques.

 Unit 2  Network Planning: Introduction, Wireless Network Topologies, Cellular Topology, Cell Fundamentals, Signal to Interferences Radio Calculations, Network Planning for CDMA Systems.
Wireless Network Operations: Mobility Management, Radio Resources and Power Management

Unit 3 Multiple Division Techniques: FDMA, TDMA, CDMA, OFDM, SDMA. Comparison of Multiple Division Techniques, Modulation Techniques – AM, FM, FSK, PSK, QPSK, QAM, 16QAM Mobile Data Networks: Introduction, Data Oriented CDPD Network, GPRS, EDGE and High Data Rates, SMS in GSM, Mobile Application Protocols.

Unit 4  Introduction to Wireless LAN, Evolution of WLAN, Wireless Home Networking,  Technologies for Home Area Network (HAN), Overview of IEEE 802.11, Reference Architecture, PHY and MAC Layer, Wireless ATM, HIPERLAN.

UNIT 5  IEEE 802.15 WPAN, HomeRF, Bluetooth, Interference between Bluetooth and 802.11, Adhoc Networks, Introduction to 2.5 G and 3 G Networks.

References
1. Kaveh Pahlavan, Prashant Krishnamurthy “principles of Wireless Networks”, PHI.
2. Qing- An Zeng, Dharma Prakash Agrawal “Introduction to Wireless and Mobile Systems” CENGAGE Learning.
3. Sumit Kasera, Nishit Narang, A P Priyanka “2.5 G Mobile Networks: GPRS and EDGE”, TMH
4. Dr. KAMILO FEHER “Wireless Digital Communications” , PHI
5. Jochen Schiller “ Mobile  Communications”, PEARSON 
CS 8th sem Digital Image Processing Syllabus RGTU/RGPV CS 8302 Digital Image Processing Syllabus

CS 8th sem Digital Image Processing Syllabus RGTU/RGPV CS 8302 Digital Image Processing Syllabus

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 RGTU/RGPV CS8302 Digital Image Processing Syllabus
 RGTU/RGPV Digital Image Processing SYLLABUS
Computer Science and Engineering CS 8th Semester Syllabus,

PROGRAMME: B.E. Computer Science & Engineering, VIII semester
Course: CS8302 Digital Image Processing

Unit-I Digital Image fundamentals, A simple image model, Sampling and Quantization. Relationship between pixels. Imaging geometry. Image acquisition systems, Different types of digital images

Unit-II Image transformations, Introduction to Fourier transforms, Discrete Fourier transforms, Fast Fourier transform, Walsh transformation, Hadmord transformation, Discrete Cosine Transformation.

Unit-III Image enhancement, Filters in spatial and frequency domains, Histogram based processing. Image subtraction, Averaging, Image smoothing, Nedion filtering, Low pass filtering, Image sharpening by High pass filtering.

Unit-IV Image encoding and segmentation, Encoding: Mapping, Quantizer, Coder. Error free compression, Lossy Compression schemes. JPEG Compression standard. Detection of discontinuation by point detection, Line detection, edge detection, Edge linking and boundary detection, Local analysis, Global processing via Hough transforms and graph theoretic techniques 

Unit-V Mathematical morphology- Binary, Dilation, crosses, Opening and closing, Simple methods of representation, Signatures, Boundary segments, Skeleton of a region, Polynomial approximation 
 
CS 8302 Digital Image Processing References:
1.    Rafael C Gonzalez, Richard E Woods 3rd Edition, Digital Image Processing Pearson. 
2.    Rafael C Gonzalez, Richard E Woods 3rd Edition, Digital Image Processing using Matlab – TMH. 
3.   Sonka, Digital Image Processing & Computer Vision , Cengage Learning
4    Jayaraman, Digital Image Processing, TMH.         
5.   Pratt, Digital Image Processing, Wiley India
6   Annadurai, Fundamentals of Digital Image Processing ,Pearson Education . 
CS 8th sem BIOINFORMATICS Syllabus CS-8301 BIOINFORMATICS Syllabus

CS 8th sem BIOINFORMATICS Syllabus CS-8301 BIOINFORMATICS Syllabus

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 RGTU/RGPV CS-8301 BIOINFORMATICS  Syllabus
 RGTU/RGPV BIOINFORMATICS SYLLABUS
Computer Science and Engineering CS 8th Semester Syllabus,

PROGRAMME: B.E. Computer Science and Engineering, VIII Semester
Course: CS-8301  BIOINFORMATICS


Unit-I Introduction
Introduction to bioinformatics, objectives of bioinformatics, Basic chemistry of nucleic acids, structure of DNA & RNA, Genes, structure of bacterial chromosome, cloning methodology, Data maintenance and Integrity Tasks.

Unit-II Bioinformatics Databases & Image Processing
Types of databases, Nucleotide sequence databases, Protein sequence databases, Protein structure databases, Normalization, Data cleaning and transformation, Protein folding, protein function, protein-purification and characterization, Introduction to Java clients, CORBA, Using MYSQL, Feature Extraction.

Unit-III Sequence Alignment and database searching 
Introduction to sequence analysis, Models for sequence analysis, Methods of optimal alignment, Tools for sequence alignment, Dynamics Programming, Heuristic Methods, Multiple sequence Alignment 

Unit-IV Gene Finding and Expression
Cracking the Genome, Biological decoder ring, finding genes through mathematics  & learning, Genes prediction tools, Gene Mapping, Application of Mapping, Modes of Gene Expression data, Mining the Gene Expression Data 

Unit-V Proteomics & Problem solving in Bioinformatics 
Proteome analysis, tools for proteome analysis, Genetic networks, Network properties and analysis, complete pathway simulation: E-cell, Genomic analysis for DNA & Protein sequences , Strategies and
options for similarity search , flowcharts for protein structure prediction .

CS 8301 BIOINFORMATICS List of References
1.Gopal & Jones, BIOINFORMATICS with fundamentals of Genomics & Proteomics ,TMH Pub
2.Rastogi , Bioinformatics –Concepts , skills & Applications , CBS Pub
3.Bergeron , Bioinformatics computing , PHI
4.Claverie , Bioinformatics , Wiley pub
5.Baxevanis , Bioinformatics , Wiley Pub
6.Stekel , Micrarray BioInformatics , Cambridge
CS 8th sem Web Engineering Syllabus CS 802 Web Engineering Syllabus

CS 8th sem Web Engineering Syllabus CS 802 Web Engineering Syllabus

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RGTU/RGPV CS -802 Web Engineering Syllabus
 RGTU/RGPV Web Engineering SYLLABUS
Computer Science and Engineering CS 8th Semester Syllabus,

PROGRAMME: B.E. Computer Science & Engineering, VIII Semester. 
Course: CS 802 Web Engineering( Proposed)

UNIT-1 
An Introduction to Web Engineering,
History of web Development, Time line, Motivation, Categories of Web Applications, Characteristics of Web Applications. Evolution and  Need for Web Engineering, Web Engineering Models, Software Engineering v/s Web Engineering . World Wide Web: Introduction to TCP/IP and WAP, DNS, Email, TelNet, HTTP and FTP. Introduction to Browser and search engines, Search fundamentals, Search strategies,  Directories search engines and Meta search engines, Working of the search engines , Miscellaneous Web Browser details, Introduction to Web Servers: Features  of web servers, caching, case study-IIS, Apache, Configuring web servers.

UNIT- 2      
Information Architecture: The role of the Information Architect, Collaboration and Communication, Organizing Information, Organizational Challenges, Organizing Web sites parameters and Intranets
Creating Cohesive Websites: Conceptual Overview Website Development, Website Design issues, Conceptual Design, High-Level Design, Indexing the Right Stuff,  Grouping Content. Architectural Page Mockups, Design Sketches, Navigation Systems. Searching Systems Good & bad web design, Process   of Web Publishing. Phases of   Web   Site development, enhancing your web-site, submission of website to search engines

Web security issues, security audit of websites, Web effort estimation, Productivity, Measurement, Quality usability and reliability.

Requirements Engineering for Web Applications: Introduction, Fundamentals, Requirement Source, Type, ,Notations Tools.  Principles Requirements Engineering Activities , Adapting RE Methods to Web Application. 

UNIT- 3
Technologies for Web Applications: HTML and DHTML, HTML Basic Concepts, Static and dynamic HTML, Structure of HTML documents, HTML Elements, Linking in HTML, Anchor Attributes, Image Maps, Meta Information, Image Preliminaries, Layouts, Backgrounds, Colors and Text, Fonts, Tables, Frames and layers, Audio and Video Support with HTML

Database integration, CSS, Positioning with Style sheets, Forms Control, Form. Elements. Introduction to CGI PERL, JAVA SCRIPT, PHP, ASP , Cookies Creating and Reading Cookies 

UNIT-4 
Technologies for Web Applications:
Introduction of XML, Validation of XML documents, DTD, Ways to use XML, XML for data files, HTML Vs XML, Embedding XML into HTML documents, Converting XML to HTML for Display, Displaying XML using CSS and XSL, Rewriting HTML as XML,Relationship between HTML, SGML and XML, web personalization , Semantic web, Semantic Web Services, Ontology.

UNIT- 5
E- Commerce, E-commerce Business
Models, The Internet and World Wide Web: E-commerce Infrastructure, Building an E-commerce Web Site , Electronic Commerce environment and opportunities. Modes of Electronic Commerce, Approaches to safe Electronic Commerce ,Electronic Cash and Electronic Payment Schemes ,Online Security and Payment Systems, E-commerce Marketing Concepts, Advertising on the Internet: issues an Technologies, E-commerce Marketing Concepts Electronic Publishing issues, approaches, legalities and technologies ,Privacy and Security Topics: Introduction, Web Security , Encryption schemes, Secure Web document, Digital Signatures and Firewalls, Cyber crime and laws, IT Act.  
 
TERM WORK
1. At least ten practical experiments based on above syllabus and a mini project is desirable to be completed by a group of three that cover following tools.
• HTML
• DHTML
•PHP
- XML
• Java Script, CGI, PERL
• ASP

Recommended  Books:
1.  Roger S.Pressman, David Lowe, “Web Engineering”, Tata Mcgraw Hill   Publication, 2007 
2.  Achyut S Godbole and Atul Kahate, “Web Technologies”, Tata McGraw Hill
3.  Gopalan N P ,Akilandeswari “Web Technology: A Developer s Perspective” , PHI 
4.  NEIL GRAY “Web server Programming” WIley 
5.  CHRIS BATES Web Programming :Building Internet applications Wiley
6.  Moller, “An Introduction to XML and Web Technologies” , Pearson Education  New Delhi, 2009
7.  Beginning XML 4th Edition Hnter, Refter, Fawset Wiley India
8.  Internet & World Wide Web How to Program, Pearson education, 3rd edition, by: H.M. Deitel, P.J. Deitel,   A.B. Goldberg.
9.  C. Xavier, “Web Technology & Design ”, Tata McGraw Hill. 
10  Ivan Bay Ross, “HTML,DHTML,Java script,Perl CGI” , BPB
CS 8th sem Soft Computing  Syllabus CS 801 Soft Computing Syllabus

CS 8th sem Soft Computing Syllabus CS 801 Soft Computing Syllabus

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RGTU/RGPV CS -801 Soft Computing Syllabus
 RGTU/RGPV Soft Computing SYLLABUS
Computer Science and Engineering CS 8th Semester Syllabus,

Unit – I
  Soft Computing : Introduction of soft computing, soft computing vs. hard computing, various types of soft computing techniques, applications of soft computing. Artificial Intelligence : Introduction, Various types of production systems, characteristics of production systems, breadth first search, depth first search techniques, other Search Techniques like hill Climbing, Best first Search, A* algorithm, AO* Algorithms and various types of control strategies. Knowledge representation issues, Prepositional and predicate logic, monotonic and non monotonic reasoning, forward Reasoning, backward reasoning, Weak & Strong Slot & filler structures, NLP.

Unit – II
  Neural Network : Structure and Function of a single neuron: Biological neuron, artificial neuron, definition of ANN, Taxonomy of neural net, Difference between ANN and  human brain, characteristics and applications of ANN, single layer network, Perceptron training algorithm, Linear separability, Widrow & Hebb;s learning rule/Delta rule, ADALINE, MADALINE, AI v/s ANN.
Introduction of MLP, different activation functions, Error back propagation algorithm, derivation of BBPA, momentum, limitation, characteristics and application of EBPA,

Unit – III
  Counter propagation network, architecture, functioning & characteristics of counter Propagation network, Hopfield/ Recurrent network, configuration, stability constraints, associative memory, and characteristics, limitations and applications. Hopfield v/s Boltzman machine. Adaptive Resonance Theory: Architecture, classifications, Implementation and training. Associative Memory.

Unit – IV
  Fuzzy Logic: Fuzzy set theory, Fuzzy set versus crisp set, Crisp relation & fuzzy relations, Fuzzy systems: crisp logic, fuzzy logic, introduction & features of membership functions,  Fuzzy rule base system : fuzzy propositions, formation, decomposition & aggregation of fuzzy rules, fuzzy reasoning, fuzzy inference systems, fuzzy decision making & Applications of fuzzy logic.

Unit – V
  Genetic algorithm : Fundamentals, basic concepts, working principle, encoding, fitness function, reproduction, Genetic modeling: Inheritance operator, cross over, inversion & deletion, mutation operator, Bitwise operator, Generational Cycle, Convergence of GA, Applications & advances in GA, Differences & similarities between GA & other traditional methods.

CS -801 Soft Computing Syllabus References : 
  • S, Rajasekaran & G.A. Vijayalakshmi Pai, Neural Networks, Fuzzy Logic & Genetic Algorithms, Synthesis & applications, PHI Publication.   
  • S.N. Sivanandam & S.N. Deepa, Principles of Soft Computing, Wiley Publications   
  • Rich E and Knight K, Artificial Intelligence, TMH, New Delhi.   
  • Bose, Neural Network fundamental with Graph , Algo.& Appl, TMH   
  • Kosko: Neural Network & Fuzzy System, PHI Publication   
  • Klir & Yuan ,Fuzzy sets & Fuzzy Logic: Theory & Appli.,PHI Pub.   
  • Hagen, Neural Network Design, Cengage Learning
ME 8th sem CAD/CAM/CIM Syllabus ME804 CAD/CAM/CIM Syllabus

ME 8th sem CAD/CAM/CIM Syllabus ME804 CAD/CAM/CIM Syllabus

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RGTU/RGPV ME 804 CAD/CAM/CIM Syllabus
RGTU/RGPV CAD/CAM/CIM SYLLABUS
Mechanical Engineering ME 8th Semester Syllabus

Branch : Mechanical Engineering, VIII Semester 
Course:  CAD/CAM/CIM

Unit 1 Introduction:  Information requirements of mfg organizations; business forecasting and aggregate production plan; MPS, MRP and shop floor/ Production Activity Control (PAC); Mfg as a system, productivity and wealth creation; production processes on volume-variety axes; importance of batch and job shop production; CIM definition and CIM wheel, evolution and benefits; CIM as a subset of Product Life Cycle (PLC) mgt; design for mfg (DFM) and concurrent engg; product design in conventional and CIM environment; terms like CAD, CAE, CAM, CAP, CAPP, CATD and CAQ.

Unit 2 Graphics and standards: Raster scan, coordinate systems for model (M/ WCS) user and display; database for graphic modeling; PDM, PIM, EDM; define EDM, features of EDM; basic transformations of geometry- translation, scaling, rotation and mirror; introduction to modeling software; need for CAD data standardization; developments in drawing data exchange formats; GKS, PHIGS, CORE, IGES, DXF STEP  DMIS AND VDI; ISO standard for exchange of Product Model data-STEP and major area application protocols.

Unit 3 Geometric
Modeling: Its use in analysis and mfg; 2D and 3D line, surface and volume models; linear extrusion and rotational sweep; Constructive Solid Geometry (CSG); basics of boundary presentation- spline, Bezier, b-spline, and NURBS; sculpture surfaces, classification, basics of coons, Bezier, b-spline and ruled surfaces; tweaking, constraint based parametric modeling; wire-frame modeling, definition of point, line and circle; polynomial curve fitting; introduction to rapid prototyping.

Unit 4 Numeric control and part programming:
Principles of NC machines, CNC, DNC; NC modes of point to point, -line and 2D, 3D contouring; NC part programming; ISO standard for coding, preparatory functions(G)- motion, dwell, unit, preset, cutter compensation, coordinate and plane selection groups; miscellaneous (M) codes; CLDATA and tool path simulation; ISO codes for turning tools and holders; ATC, modular work holding and pallets; time and power estimation in milling, drilling
and turning; adaptive control, sequence control and PLC; simple part programming examples.

Unit 5 Group Technology:
Importance of batch and job shop production; merits of converting zigzag process layout flow to smooth flow in cellular layout, Production Flow Analysis (PFA) and clustering methods; concept of part families and coding; hierarchical, attribute and hybrid coding; OPITZ, MICLASS and DCLASS coding; FMS; material handling; robots, AGV and their programming; agile mfg; Computer Aided Process Planning (CAPP), variant/ retrieval and generative approach

ME804 CAD/CAM/CIM Syllabus References: 
1. S.Kant Vajpay; Principles of CIM; PHI
2. Rao PN; CAD/CAM;TMH 
3. Groover MP; Automation, Production Systems & CIM; P.H.I.
4. Rao PN, Tiwari NK, Kundra TK; Computer Aided Manufacturing; TMH
5. Alavudeen A, Venkteshwarn N; Computer Integrated Mfg; PHI
6. Radhakrishnan P, Subramanian S and Raju V; CAD/CAM/CIM; New age Pub
ME804 CAD/CAM/CIM Syllabus List of Experiments (please expand it):
1. 2D and 3D modeling on CAD software
2. Use of CAM software for writing CNC programs 
3. Study of automatic and semi automatic control system and writing the electrical analogy.
4. Production & layout for GT for group of jobs to be manufactured
5. A case study / tutorial using CAPP Software
6. Writing M & G codes for given operations.
7. Robot and AGV programming
ME 8th sem Refrigeration and Air Conditionin Syllabus ME803 Refrigeration and Air Conditionin Syllabus

ME 8th sem Refrigeration and Air Conditionin Syllabus ME803 Refrigeration and Air Conditionin Syllabus

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RGTU/RGPV ME 803 Refrigeration and Air Conditioning Syllabus
RGTU/RGPV Refrigeration and Air Conditioning SYLLABUS
Mechanical Engineering ME 8th Semester Syllabus

Branch: Mechanical Engineering, VIII Semester 
Course:  Refrigeration and Air Conditionin

Unit-I Introduction: Principles and methods of refrigeration, freezing; mixture cooling by gas reversible expansion, throttling, evaporation, Joule Thomson effect and reverse Carnot cycle; unit of refrigeration, coefficient of performance, vortex tube & thermoelectric refrigeration, adiabatic demagnetization; air refrigeration cycles- Joule’s cycle Boot-strap cycle, reduced ambient cycle and regenerative cooling cycles.

Unit-II Vapour compression system: Vapor compression cycle, p-h and t-s diagrams, deviations from theoretical cycle, sub-cooling and super heating, effects of condenser and evaporator pressure on cop;multi-pressure system: removal of flash gas, multiple expansion & compression with flash inter cooling; low temperature refrigeration: production of low temperatures, cascade system, dry ice, production of dry ice, air liquefaction system,.

Unit-III (a) Vapour absorption system: Theoretical and practical systems such as aqua-ammonia,
electrolux & other systems; (b)  Steam jet refrigeration: Principles and working, simple cycle of
operation, description and working of simple system, (c) refrigerants: nomenclature & classification, desirable properties, common refrigeration, comparative study, leak detection methods, environment friendly refrigerants and refrigerant mixtures, brine and its properties

Unit-IV Psychrometric: Calculation of psychrometric properties of air by table and charts; psychrometric processes:  sensible heating and cooling, evaporative cooling, cooling dehumidification, heating and humidification, mixing of air stream, sensible heat factor; principle of air conditioning, requirements of comfort air conditioning, ventilation standards, infiltrated air load, fresh air load human comfort, effective temperature & chart, heat production & regulation of human body,

Unit-V Air conditioning loads: calculation of summer & winter air conditioning load, bypass factor of coil, calculation of supply air rate & its condition, room sensible heat factor, grand sensible heat factor, =effective sensible heat factor, dehumidified air quantity. Problems on cooling load calculation. Air distribution and ventilation systems


ME803 Ad Hoc Networks References: 
1. Arora CP; Refrigeration and Air Conditioning; TMH
2. Sapali SN; Refrigeration and Air Conditioning; PHI
3. Ananthanarayan; Basic Refrigeration and Air conditioning; TMH
4. Manohar Prasad; Refrigeration and Air Conditioning; New Age Pub
5. Ameen; Refrigeration and Air Conditioning; PHI
6. Pita ; Air conditioning Principles and systems: an energy approach; PHI
7. Stoecker W.F, Jones J; Refrigeration and Air conditioning; McGH, Singapore
8. Jordan RC and Priester GB Refrigeration and Air Conditioning, PHI USA
9. Arora RC; Refrigeration and Air conditioning; PHI Learning


List of Experiments (Please Expand it): Refrigeration and Air Conditioning AU/ ME 803
1. General Study of vapor compression refrigeration system.
2. General Study of Ice Plant
3. General Study and working of cold storage
4. General Study Trane Air Condition (Package Type).
5. General Study of Electrolux Refrigeration
6. General Study One tone Thermax refrigeration unit.
7. General Study of Water cooler
8. General Study of Psychrometers (Absorption type)
9. General Study of Leak Detectors (Halide Torch).
10. General Study and working of Gas charging Rig.
11. General Study of window Air Conditioner.
12. General Study and working of Vapor compression Air conditioning Test rig.
13. Experimentation on Cold Storage of Calculate COP & Heat Loss.
14. Experimentation on Vapor compression Air Conditioning test rig.
15. Changing of Refrigerant by using Gas Charging Kit.
ME 8th sem Machine Design Syllabus ME802 Machine Design Syllabus

ME 8th sem Machine Design Syllabus ME802 Machine Design Syllabus

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RGTU/RGPV ME 802 Machine Design Syllabus
RGTU/RGPV Machine Design SYLLABUS
Mechanical Engineering ME 8th Semester Syllabus

Branch :  Mechanical Engineering, VIII Semester 
Course :  Machine Design

Note: PSG Design data book and/ or Mahadevan and Reddy’s Mechanical design data book are
to be provided/ permitted in exam hall (duly verified by authority)


Unit I Design of Belt, Rope and Chain Drives: Methods of power transmission, selection and design of flat belt and pulley; Selection of V-belts and sheave design; Design of chain drives, roller chain and its selection; Rope drives, design of rope drives, hoist ropes.

Unit II Spur and Helical Gears: Force analysis of gear tooth, modes of failure, beam strength, Lewis equation, form factor, formative gear and virtual number of teeth; Gear materials; Surface strength and  wear of teeth; strength against wear; Design of straight tooth spur and Helical Gears. Bevel Gears: Application of bevel, formative gear and virtual number of teeth; Force analysis; Lewis equation for bevel gears; Strength against wear; Design of bevel gear. 

Unit III Design of I.C. Engine Components: General design considerations in I C engines; design of cylinder; design of piston and piston-rings; design of connecting rod; design of crankshaft.

Unit IV Design of Miscellaneous Components: design of Flanged coupling; Rigid coupling, Design of Pressure vessels subjects to internal pressure, external pressure, design of penetration, design of flanges,  cone  cylinder  junctions ,Materials, Fabrication.

Unit V Optimization: Basic concept of optimization, classification of optimization, optimization techniques, engineering applications of optimization. Classical optimization techniques: unconstrained optimization single-variable optimization, multivariable optimization, solution by direct search method, solution by Lagrange-multipliers method.

ME802 Machine Design Syllabus References: 

1. Shigley J.E.; Machine Design; TMH
2. BhandariVB; Design of Machine Elments; TMH
3. Sharma CS and Purohit K; Design of Machine Elements; PHI Learning.
4. Hall and Somani; Machine Design; Schaum Series; TMH
5. Wentzell TH; Machine Design; Cegage Learning
6. Sharma & Agrawal; Machine Design; Katson
7. Kulkarni SG; Machine Design; TMH
8. Abdul Mubeen; Machine Design; Khanna Publishers
9. Juvinall RC, Marshek KM; Fundamentals of Machine Component Design; Wiley
10. Norton R; Design Of Machinery; TMH

List of Experiment (Pl. expand it):  Designing and sketching of components contained in the syllabus
ME 8th sem Simulation and Process Modeling Syllabus ME80D Simulation and Process Modeling Syllabus

ME 8th sem Simulation and Process Modeling Syllabus ME80D Simulation and Process Modeling Syllabus

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RGTU/RGPV ME 801D Simulation and Process Modeling Syllabus
RGTU/RGPV Simulation and Process Modeling SYLLABUS
Mechanical Engineering ME 8th Semester Syllabus

Branch : Mechanical Engineering, VIII Semester 
Course:  Simulation and Process Modeling

Unit 1: Introduction to modeling and simulation:  Modeling and simulation methodology, system modeling, concept of simulation; gaming; static, continuous and discrete event simulation.  

Unit 2: Basic concept of probability, generation and characteristics of random variables, continuous and discrete variables and their distributions; mapping uniform random variables to other variable distributions; linear, nonlinear and stochastic models

Unit 3; Introduction to Queuing Theory: Characteristics of queuing system, Poisson's formula, birth-death system, equilibrium of queuing system, analysis of M/M/1 queues. Introduction to multiple server Queue models M/M/c Application of queuing theory in manufacturing and computer system 

Unit 4; System Dynamics modeling: Identification of problem situation, preparation of causal loop diagrams and flow diagrams, equation writing, level and rate relationship, Simulation of system
dynamics models.

Unit 5: Verification and validation: Design of simulation experiments, validation of experimental models, testing and analysis. Simulation languages comparison and selection, study of simulation software –Arena, Pro-model, SIMULA, DYNAMO, STELLA, POWERSIM. 

ME80D Simulation and Process Modeling References:
1. Law AM and Kelton WD; Simulation Modeling and Analysis; TMH 
2. Gordon G., System simulation, PHI Learningl 
3. Banks J; Hand book of Simulation; John Wiley.
4. Taha H, Operations Research; PHI.
5. Hillier FS, Liberman GJ; Introduction to OR; TMH.
6. Deo N; System Simulation with Digital Computer; PHI Learning
7. Harrell C, Ghosh B, Bowden R; Simulation Using Promodel; MG Hill
8. Seila, Ceric and Tadikmalla; Applied Simulation Modeling, Cengage 
9. Payer T., Introduction to system simulation, McGraw Hill.
10. Sushil, System Dynamics, Wiley Eastern Ltd.
11. Spriet JA; Computer Aided Modeling and Simulation, Academic Press INC; USA
ME 8th sem Reliability and Maintenance Syllabus ME801C Reliability and Maintenance Syllabus

ME 8th sem Reliability and Maintenance Syllabus ME801C Reliability and Maintenance Syllabus

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RGTU/RGPV ME 801C Reliability and Maintenance Syllabus
RGTU/RGPV Reliability and Maintenance SYLLABUS
Mechanical Engineering ME 8th Semester Syllabus

Branch : Mechanical Engineering, VIII Semester 
Course:  Reliability and Maintenance
Unit 1 Basic Concepts of Reliability: Probability distributions used in maintenance engineering- Binomial, Poisson, Exponential, Normal, Log-normal, Gamma and Weibull distribution; failure rate, hazard rate, failure modes, MTTR, MTBF, MTTF

Unit 2 System Reliability Models: System reliability–n-component series systems, m-component parallel systems and combined system; standby systems; K-out-of-m systems; redundancy techniques
in system design; event space, decomposition (Key Stone), cut and tie sets, Markov analysis, reliability
and quality, unreliability, maintainability, availability

Unit 3 Maintenance Concepts and Strategies: Introduction, maintenance functions and objectives, maintenance planning and scheduling, maintenance organization. General Introduction to Maintenance Types: Breakdown, emergency, corrective, predictive, and preventive; maintenance prevention; design-out maintenance, productive maintenance, shutdown maintenance and scheduled maintenance. 

Unit 4  Condition Based Maintenance: Principles of CBM, pillars of condition monitoring, CBM implementation and benefits; condition monitoring techniques- visual monitoring, vibration monitoring, wear debris monitoring, corrosion monitoring, performance monitoring 

Unit 5 Reliability Centered Maintenance (RCM):– Concept, methodology, benefits; Total Productive Maintenance: Evolution of TPM, TPM objectives, concept, pillars of TPM. Failure Modes and Effects Analysis (FMEA)/ Failure Modes, Effects and Criticality Analysis (FMECA): Overview, elements of FMECA, applications and benefits, risk evaluation, risk priority numbers, criticality analysis, process FMEA, qualitative and quantitative approach to FMECA; design FMEA and  steps for carrying out design FMEA

ME801C Reliability and Maintenance References:
1. Ebeling CE; An Introduction To Reliability & Maintainability Engg; TMH
2. Srinath L.S; Reliability Engineering; East West Press.
3. Naikan; Reliability engg and life testing; PHI
4. Kapur KC and Lamberson LR; Reliability in Engineering Design; Wiley India
5. Telang AD and Telang A; Comprehensive Maintanance Management; PHI
6. Mishra R.C; Reliability and Maintenance Engineering; New age International publisher.
7. Balaguruswamy; Reliability Engg; TMH 
8. Dhillon; Engg Maitainability- How to design for Reliability and easy maintenance; PHI
9. Davidson John; The Reliability of mechanical system; Institution of Mech. Engineers, London
10. Patrick D.T and O.’Connor; Practical Reliability Engineerin; John Wiley and Sons
11. Modarre M; Reliability and Risk Analysis, Marcel Dekker Inc CRC Press