03.601            DIGITAL SIGNAL PROCESSING    (TA)           3 -1-0

Module I  (Quantitative Approach)

DSP & its benefits – Key DSP operations – Real world applications of DSP – Applications in Audio, Telecommunication & Biomedical. Sampling of continuous time signals – Anti-aliasing filters – Reconstruction filters. DFT – DFT & its properties – Linear filtering methods – Computation of DFT – FFT Algorithms and Applications -  Quantization effects in the computation of DFT. 

Module II  (Quantitative Approach)

Digital filter structures, Block diagram & signal flow graph representation – Basic FIR &  IIR structures – State Space Structures – All pass filters. Digital filter design – IIR filter design – Impulse invariance & Bilinear methods – FIR filter design based on window methods (Truncated fourier series, Bartlett, Blackman, Hanning, Hamming, Kaiser) & frequency sampling approach.

Module III  (Quantitative Approach)

Adaptive digital filter – basic concepts and applications.

Quantization & Round off effects in digital filters.

Multirate DSP – Sampling rate alteration devices – Filters – Design of decimator and Interpolator. Digital Signal Processors – Architectures for signal processing – General purpose processors – Special purpose DSP hardwares. Application and design studies – Evaluation boards for real time signal processing – Detection of fetal heart beats, Equalization of digital audio signals – Spectral analysis of audio signals, Transmultiplexers, Multitone transmission of digital data.

Text  Books

1. Module I Ref (1), (2) & (3) ; Module II Ref (1), (2), (3) & (4); Module III Ref (1) & (3)

References

1. Sanjith K.Mitra :  Digital Signal Processing, 2^nd edn., Tata McGraw Hill, New Delhi.
2. John G Proakis, Dimitris G  Manolakis - Digital Signal Processing , 3^rd ed., Prentice Hall of India,  New Delhi.
3. Emmanuel C. Ifeachor, Barrie W. Jervis:  Digital Signal Processing, 2^nd  edn., Pearson Education / PHI
4. A V Oppenheim & Ronald W.Schafer:  Discrete Time Signal Processing,  2^nd edn., Prentice Hall of India,  New Delhi.
5. Ramesh Babu  P., Digital Signal Processing ,  Scitech Publications (India) Pvt.Ltd. 
6. Steven W Smith : The  Scientist and Engineer’s Guide to Digital Signal Processing , California Technical Publishing, San Diego, California.

Question Paper               

The question paper shall consist of two parts. Part  I  is to cover the entire syllabus, and carries 40 marks. This shall contain 10 compulsory questions of 4 marks each. Part II is to cover 3 modules, and carries 60 marks. There shall be 3 questions from each module (10 marks each) out of which 2 are to be answered.

03.602    MICROPROCESSORS  (TA)

Module 1

General architecture of a microprocessor, hardware architecture of 8086, addressing modes, instruction set, instruction templates, instruction execution timing.

Assembly language programming, programming examples. Modular programming – Assembler instruction format, Different programming models, Assembler directives and operators, Assembly process, Linking and relocation, stacks, procedures, interrupt routines, macros.        

Module II

8086 hardware design - Bus structure, bus buffering and latching, system bus timing with diagram, memory (RAM and ROM) interfacing, memory address decoding, I/O interfacing – serial and parallel I/O, Programmed I/O, Interrupts and their processing, interrupt driven I/O.

Minimum and maximum mode configurations of 8086,  8087 co-processor architecture and configuration. 

Comparative study of 80386, Pentium Architecture and 68000 Processors.

Module III

Study of support chips – 8255 – Programmable peripheral interface, 8251 – Universal synchronous Asynchronous Receiver Transmitter, 8259 – Programmable Interrupt controller, 8279 – Programmable Keyboard / Display Interface, 8257 – Programmable DMA Controller, 8288 – Bus controller, 8253 – Programmable Interval Timer, 8086 based system architecture and design with these support chips.

Text Books:

1. Douglas V. Hall : Microprocessors and Interfacing, TMH, New Hill
2. Barry B Bray : The Intel Microprocessor 8086/80866, 80186/80188, 80236, 80386, 80486, Pentium and Pentium Pro, Pearson Education Asia.

References :

1. Peter Abel : IBM PC Assembly Language Programming , PHI.
2. M. Rafiquzzaman : Microprocessor Theory and Application,  PHI.
3. Yu Chen Liu & Glenn A Gibson : Microcomputer Systems; The 8086/8088 Family, PHI, New Delhi.

Question Paper               

The question paper shall consist of two parts. Part  I  is to cover the entire syllabus, and carries 40 marks. This shall contain 10 compulsory questions of 4 marks each. Part II is to cover 3 modules, and carries 60 marks. There shall be 3 questions from each module (10 marks each) out of which 2 are to be answered.

03.603            Power Electronic Systems (A)         2-1-0

Module I

Power diodes- characteristics, power diode types, series and parallel connected diodes, diode circuits and rectifiers- diodes with RC RL LC and RLC loads, three phase bridge. Thyristors – characteristics, two-transistor model, turn on and turn off, thyristor types, firing circuits, Thyristor commutation techniques- natural and forced commutation- different types. Power transistors- Power BJT, Power MOSFET, SIT and IGBT, steady state and switching characteristics of BJT and Power MOS. drive requirements and design of simple drive circuits for power BJT, MOSFET and IGBT. Spice models of the power devices

Module II

Controlled rectifiers- principle of phase controlled converter operation  Single phase and three phase semi converters, full converters, and  dual converters, power factor improvements, design of converter circuits, Effects of load and source inductances. AC voltage controllers- Principle of on-off and phase angle control, single phase controllers with resistive and inductive loads, three phase half wave and full wave controllers, cycloconverters

Module III

DC choppers – principle of step down & step up operations – step down chopper with RL load, Class A, B, C, D & E choppers. Switched mode regulators – Buck, Boost, Buck-Boost and buck regulators. Derived convertors – Forward, push-pull, Half Bridge and Full bridge converters, SMPS – Design of DC-DC converters with PWM IC (TL494). Switched mode inverters – principles of PWM switching schemes for square wave and sine wave output. Battery charging circuits, UPS – working principle and design (On-line and off-line). Motor drives – separately excited DC motor drives, v/f control for induction motors. 

Text Books:

1. Md. H.Rashid, Power Electronics: Circuits, Devices and Applications 2nd edition, Prentice Hall of India

2. Ned Mohan et. al. , Power Electronics : Converters, Applications and Design,  John Wiley  and Sons.

3. Jai P. Agrawal, Power electronic Systems: Theory and Design, Pearson Education

References:

1. Michael Jacob, Power Electronics Principle and Application, Thomson Delmar Series

2. P.C Sen. Modern Power Electronics, Wheeler Publishers.

Question Paper               

The question paper shall consist of two parts. Part  I  is to cover the entire syllabus, and carries 40 marks. This shall contain 10 compulsory questions of 4 marks each. Part II is to cover 3 modules, and carries 60 marks. There shall be 3 questions from each module (10 marks each) out of which 2 are to be answered.

03.604            TRANSDUCERS & MEASUREMENT SYSTEMS (A)        2-1-0

Module I

Mechanical transducers (Principle, working and types) – Temperature – Pressure – Force – Torque – Density – Level – Viscosity – Flow – displacement to pressure  - Vibration - Seismic – Gyroscope.  Active electrical transducers (Principle, working and types) – Thermoelectric – Piezo electric – Magnetostrictive – Hall effect – Electromechanical – Photoelectric – Ionization – Digital – Electro chemical.

Module II

Passive electrical transducers (Principle, working and types) -  Resistive – Inductive – capacitive. Feedback transducer systems – Inverse transducers – force and torque  balance – current, Heat flow, voltage and temperature balances. Ultrasonic measurements – link – Transmitters and Receivers – Principles of ultrasonic transmission – Examples of ultrasonic measurement systems. Display and Recording systems – Data loggers – Analog indicators – Digital readout systems – Analog recorders – Magnetic tape recorders – UV and closed loop recorders – Digital printers.

Module III

Applications of sensors – Measurement of angular acceleration, velocity and displacement – Measurement of linear acceleration, velocity and displacement – Measurement of force and torque – Measurement of pressure and temperature. Specialised Measurement systems – Flow measurement.  Intrinsically safe  measurement system. Heat transfer effects in measurement systems. Measurement of Noise and Noise level meters. Measurement of field strength.

Text Books:

1) Module I Ref (1); Module II Ref (1) & (2); Module III (2) & (3)

Reference:

1.  D. V. S. Murthy, Transducers and Instrumentation, PHI

2.  John P. Bentley, Principles of Measurement Systems, 3^rd edn., Pearson Education

3.  Robert B. Northrop, Introduction to Instrumentation and Measurements, 1997, CRC Press

4.  Ernest Doebelin, Measurement Systems, 5^th edn., McGraw Hill

Question Paper               

The question paper shall consist of two parts. Part  I  is to cover the entire syllabus, and carries 40 marks. This shall contain 10 compulsory questions of 4 marks each. Part II is to cover 3 modules, and carries 60 marks. There shall be 3 questions from each module (10 marks each) out of which 2 are to be answered.

03.605            CONTROL  SYSTEM THEORY (A)                        2-1-0

Module I  (Quantitative approach)

Modeling of dynamic systems – Control Systems – Mechanical, Electrical and Electronic Systems – Signal flow graphs – Linearization of nonlinear models. Mathematical modeling of Fluid systems and Thermal systems. Transient and steady state response analysis of first and second order systems. Root locus analysis – Plots – Rules for construction – Positive feedback and conditionally stable systems.

Module II  (Quantitative approach)

Routh’s stability criterion. Frequency response analysis – Bode diagrams – Polar plots – Nyquist stability – Stability analysis – Relative stability – Unity feed back systems.

Module III  (Quantitative approach)  

Control system design by frequency response – Lead, Lag and Leg-lead compensation.   PID controls – Tuning rules of PID controllers – optimal sets of parameter values – Modifications of PID control schemes. Two degree of freedom control. Zero placement Approach and design.

Text Book:

1. Katsuhiko Ogata, Modern Control Engineering, 4^th edn, Pearson Education, 2002

References:

1. Benjamin .C Kuo, Automatic Control Systems, 7^th Edn. Prentice Hall of India, New Delhi

2. Norman S Nise, Control System Engineering, Addison Wesley.

3. Richard C Dorf and Robert H Bishop Modern Control System. 9^th ed., Pearson Education, 2001

4. Dean Fredrick & Joe Chow Feedback Control Problems using MATLAB, Addison Wesley, Brooks/ 

    cole.

5. Graham C. Goodwin, Control System Design, Pearson Education, 2001.

6. Bandyopadya – Control Engineering - PHI

Question Paper               

The question paper shall consist of two parts. Part  I  is to cover the entire syllabus, and carries 40 marks. This shall contain 10 compulsory questions of 4 marks each. Part II is to cover 3 modules, and carries 60 marks. There shall be 3 questions from each module (10 marks each) out of which 2 are to be answered.

Assignment for Sessional marks shall be problems based on MATLAB / any other software packages covering the syllabus.

03.606    (1)      ANALOG CIRCUIT  DESIGN (TA)                      3-1-0                           
(ELECTIVE – II )     

Module I

Basic MOS device physics, MOS   I/V characteristics. MOS  device layout, device capacitance, small signal model.

Single stage MOS  amplifiers –CS,CD,CG and cascode amplifiers ,gain and frequency response, class B and class AB amplifiers.

Differential Amplifiers,   MOS  load, Current source, Current mirror , cascode load.

Noise in CS, CG, CD and Differential amplifiers.

Module II

MOS  Operational Amplifiers, one stage- cascode and folded cascode, two stage op-amp, Common mode feed back ,Input range limitation, Noise in Op-amp, frequency compensation and slew rate in two stage Op-amps.

Basic MOS Op-amp design, op-amp with output buffer, device sizes.  Basic structure of operational Trans -conductance amplifiers-High speed MOS op-amp ,MOS comparator, Analog MOS Multipliers - basic principles.

Module III

CMOS Switch, sample and hold circuit, switched capacitor Integrator, Summing amplifiers, double Integrator biquad, higher order SC filter - realization using first order and second order, CMOS charge scaling DAC, Cyclic and pipeline DAC, CMOS charge distribution ADC, charge pump PLL, CMOS  VCO, PFD using charge pump, CMOS Voltage reference, Band gap voltage reference.

Text Books:

1. Behzad Razavi: Design of Analog CMOS Integrated Circuits,  TMH 2002.
2. R Jacob  Baker, Harry  W. Li , David E Boyce:  CMOS Circuit Design, Lay out and Simulation - IEEE press, 2002.

Reference:

K R Botkar : Integrated Circuits,  10^th edn. , Khanna Publishers

Question Paper               

The question paper shall consist of two parts. Part  I  is to cover the entire syllabus, and carries 40 marks. This shall contain 10 compulsory questions of 4 marks each. Part II is to cover 3 modules, and carries 60 marks. There shall be 3 questions from each module (10 marks each) out of which 2 are to be answered.

03.606   (2)            DESIGNING WITH VHDL       (TA)                            3-1-0

(ELECTIVE – II )

Module I

Identifiers, data objects, Data types, and operators in VHDL.  Entity declaration. Architecture modeling - structural, behavioral & data flow. Constant, signal, aliases, and variable assignments. Conditional statements – if ..then ..else , when..else, with select , and case statements.  Loop statements – for, while, loop, and generate statements.  exit, next, block, assertion, and report statements. Generics. Configurations - specification declaration, default rules, conversion functions, instantiation, and incremental binding. 

Module II

Subprograms - functions and procedures, operator overloading. Packages and libraries – package declaration, package body, design of file, design of libraries.  Attributes  - user defined and predefined. Introduction to test bench generation –waveform generation, wait statement, text file reading and dumping results in text file.  Testing – fault models, different faults. Fault simulation- ATPG, DFT, boundary scan, and BIST

Module III

Top-down design, FSM implementation in VHDL - design issues in synchronous machines-clock skew, gating the clock, asynchronous inputs. synchronizer failure, metastability resolution time, reliable synchronizer design.    Moore & Melay machines. State encoding,  interacting state machines. Introduction to CPLD, FPGA & design with CPLD and FPGA.

Text Books:

1.  Kevin Skahill.:  VHDL for Programmable Logic,  Addison & Wesley.

2. John F. Wakerly:  Digital Design Principles and Practices,  PHI.

3. J Bhasker : VHDL Primer, Pearson Education.  

References:

1. Nawabi.: VHDL - Analysis and Modelling of Digital Systems., 2^nd ed., Mc Graw Hill.
2. Douglas Perry: VHDL,  Mc Graw Hill.
3. VHDL, IEEE Standard Reference Manual.

Question Paper               

The question paper shall consist of two parts. Part  I  is to cover the entire syllabus, and carries 40 marks. This shall contain 10 compulsory questions of 4 marks each. Part II is to cover 3 modules, and carries 60 marks. There shall be 3 questions from each module (10 marks each) out of which 2 are to be answered. (60% weightage to be given to programming.)

03.606 (3)             LINEAR ALGEBRA & APPLICATIONS IN ELECTRONICS          (TA)    3-1-0

(ELECTIVE – II )

Module I  (Quantitative Approach)

Linear Models in Engineering – Systems of linear equations, Row reduction and Echelon forms, Vector equations, Matrix equation, Solution sets of linear systems, Linear independence, Linear transformation, Models in Engineering, Matrix operations, Invertible Matrices, Partitioned Matrices, Matrix factorizations, Solutions of linear systems, Leontief Input-Output Model, Application to Computer Graphics.

Module II  (Quantitative Approach)

Determinants – Properties – Grame’s Rule, Volume and linear transformations. Vector spaces & Sub spaces, Null & Column spaces, Linear transformations, Bases, Co-ordinate systems, dimension, Rank, Change of basis, Application to difference equations and Markov Chains. Eigen values & Eigen Vectors – Characteristic equation, diagonalization, linear transformations, complex Eigen values,  discrete dynamical systems, Application to differential equations.

Module III  (Quantitative Approach)

Orthogonality & Least – squares – Inner product, length and orthogonality, Orthogonal sets & projections, Gram – Schmidt  Process, Least – Squares Problems, Inner product spaces, Applications of Inner Product spaces. Symmetric Matrices & quadratic forms –  Constrained optimization, singular value decomposition, Application to Image processing. Numerical Techniques-Gaussianelimination,LU decomposition,Practical difficulties in solving equations,Iterative methods for solving linear equations.

Text Books :

David C Lay : Linear Algebra and its Applications, 2^nd Edn., Peason Education Asia

Gareth Williams : Linear Algebra with Applications, 4^th Edn., Jones & Bartlett,   Mathematics.

Arch W.Naylor R.Sell: Linear operator Theory, Vol 40 , Springer

Question Paper               

The question paper shall consist of two parts. Part  I  is to cover the entire syllabus, and carries 40 marks. This shall contain 10 compulsory questions of 4 marks each. Part II is to cover 3 modules, and carries 60 marks. There shall be 3 questions from each module (10 marks each) out of which 2 are to be answered.

03.606 (4)       FUZZY  SYSTEMS        (TA)            3-1-0

(ELECTIVE – II )

Module I  (Quantitative Approach)

Introduction to Fuzzy sets and systems. Basics of fuzzy sets, membership function, support of a fuzzy set, height - Normalised fuzzy set, a - cuts (decomposition of a fuzzy set), set theoretic definitions on fuzzy sets, complement, intersection and union equality, subsethood - basic definition based on membership functions. The law of the excluded middle and law of contradiction on fuzzy sets. Properties of fuzzy sets operations (logical proof only). Extension of fuzzy sets concepts - type-2 and level 2 fuzzy sets - examples.

Module II  (Quantitative Approach)

Operations on fuzzy sets - intersection, algebraic sum - product, bounded sum - product, drastic sum product, t-norms and  t-conorms(s - norms) on fuzzy sets, typical parameterised t - norms and s-norms(with simplified proof). Extension  principle and its applications. Fuzzy relation. Resolution form of a binary fuzzy relation. Operations on fuzzy relations - projection, max.-min. and min and max, compositions cylindric extension. Similarity relations - Reflexivity, symmetry, transitivity. Further operations on fuzzy sets, concentration, dilation, contrast intensification, linguistic hedges.

Module III  (Quantitative Approach)

Logical operations on fuzzy sets – Negation –  Conjunction, disjunction, implication, fuzzy inference. Block diagram of a fuzzy logic system. Fuzzy rule base –  simplification of compound rule base – fuzzy inference – max. – min, man product, man drastic product, man bounded product. Defuzzification – Centre of gravity, center of sums, weighted average etc. Fuzzy pattern recognition-Feature analysis, Partitions, Identification, Multifeature recognition. Fuzzy control systems- Review of control theory for fuzzy controls, Simple controllers,General controllers,Stability,Models,Inverted pendulam,Aircraft landing control, Aircondioner control.

 Text Books:

1. C.T Lin & C S George Lee:  Neural Fuzzy Systems, Prentice Hall. (Module 1, 2, 3)
2. Ahamad M. Ibrahim :  Introduction to Applied Fuzzy Electronics, PHI. (Module 3)
3. S. Rajasekharan, G A Vijayalakshmi Pai : Neural Networks, Fuzzy logic and Genetic Algorithms, PHI.
4. Timothy J. Ross, Fuzzy Logic with Engineering Applications, 2/e, McGraw Hill.

References:

1. Earl Cox: Fuzzy Systems Handbook, Associated Press
2. Klir and Yuan:  Fuzzy Sets and Fuzzy Logic-  Theory and Applications, Prentice Hall of India.
3. Bart Kosko: Fuzzy Engineering, Prentice Hall.
4. Bart Kosko: Fuzzy Thinking , Hooper Collins Publications.
5. Yen:  Fuzzy Logic: Intelligence, Control and Instrumentation , Pearson Education, 2002

Question Paper               

The question paper shall consist of two parts. Part  I  is to cover the entire syllabus, and carries 40 marks. This shall contain 10 compulsory questions of 4 marks each. Part II is to cover 3 modules, and carries 60 marks. There shall be 3 questions from each module (10 marks each) out of which 2 are to be answered.

03.606 (5)              ELECTRONIC MATERIALS     (TA)                          3-1-0

(ELECTIVE – II )

Module I

Crystallography and crystalline Defects: Crystallography, Directions and planes, Crystalline defects, line defects, Planar defects, Volume defects, Gettering in Si. Metallization and Phase Diagrams: Lever rule and phase rule, Eutectic system, silicide metallization, Ternary phase diagrams, Metal Si & O₂ interactions. Oxidation of silicides, Metal GaAs interaction, Stable Metallization for GaAs.

Module II

Reaction kinetics: Silicides, Aluminides and diffusion barrier, Silicide formation, Al-Pd₂Si  interactions, Al Au interactions, diffusion barrier Alloy- Si interactions. Use of band theory and occupation statistics to explain existence and basic properties of metals and nonmetals, Optical absorption in SC, light emission from SC. Binary III-V compounds, Mixed crystals.

Module III

Applications of Electronic Materials – Microelectronics – microelectronic semiconductor devices. Opto- electronics – materials for opto electronic devices – Quantum electronics – superconducting materials – applications of superconductors – Magnetic materials – Magnetic recording materials – electronic materials for transducers – Sensors and actuators – electronic materials for radiation detection. 

Text Book:

J W Mayer & S. S. Lau: Electronic Material Science for Integrated Circuits in Si & GaAs, PHI, 1990.

Reference :

D. Jiles : Introduction to the Electronic Properties of Materials,  Chapman & Hall. 1994.

Question Paper               

The question paper shall consist of two parts. Part  I  is to cover the entire syllabus, and carries 40 marks. This shall contain 10 compulsory questions of 4 marks each. Part II is to cover 3 modules, and carries 60 marks. There shall be 3 questions from each module (10 marks each) out of which 2 are to be answered.

03.606 (6)       GRAPH THEORY      (TA)               3-1-0

(ELECTIVE – II )

Module I  (Quantitative Approach)

Graphs – Application of graphs – Finite and Infinite graphs – Incidence and Degree – Isolated Vertex, Pendant Vertex and Null Graph – Isomorphism – Sub graphs – Walks, Paths and Circuits – Connected Graphs, Disconnected graphs and Components – Euler Graphs – Operations on Graphs – Hamiltonian Paths and Circuits. Trees – Pendant Vertices in a Tree – Distance and Centers in a Tree – Rooted and Binary Trees – On Counting Trees – Spanning Trees – Fundamental Circuits – Finding All Spanning Trees of a Graph – Spanning Trees in a Weighted Graph. Cut-Sets – All Cut-Sets in a Graph – Fundamental Circuits and Cut-Sets – Connectivity and Separability – Network Flows – 1-Isomorphism, 2-Isomorphism.

Module II  (Quantitative Approach)

Combinatorial and Geometric Graphs – Planar Graphs –  Different Representations of a Planar Graph – Detection of Planarity – Geometric Dual – Combinatorial Dual. Sets with one operation – sets with two operations – Modular Arithmetic and Galois Fields – Vectors and Vector spaces – Vector space Associated with a graph – Basis vectors of a graph – Circuit and Cut-set subspaces – Orthogonal vectors and spaces.  Incident Matrix – Sub matrices of A(G) – Circuit Matrix – Fundamental Circuit Matrix and rank of B – Cut-Set Matrix – Relationships among A_f , B_f  and C_f  - Path Matrix – Adjacency Matrix.

Module III  (Quantitative Approach)

Chromatic Number –  Chromatic Partitioning – Chromatic Polynomial – Matchings – Coverings.

Directed Graph – Digraphs and Binary Relations – Directed Paths and Connectedness – Euler Digraphs – Trees with Directed Edges – Fundamental Circuits in Digraphs – Matrices A, B and C of Digraphs – Adjacency Matrix of a Digraph. Enumeration of Graphs –  Counting Labeled Trees – Counting Unlabeled Trees. Contact Networks – Analysis of Contact Networks – Synthesis of Contact Networks – Sequential Switching networks – Unit cube and its graph- Graphs in Coding Theory.

Text Book:

Narasingh Deo : Graph Theory with Applications to Engineering and Computer Science,  PHI

Reference:

1.      Harary : Graph Theory,  Narosa Publishing House.

2.      V K Balakrishnan : Graph Theory, Schaum’s Series.

3.   Reinhard Diestel :  Graph Theory, Springer – Verlag.

03.606  (7)  ARTIFICIAL  INTELLIGENCE  &  EXPERT  SYSTEMS   (TA)   3-1-0

(ELECTIVE – II )

Module I

Definition - history and applications - propositional calculus - predicate calculus - inference rules - structures and strategies for state space search - heuristic search algorithms - heuristics in games - complexity issues - control and implementation of state space search - production systems - planning - the blackboard architecture Introduction to understanding natural language - introduction to automated reasoning - introduction to machine learning

Module II

Knowledge intensive problem solving - expert system technology - rule-based expert systems - model based reasoning - case based reasoning - knowledge representation problem - reasoning with uncertain or incomplete information - statistical approach - non-monotonic systems - fuzzy sets - knowledge representation - languages - issues - network representation - conceptual graphs - structured representation

Module III

Languages and programming techniques for AI - overview of LISP - search - higher order functions and procedural abstractions - search strategies - pattern matching - recursion - interpreters - logic programming in LISP - streams and delayed evaluation - expert system shell in LISP - network representations and inheritance - CLOS

Text book:

Luger G.F. & Stubblefield W.A., Artificial Intelligence, Addison Wesley

References:

1. Nilsson N.J., Artificial Intelligence - A New Synthesis, Harcourt Asia Pte. Ltd

2. Elain Rich & Kevin Knight, Artificial Intelligence, Tata McGraw Hill

3. Tanimotto S.L., The Elements of Artificial Intelligence, Computer Science Press

4. Winston P.H., LISP, Addison Wesley

Question Paper               

The question paper shall consist of two parts. Part  I  is to cover the entire syllabus, and carries 40 marks. This shall contain 10 compulsory questions of 4 marks each. Part II is to cover 3 modules, and carries 60 marks. There shall be 3 questions from each module (10 marks each) out of which 2 are to be answered.

03.607             INDUSTRIAL ELECTRONICS LAB (A)       0-0-2

LIST OF EXPERIMENTS

1.     Linear Ramp Firing Circuits

2.     Study of PWM IC TL 494

3.     Battery charger

4.     Step up DC-DC converter

5.     Push pull DC- DC Converter

6.     Application of optocoupler IC MCT2E

7.     AC phase control circuit

8.     Buck DC-DC Converters

9.     Simple SMPS

10.  Half bridge and full bridge converters

11.  Study of DC Drive

12.  Regulation Characteristics of DC Drive

13.  Basic Inverter Circuits

14.  Basic Display Systems

Note

For University examination, the following guidelines should be followed regarding award of marks

(a) Circuit and design                -25%

(b) Result & Performance         -50%

(c) Viva voce                            -25%

Practical examination to be conducted covering entire syllabus given above

03.608                                     MINI PROJECT ( TA)                            0-0-4

Each student should conceive, design develop and realize an electronic product. The basic elements of product design - the function ergonomics and aesthetics  - should be considered while conceiving and designing the product. The electronic part of the product should be an application of the analog & digital systems covered up to the 6^th semester. The realization of the product should include design and fabrication of PCB. Study of PCB design (single sided and double sided) may use any available software. The student should submit the report at the end of the semester.  The product should be demonstrated at the time of examination.

Note:

  For University examination, the following guidelines should be followed regarding award of marks:

(a)        Demonstration                          - 30%

(b)        Completeness and Novelty     - 30%

(c)        Viva Voce                                - 40%

03.609           ELECTRICAL MACHINES LABORATORY  (A)     0-0-2

1.     Measurement of 3 phase power using 2 watt meters

2.     Transformation Ratio and load test on single phase transformer

3.     OC & SC tests on single phase transformer  pre determination of efficiency and regulation

4.     Separation of core losses in a single phase transformer

5.     OCC of self exited  DC generator

6.     Determination of internal & external characteristics of Shunt Generator

7.     Break test on DC series Motor - determination of motor characteristics

8.     Induction motor starting and load tests.

9.     No load and blocked rotor tests on induction motor.

10. Characteristics of Single phase Induction motor

11. V/f control of 3f induction motor

12. Speed control of DC motor using Power Converters

13. Study of speed control of stepper motor

Note

For University examination, the following guidelines should be followed regarding award of marks

(a) Circuit and Assembling        -25%

(b) Result & Performance         -50%

(c) Viva voce                            -25%

Practical examination to be conducted covering entire syllabus given above.