school of engineering & technology dual … practical eec42201 analog electronics lab (ece) ......
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SCHOOL OF ENGINEERING & TECHNOLOGY
Dual PROGRAM: B Tech + M Tech in Electronics and Communication Engineering
Course Structure
SEMESTER I S.
No Type Course
code Course Title L T P Contact
Hrs/wk Credits
1 Theory SMA41101 Mathematics-I 3 1 0 4 4.0 2 Theory SPH41109 Physics – I 3 0 0 3 3.0 3
Theory ECS41101 Programming and
Data Structure 3 0 0 3
3.0 4 Theory HEN41117 HSS –I 3 0 0 3 3.0 5 Theory HEN41119 HSS –II 3 0 0 3 3.0 6 Practical SPH41209 Physics – I Lab 0 0 3 3 2 7 Practical ECS41201 Data Structure Lab 0 0 3 3 2 8
Practical ECE41201 Engineering. Drawing
and CAD 1 0 3 4
3 Total 16 1 9 26 23
SEMESTER II
S.
No Type Course
code Course Title L T P Contact
Hrs/wk Credits
1 Theory SMA41102 Mathematics-II 3 1 0 4 4.0 2 Theory SPH41108 Physics - II 3 0 0 3 3.0 3 Theory SCY41106 Chemistry 3 0 0 3 3.0 4
Theory EEE41102 Electrical
Technology 3 0 0 3
3.0 5 Theory SBT41108 Life Sciences 3 0 0 3 3.0 6
Theory EME41104 Engineering
Mechanics 3 0 0 3
3.0 7 Practical SCY41206 Chemistry Lab 0 0 3 3 2 8
Practical EEE41202 Electrical
Technology Lab 0 0 3 3
2 9
Practical EME41204 Engineering
Workshop 0 0 3 3
2 Total 18 1 9 28 25
Math-1 : Calculus & Differential Equations. Equ.
Math-II : Linear Algebra, PDE, Complex Analysis Phy-I : Engineering Physics
Phy-II : Materials Science
HSS-I : From a list of Language related topics
HSS-II : From a list of Law related topics
Total Credit (Second Year): 48
SEMESTER III
S. No Type of
Course
Course
Code
Course Title L T P Contact
hrs/wk
Credits
1 Theory SMA42101 Transform Calculus (Math) 3 1 0 4 4
2 Theory EEE42101 Signals and Networks (EE) 3 0 0 0 3
3 Theory EEC42101 Analog Electronics (ECE) 3 0 0 3 3
4 Theory EEC42103 Semiconductor Devices (ECE) 3 0 0 3 3
5 Theory ----- Energy Resources (ME) 3 0 0 3 3
6 Theory HEN42111 HSS –III 3 0 0 3 3
7 Theory -- Non Credit Course -III 0 0 0 0 0
8 Practical EEE42201 Signals and Networks Lab (EE) 0 0 3 3 2
9 Practical EEC42201 Analog Electronics Lab (ECE) 0 0 3 3 2
10
Practical EEE42203
Semiconductor Devices Lab
(ECE) 0 0 3
3
2
Total 18 1 9 28 25
SEMESTER IV
S.
No
Type of
Course
Course
Code
Course Title L T P Contact
hrs/wk
Credits
1 Theory SMA42102 Probability and Statistics (Math) 3 0 0 3 3
2 Theory EEC42102 Digital Electronics 3 0 0 3 3
3 Theory EEC42104 Analog Communication 3 0 0 3 3
4 Theory EEC42106 Digital Signal Processing 3 0 0 3 3
5 Theory EEC42108 Antenna and Wave Propagation 3 0 0 3 3
6 Theory HEC42180 HSS-IV 3 0 0 3 3
7 Theory -- Non Credit Course –IV 0 0 0 0 0
8 Practical EEC42202 Digital Electronics Lab 0 0 3 3 2
9 Practical EEC42204 Analog Communication Lab 0 0 3 3 2
10 Practical EEC42206 Digital Signal Processing Lab 0 0 3 3 2
11
Practical EEC42208
Antenna and Wave Propagation
Lab 0 0 3
3
2
Total 18 0 12 30 26
HSS-III : From a list of Language related topics
HSS-IV and V: From a list of Economics and Finance related topics
Total Credit (Second Year): 51
SEMESTER V
S.
No
Type of
Course
Course
Code
Course Title L T P Contact
hrs/wk
Credits
1
Theory EEC43101
Microprocessors and
Microcontrollers 3 0 0
3
3
2 Theory EEC43103 Digital Communication 3 0 0 3 3
3 Theory SGY43113 Environmental Science 3 0 0 3 3
4 Theory HEC43181 HSS-V 3 0 0 3 3
5 Theory Elective – I 3 0 0 3 3
6 Seminar EEC43301 Seminar 0 2 0 2 2
7 Theory -- Non Credit Course -V 0 0 0 0 0
8
Practical EEC43201
Microprocessors and
Microcontrollers Lab 0 0 3
3
2
9 Practical EEC43203 Digital Communication Lab 0 0 3 3 2
10 Practical Elective – I Lab 0 0 3 3 2
Total 15 2 9 26 23
SEMESTER VI
S.
No
Type of
Course
Course
Code Course Title L T P
Contact
hrs/wk Credits
1 Theory EEC43102 VLSI System Design 3 0 0 3 3
2 Theory ECS43120 Computer Architecture and OS
(CSE) 3 0 0 3 3
3 Theory Elective –II ( Mobile
Communication ) 3 0 0 3 3
4 Theory Elective –III 3 0 0 3 3
5 Theory MBA43144 Management – I 3 0 0 3 3
6 Project EEC43402 Design/Mini project 0 2 0 2 2
7 Practical EEC43202 VLSI System Design Lab 0 0 3 3 2
8 Practical ECS43220 Computer Architecture and OS
(CSE) Lab 0 0 3 3 2
10 Internship/
Training EEC43602 Summer/Industrial Training 0 0 0 0 2
Additional course
11 Theory Elective –IX [From B Tech or
M Tech] 3 0 0 3 3
Total 18 2 9 29 26
Total Credit (Third Year): 49
Elective I and II: from the list of Dept. Electives.
SEMESTER VII
S.
No
Type of
Course
Course
Code Course Title L T P
Contact
hrs/wk Credits
1 Theory EEE44101 Control System (EE) 3 0 0 3 3
2 Theory EEC44101 Embedded Systems Design 3 0 0 3 3
3 Theory Elective – IV 3 0 0 3 3
4 Theory Elective –V 3 0 0 3 3
5 Theory HPS44101 HSS-VI 3 0 0 3 3
6 Project EEC44401 Project –I 0 0 4 4 4
7 Practical EEE44201 Control System Lab (EE) 0 0 3 3 2
8 Practical EEC44201 Embedded Systems Lab 0 0 3 3 2
9 Practical Elective –IV Lab 0 0 3 3 2
Additional course
10 Theory Elective –X [From B Tech or M
Tech] 3 0 0 3 3
Total 18 0 13 31 28
HSS-VI: From a list of Psychology/Behavioral Science related topics
SEMESTER VIII
S.
No
Type of
Course
Course
Code Course Title L T P
Contact
hrs/wk Credits
1 Theory Elective –VI 3 0 0 3 3
2 Theory Elective –VII 3 0 0 3 3
3 Theory Elective –VIII 3 0 0 3 3
4 Theory MBA44116 Management –II 3 0 0 3 3
5 Project EEC44402 Project –II 0 0 8 8 8
6 Viva EEC44502 Comprehensive Viva 0 0 0 0 2
7 Practical Elective –VII Lab 0 0 3 3 2
Additional course
8 Theory Elective –XI [M Tech] 3 0 0 3 3
Total 15 0 11 26 27
Total Credit (4th Year): 55
Elective V and VII : From the list of Dept Electives
SEMESTER IX
Sl.
No Type
Course
code Course Title L T P
Contact
Hrs/wk Credits
1 Theory EEC61101 Advanced Communication
[From M Tech] 3 1 0 4 4
2 Theory EEC61102 Advanced Digital Signal
Processing [From M Tech] 3 1 0 4 4
3 Theory Elective –XII [From M Tech] 3 0 0 3 3
4 Practical EEC61201 Advanced Communication Lab
[From M Tech] 0 0 3 3 2
5 Practical EEC61202 Advanced Digital Signal
Processing Lab [From M Tech] 0 0 3 3 2
6 Dissertation EEC62401 Thesis Part I 0 0 10 10 10.0
7 Seminar EEC62301 Seminar and Technical Writing
I 0 0 2 2 2.0
Total 9 2 18 29 27
SEMESTER X
Sl.
No
Type Course
code
Course Title L T P Contact
Hrs/wk
Credits
1 Dissertation EEC62402 Thesis Part II 0 0 14 14 14.0
4
Seminar EEC62302
Seminar and Technical Writing
I 0 0 2
2
2.0
2 Sessional EEC62502 Grand Viva 0 0 0 0 4.0
Total 0 0 16 16 20
Total Credit (5th Year): 47
Total Credit (over four years): 250
Electronics and Communication Engineering
Mathematics: (to be offered in Second Year) Credits
1. Probability and Statistics (3-0-0) 3.0
2. Transform Calculus (3-1-0) 4.0
Allied Engg. Courses: Credits
1. Signals and Networks (EE) (3-0-3) 5
2. Computer Architecture and Operating Systems (CSE)(3-0-3) 5
3. Control Systems (EE) (3-0-3) 5
4. Energy Resources (ME) (3-0-0) 3
__________________________________________________________________
Sub-total 25
Major Subjects:
Core : (10)
1. Introduction to Electronics (3-0-3) 5
2. Analog Electronics (3-0-3) 5
3. Digital Electronics (3-0-3) 5
4. Semiconductor Devices (3-0-3) 5
5. Analog Communication (3-0-3) 5
6. Digital Communication (3-0-3) 5
7. Digital Signal Processing (3-0-3) 5
8. Antenna and Wave Propagation (3-0-3) 5
9. Microprocessor and Microcontroller (ECE/EE)(3-0-3) 5
10. Embedded Systems Design (3-0-3) 5
________________________________________________________________________
Sub-total : 50
Electives: (8)
Department Electives ECE:
Microwave Engineering (3-0-3) [EEC43107 & EEC43207 ] 5.0
Mobile Communication (3-0-0) [EEC43108] 3
Measurements and Instrumentations (3-0-0) [EEC43110] 3
Internet of Things (3-0-0) [EEC61128] 3.0
Image and Video Processing (3-0-3) [EEC61107 & EEC61207 ] 5.0
Optical Communication (3-0-0) [EEC61117] 3
Fiber Optics Technology (3-0-0) [EEC43112] 3
Semiconductor Device Modeling (3-0-0) [EEC61110] 3
Telecommunication Networks Optimization (3-0-0) [EEC44107] 3
Soft computing (3-0-3) [EEC44104] 3.0
Data commination and computer networking (3-0-0) [EEC44105] 3
Mobile Computing [3-0-0] [EEC61129] 3
Antenna Theory (3-0-0) [ECE] [EEC61119] 3
Satellite Communication Systems (3-0-0) [ECE] [EEC61118] 3
Information Theory and Coding (3-0-0) [EEC61121] 3.0
Low Power VLSI Design (3-0-0) [EEC61104] 3.0
Statistical Signal Processing (3-0-0) 3.0
CSE
1. Applied Graph Theory (3-1-0) 4.0
2. Database Systems (3-0-3) 5
3. Distributed Computing (3-0-3) 5
4 Parallel and Distributed Algorithms (3-0-0) 3.0
5. Computer Graphics and Visualization (3-0-3) 5
6. Machine Learning (3-1-0) 4.0
7. Advance Database Systems and Bigdata Analytics (3-1-0) 4.0
8. Artificial Intelligence (3-0-0) 3.0
9. Formal Languages and Automata Theory(3-0-0) 3.0
10. Mobile Computing (3-1-0) 4.0
11. Cryptography and Cyber Security (3-1-0) 4.0
12. Computer Vision (3-0-0) 3.0
13. Speech and Natural Language Processing (3-0-0) 3.0
14. Information Retrieval (3-0-0) 3.0
15. Testing and Verification of Circuits (3-1-0) 4.0
16. Computer Networks (3-0-3) 5
17. Object Oriented Programming (3-0-3) 5
Electrical
1. Sensors and Actuators (3-0-0) 3.0
2. Renewable Energy Resources (3-0-0) 3.0
3. High Voltage Systems (3-0-3) 5
4. Electrical Engg. Materials (3-0-0) 3.0
5. Biomedical Instrumentation (3-0-3) 5
6. Advanced Control Theory (3-0-0) 3.0
7. Electrical Drive Systems (3-0-0) 3.0
8. Industrial Instrumentation (3-0-0) 3.0
9. Power Electronics (3-0-3) 5
Math:
1. Discrete Mathematics and Logic (3-1-0) 4.0
2. Operations Research and Optimization (3-0-0) 3.0
3. Number Theory (3-0-0) 3.0
4. Numerical Algorithms and Convergence (3-0-0) 3.0
5. Stochastic Processes and Simulations (3-1-0) 4.0
6. Partial Differential Equations (3-0-0) 3.0
List of Core Subjects (M Tech in Electronics & Communication Engineering):
Advanced Communication Engineering (3-1-3) [ECE] [EEC61101 & EEC61201]
Detection and Estimation Theory (3-1-3) [ECE] [EEC61103 & EEC61203]
Advanced Digital Signal Processing (3-1-3) [ECE] [EEC61102 & EEC61202]
Low Power VLSI Design (3-1-0) [ECE] [EEC61104]
List of Elective Subjects (M Tech in ECE): M Tech Elective – I to III:
Computational Intelligence (3-0-0) [CSE/ECE] [EEC61105]
Image and Video Processing (3-0-0) [ECE] [EEC61107]
Microwave Design and Measurement (3-0-0) [ECE] [EEC61109]
Communication Network (3-0-0) [ECE] [EEC611013]
Remote Sensing (3-0-0) [ECE] [EEC61115]
Optical Communication (3-0-0) [ECE] [EEC61117]
Antenna Theory (3-0-0) [ECE] [EEC61119]
Information theory & coding (3-0-0) [ECE] [EEC61121]
Bio Medical System Engineering (3-0-0) [ECE] [EEC61123]
CMOS Analog VLSI Design (3-0-0) [ECE] [EEC61125]
VLSI Design [3-0-0] [EEC61127]
Mobile Computing [3-0-0] [EEC61129]
Design and Analysis of Algorithms (3-0-0) [CSE] [ECS61121]
Adaptive and Robust Control (3-0-0) [EE] [EEE61121]
M Tech Elective – IV to VI:
Biomedical Signal Processing (3-0-0) [ECE] [EEC61108]
Semiconductor Device Modeling (3-0-0) [ECE] [EEC61110]
Fiber Optic Sensors (3-0-0) [ECE] [EEC61112]
Modern Radar System (3-0-0) [ECE] [EEC61114]
VLSI Signal processing (3-0-0) [ECE] [EEC61116]
Satellite Communication Systems (3-0-0) [ECE] [EEC61118]
Radar Signal Processing (3-0-0) [ECE] [EEC61120]
Optoelectronic & Display Devices (3-0-0) [ECE] [EEC61122]
Artificial Intelligence & Robotics (3-0-0) [ECE] [EEC61124]
Visual Informatics (3-0-0) [CSE/ECE] [EEC61126]
Internet Of Things (3-0-0) [ECE] [EEC61128]
Machin Learning (3-0-0) [CSE] [ECS61112]
CAD-CAM (3-0-0) [ME] [EEC61122]
Process Control (3-1-0) [EE] [EEC61122]
SCHOOL OF ENGINEERING AND TECHNOLOGY
Syllabus for Dual Programme
Course: B. Tech+ M. Tech. in Electronics
and Communication Engineering (1st Year: Semester I to Semester II)
Proposed to take effect from
2017-18 Academic Years
ADAMAS UNIVERSITY
Adamas Knowledge City,
Barasat - Barrackpore Road,
P.O. - Jagannathpur, District- 24 Parganas (North),
Kolkata - 700 126, West Bengal, India
ADAMAS UNIVERSITY
Bachelor of Technology
1ST
YEAR SEMESTER – I
Module 1: Differential Calculus: Successive differentiation, Leibnitz’s Theorem,
Rolle’s theorem, Mean value theorems, Taylor’s and Maclaurin’s theorems with remainders,
Expansions, indeterminate forms, infinite Series, curve tracing, functions of several variables, partial
Differentiation, total differentiation, Euler’s theorem and generalization, maxima and minima of
functions of several variables (two and three variables), Lagrange’s method of multipliers, change of
variables, Jacobean’s, asymptote, curvature.
Module 2: Ordinary differential equations of first order: Formation of differential equations;
Separable equations; equations reducible to separable form; exact equations, integrating
factors, linear first order equations; Bernoulli’s equation; Orthogonal trajectories.
Module 3: Ordinary linear differential equations of higher order: Homogeneous linear equations of arbitrary order with constant coefficients, Non-
homogeneous linear equations with constant coefficients, Euler and Cauchy’s equations, Method of
variation of parameters, System of linear differential equations., modelling of electrical circuit.
Module4: Series solution of differential equation, power series method, Legendre’s equation and
Legendre’s polynomials, Bessel’s equation, Bessels function and its application.
Mathematics -I SMA41101 3-1-0 4 Credits
Text Books:
1 Erwyn Kreyszig : Advanced Engineering Mathematics, John Wiley and Sons
2 Higher Engineering Mathematics by B.V. Ramana, Tata McGraw-Hill.
3 B.S.Grewal : Higher Engineering Mathematics, Khanna Publications
4 C B Gupta, S R Singh, Mukesh Kumar: Engineering Mathematics, Mc Graw Hill Publication.
ADAMAS UNIVERSITY
Bachelor of Technology
1ST
YEAR SEMESTER – I
Module 1: Vector Analysis Axial and polar vectors, dot product and cross product, scalar triple product and vector triple product.
Scalar and vector fields --- gradient, divergence and curl, statement of divergence theorem,
statement of Stokes' theorem.
Module 2: Mechanics of a Particle
(a) Newton's laws of motion, principle of conservation of linear momentum, time and
path integral of force, conservative force field, concept of potential, conservation of
total energy, equation of motion of a system with variable mass.
(b) Rotational motion, angular velocity, angular acceleration, angular momentum,
torque, fundamental equation of rotational motion, principle of conservation of angular
momentum, radial and cross-radial acceleration.
Module 3: Dynamics of Rigid Bodies Moment of inertia and radius of gyration - their physical significance, theorems of
parallel and perpendicular axes, rotational kinetic energy, calculation of moment of
inertia for some simple symmetric systems. Physical significance of MI.
Module 4: Gravitation
Gravitational potential and intensity due to thin uniform spherical shell and solid
sphere of uniform density, escape velocity.
Module 5: Elasticity
Elastic moduli and their interrelations, torsion of a cylinder, bending moment,
cantilever, simply supported beam with concentrated load at the center, strain energy.
Module 6: Viscosity
Streamline and turbulent motion, Poiseuille's formula, critical velocity, Reynolds
number, Bernoulli's theorem, Stokes' law (statement only).
Module7: Surface Tension Surface tension and surface energy, molecular theory, angle of contact, elevation and
depression of liquid columns in a capillary tube, excess pressure in a spherical bubble and
spherical drop.
Module8: Simple Harmonic Motion
Differential equation and its solution, analytical treatment, Lissajous figures, natural,
damped and forced vibration, resonance, sharpness of resonance.
Physics-I SPH41109 3-0-0 3 Credits
Module9: Kinetic Theory of Gases Perfect gas, pressure exerted by it, Maxwell's law of distribution of molecular
velocities (statement only) - r.m.s, mean and most probable velocities, degrees of freedom,
principle of equipartition of energy - application in simple cases. Equation of state - defects
of ideal gas equation, van der Waals equation (qualitative study), and critical constants.
Module10: Thermodynamics Basic concepts (equilibrium state, state function, exact and inexact differential),
internal energy as state function. First law of thermodynamics and its application. Isothermal
and adiabatic changes and their relations, indicator diagrams. Reversible and irreversible
processes, second law of thermodynamics, Carnot cycle and its efficiency, entropy and its
physical interpretation.
Module11: Thermal Conductivity Steady state and variable state, thermal and thermometric conductivity, Fourier
equation for one-dimensional heat flow and its solution, cylindrical flow of heat.
Module12: Radiation Nature of radiant heat, emissive and absorptive power, Kirchhoff's law, black body
radiation, Stefan's law, Newton's law of cooling, Planck's distribution law (only statement),
Wien's displacement law.
Module 13: Physical Optics Light as an electromagnetic wave, full electromagnetic spectrum, properties of
electromagnetic waves, Huygens' principle, Interference of light, Young's experiment,
intensity distribution, conditions of interference, Diffraction of light, Fresnel and
Fraunhofer class, Fresnel's half-period zones, zone plate. Fraunhofer diffraction due to a
single slit and plane transmission grating (elementary theory). Polarization of light Different
states of polarization, Brewster's law.
ADAMAS UNIVERSITY
Bachelor of Technology
1ST
YEAR SEMESTER – I
Module 1: Basics of C Programming :Characters used in C, Identifiers, Keywords, Data type & sizes,
Constants &Variables, Various Operators used such as Arithmetic Operators, Relational & Logical
Operators, Increment & Decrement Operators, Assignment Operators, Conditional or Ternary
Operators, Bitwise Operators & Expressions; Standard Input & Output, formatted input scanf( ),
formatted output printf( ); Flow of Control, if-else, switch-case, Loop Control Statements, for loop,
while loop, do-while loop, nested loop, break, continue, goto, label and exit( ) function
Module 2: Functions and Pointers: Definition of Function, Declaration or Prototype of Function, Various
types of Functions, Call by Value, Call by Reference, Recursion, Tail Recursion, Definition of
Pointer, Declaration of Pointer, Operators used in Pointer, Pointer Arithmetic, Functions with Pointer
Module 3: Introduction to Data Structures: Basic Terminology, Elementary Data Organization, Algorithm,
Efficiency of an Algorithm, Time and Space Complexity, Asymptotic notations: Big-Oh, Time-Space
trade-off. Abstract Data Types (ADT)
Arrays and String: Definition, Single and Multidimensional Arrays, Representation of Arrays -
Row Major Order, and Column Major Order, Application of arrays – searching and sorting, Sparse
Matrices and their representations. Definition of a String, Declaration of a String, Initialization of a
String, Various String Handling Functions with example
Structures and Unions: Definition of a Structure, Declaration of a Structure & Structure Variable,
Initialization of a Structure, Operators used in Structure, Structure within Structures, Union,
Difference between a Structure and an Union
Files: Types of File, File Processing, Handling Characters, Handling Integers, Random File
Accessing, Errors During File Processing
Module 4: Stacks and Queues: ADT Stack, Array Implementation Multiple Stacks, Applications of Stacks –
Conversion from Infix to Postfix, Evaluation of Postfix Expressions, Prefix Notation, etc. ADT
queue, Linear Queue, Circular Queue, Priority Queue, Array Implementations of Queues,
Applications of Queues Operations on Queue: Create, Add, Delete, Full and Empty, Circular queues,
Array and linked implementation of queues in C, Dequeue and Priority Queue.
Module 5: Linked lists: Array Implementation and Dynamic Implementation of Singly Linked Lists, Doubly
Linked List, Circularly Linked List, Operations on a Linked List. Insertion, Deletion, Traversal,
Polynomial Representation and Addition, Generalized Linked List.
Trees: Basic terminology, Binary Trees, Binary Tree Representation: Array Representation and
Dynamic Representation, Complete Binary Tree, Algebraic Expressions, Extended Binary Trees,
Programming and Data
Structure ECS41101 3-0-0 3 Credits
Array and Linked Representation of Binary trees, Tree Traversal algorithms: Inorder, Pre-order and
Postorder, Threaded Binary trees, Traversing Threaded Binary trees, Huffman algorithm.
Module 6:
Graphs: Terminology, Sequential and linked Representations of Graphs: Adjacency Matrices,
Adjacency List, Adjacency Multi list, Graph Traversal : Depth First Search and Breadth First Search,
Connected Component, Spanning Trees, Minimum Cost Spanning Trees: Prims and Kruskal
algorithm. Transistive Closure and Shortest Path algorithm: Warshal Algorithm and Dijikstra
Algorithm, Introduction to Activity Networks.
Text Books:
1 “The Complete Reference”, 4th Edition by Herbert Schildt, Tata Mcgraw Hill Education
2 “Data Structures Using C”, 7th Edition by Aaron M. Tenenbaum, Yedidyah Langsam and Moshe
J. Augenstein, PHI Learning Private Limited, Delhi India
Reference Books:
1 “The C Programming Language”, 2nd
Edition, Brian W. Kernighan, Dennis M. Ritchie, PHI
2 “Schaum's Outline of Programming with C”, 2nd
Edition, Byron S. Gottfried, Mcgraw Hill
Education
3 “Data Structures and Program Design in C”, 2nd
Edition by Robert Kruse, C. L. Tondo, Bruce
Leung, Shashi Mogalla, Pearson Education
ADAMAS UNIVERSITY
Bachelor of Technology
1ST
YEAR SEMESTER – I
HSS-I (HEN41117) students have to choose from anyone of the offered courses
Level 2 A
Unit-I: Oral Skill I
Interactions in different situations- Formal dialogues- Group interactions
Unit-II: Oral Skill II
Inviting people to a programme- Apologizing and responding to apologies- Congratulations
and response-Showing appreciation- Expressing sympathy, regret or consolation-Asking for,
granting and refusing permission
Unit-III: Oral Skill III
Debates and Extempore
Unit-IV: Reading Skill
Newspaper Reading and Interpretation
Unit-V (Writing Skill I)
Importance of writing skills – Effective means of written communication –Report Writing –
Memo writing – Summary writing
Unit-VI (Writing Skill II)
Article, Paragraph, Applications, Emails and Drafts
Suggested Reading:
1. Spoken and Written Communication. Board of Editors. Orient Blackswan.
2. M. S Gupta. Current English Grammar and Usage. Prentice Hall India Learning Private
Limited; 2016.
3. P. C. Das. Spoken English and Functional Grammar.
Level 2 B
Unit-I
Short Stories— Sherlock Holmes: “The Speckled Band”
Unit-II
Poetry— Wilfred Owen: “Strange Meeting”; W H Auden: “The Unknown Citizen”
Unit-III
Drama— William Shakespeare: As You Like It
Unit-IV
Newspaper Reading and Interpretation
Unit-V (Writing Skill I)
Importance of writing skills – Effective means of written communication – Letter Writing –
Report Writing – Memo writing – Summary writing
Unit-VI (Writing Skill II)
Article, Paragraph, Report, Applications, Emails and Drafts
Suggested Reading:
1. Sir Arthur Conan Doyle: Sherlock Holmes and the Adventure of the Speckled Band.
Lerner Books.
2. W. H. Auden: Collected Poems, Vintage International.
3. The Poems of Wilfred Owen. Wordsworth Poetry Library
4. Spoken and Written Communication. Board of Editors. Orient Blackswan.
5. M. S Gupta. Current English Grammar and Usage. Prentice Hall India Learning Private
Limited; 2016.
6. William Shakespeare: As You Like It. Arden Edition
ADAMAS UNIVERSITY
Bachelor of Technology
1ST
YEAR SEMESTER – I
Module 1: An attempt to define and identify the contours of Ethics and its relation with Religion,
Aesthetics and Professional Education Human Values including basic five human values (against Satya
(Truth), Dharam (Righteous conduct), Prem (Love), Shanti (Peace), Ahinsa (Non-violence), Ethics &
Morality in Law, General-Lectures by distinguished persons on this subject on regular basis.
Fundamental Duties of citizen. Basic values of the Constitution: Democracy, Republicanism, Rule of law,
Constitutionalism and Respect for Minority Rights.
Module 2: Human Rights – Jurisprudence of human rights nature and definition, Universal protection of
human rights, Regional protection of human rights, National level protection of human rights, Human
Rights and vulnerable groups.
Module 3: Theory and Nature of Political Institutions
Concept of State / Nation
Organs of Government – Legislative, Executive and Judiciary
Separation of Powers – Parliamentary Sovereignty and Judicial Independence
Constitutional Framework of India.
Module 4: Nature and Sources of Law
Legislation – Process, delegated and subordinate legislation
Case law- Stare decises, precedents within the hierarchy of courts
Authoritative Sources, Custom, Law reform
Module 5: Historical Evolution of Indian Legal System
Ancient Indian Law, English Law in India
Administration of Justice in British India
Charter of 1861 and subsequent Charters
Establishment of High Courts and the Federal Courts
Drafting of the Indian Constitution
Ancient Indian Law in Modern Legal Framework
Module 6: Civil and Criminal Courts And Process
The Civil Court Structure, The Criminal Court Structure
The Civil Process, The Criminal process- Investigation and Prosecution
Module 7: Miscellaneous Laws
Growing importance of intellectual property rights and related laws in India
Industrial relations laws
An overview of the Law of Contract
PROFESSIONAL ETHICS, FUNDAMENTAL
DUTIES AND LEGAL STUDIES (HSS – II) HEN41119 3-1-0 3credits
Human resource and related laws
ADAMAS UNIVERSITY
Bachelor of Technology
1ST
YEAR SEMESTER – II
Module 1: Linear Algebra: Elementary row and column operations on a matrix; Rank of matrix ,
Normal form, Inverse of a matrix using elementary operations, Consistency and solutions of systems
of linear equations using elementary operations, Gauss Elimination method. Caley-
Hamillton theorem, eigen values and eigen vectors, Symmetric and skew-symmetric matrices,
orthogonal matrices, complex matrices, Hermitian and skew-Hermitian matrices, unitary matrices
and similarity of matrices. Unitary matrix, Normal matrix, Algebraic and geometric multiplicity,
Diagonalization, spectral theorem for Real symmetric matrices, Application of quadratic forms.
Module 2: Vector space and Linear transformations: Definition of vector space, subspaces, linear
combination, Linearly dependent and linearly independent vectors, Basis of vector space, Dimension,
Rank-Nullity theorem (statement and verification by examples), Definition of linear transformation,
types of linear transformations (Rotation, Reflection, Expansion, Contraction, Projection), Matrix of
Linear transformations, Change of basis and similarity.
Module 3: Functions Of Complex Variables: Reorientation, Analytic function, Cauchy – Riemann
equation (Cartesian and Polar forms), Harmonic functions, conformal mappings, complex
integration, Cauchy’s theorem and integral formula, Singularities, Taylor’s and Laurent’s Series
theorem, evaluation of integrals using residues.
Module4: Partial Differential Equation: Introduction, classification, construction and geometrical
interpretation of first order partial differential equations (PDE), method of characteristic and general
solution of first order PDE, canonical form of first order PDE, equations solvable by direct
integration, Langrange’s method, solution of non-linear first order partial differential equation by
Charpit’s method, special types of first order PDE, solution satisfying given conditions, Jacobi’s
method.
Mathematics -II SMA41102 3-1-0 4 Credits
Text Books:
1 Erwyn Kreyszig : Advanced Engineering Mathematics, John Wiley and Sons
2 Higher Engineering Mathematics by B.V. Ramana, Tata McGraw-Hill.
3 David C. Lay, Linear algebra and its application, (Latest edition), Pearson publication, New Delhi.
4 E. Kreyszig, Advanced engineering mathematics (Latest edition), John Wiley.
5 H. Anton, Elementary linear algebra with applications (Latest edition), John Wiley. 6 Erwyn Kreyszig : Advanced Engineering Mathematics, John Wiley and Sons
ADAMAS UNIVERSITY
Bachelor of Technology
1ST
YEAR SEMESTER – II
Module 1. Electrostatics
Quantization of charge, Coulomb's law, field intensity and potential, example of point
charge, Gauss' theorem, simple applications, potential and field due to an electric dipole,
mechanical force on the surface of a charged conductor. Dielectric medium, polarization,
electric displacement. Capacitor, Parallel-plates and cylindrical, energy stored in parallel
plate capacitor.
Module 2. Steady Current
Network analysis: Kirchhoff’s laws, Thevenin and Norton's theorem, Wheatstone
bridge, potentiometer.
Module 3. Thermoelectricity
Seebeck, Peltier, and Thomson effects, laws of thermoelectricity, thermoelectric curve ---
neutral and inversion temperature, thermoelectric power.
Module 4. Magnetic effect of current
Biot-Savart law, Ampere's circuital law (statement only), magnetic field due to a straight
conductor, circular coil, solenoid, endless solenoid, Magnetic field due to a small current
loop, concept of magnetic dipole, introduction magnetic scalar and vector potential.
Module 5. Lorentz force
Force on a moving charge in simultaneous electric and magnetic fields, Cyclotron motion
and Cycloid motion (basic discussion only) force on a current carrying conductor in a
magnetic field.
Module 6. Magnetic materials
Intensity of magnetization, relation between B, H and M. Bar magnet, Magnetic field due to
a bar magnet (end on and broad side on positions), magnetic susceptibility, dia, para and
ferromagnetic materials, statement of Curie's law. Hysteresis in a ferromagnetic material,
hysteresis loss.
Module 7. Electromagnetic induction
Faraday’s law of induction, Lenz’s law, self and mutual inductances in simple cases,
energy stored in inductance.
Physics-II SPH41108 3-0-0 3 Credits
Module 8. Transient currents
growth and decay of currents in L-R circuit; charging and discharging of capacitor in C-R
circuit.
Module 9. Alternating current
Mean and r.m.s. values of current and e.m.f with sinusoidal wave form; LR, CR and series
LCR circuits, reactance, impedance, phase-angle, power dissipation in AC circuit, power
factor, vector diagram, resonance in a series LCR circuit, Q-factor, principle of ideal
transformer.
Module 10. Diodes and Transistors
P-N junction diode, bridge rectifier, capacitance input filter, Zener diode, voltage
regulator, Transistors --- α and β and their interrelations; output characteristics in CE mode,
single stage CE amplifier --- approximate expressions of current and voltage gain
with the help of 'Load Line'.
Module 11. Digital Electronics
binary systems, binary numbers. Decimal to binary and reverse conversions, binary addition
and subtraction. Logic gates: OR, AND, NOT gates --- truth tables. Statement of de
Morgan's theorem, NOR and NAND universal gates.
Module 12. Special Theory of Relativity
Postulates of STR, formulae of (i) Length contraction; (ii) Time dilation; (iii) Velocity
addition; (iv) Mass variation, and (v) Mass-energy equivalence.
Module 13. Elementary quantum Physics
Planck's concept of blackbody radiation and radiation formula (statement only), qualitative
discussion of photo-electric effect and Compton effect in support of quantum theory, Raman
effect. Wave nature of material particles, wave-particle duality, wavelength of de Broglie
waves, Heisenberg uncertainty principle, and Schrödinger equation, particle in a one-
dimensional infinite well, energy eigenvalues, wave function and its probabilistic
interpretation. Bohr's theory of hydrogen spectra, concept of quantum number, Pauli
Exclusion Principle.
Module 14. Laser:
Principle of Laser action, Population Inversion, Einstein’s A and B coefficients, feedback of
energy in a resonator,3 level and 4 level systems, Helium-Neon and Semiconductor Lasers.
Application of Laser.
Module 15. Fibre Optics:
Optical fibre, core and cladding, total internal reflection, optical fibre as waveguide, step
index and graded index fibre, communication through optical fibres, energy loss, band width
and channel capacity for a typical system, attenuation and dispersion, splicing and couplers,
Fibre optic sensors.
Module 16. Superconductor :
Definition, Type I, Type II, Meissner effect, Josephson effect
ADAMAS UNIVERSITY
Bachelor of Technology
1ST
YEAR SEMESTER – II
Module 1: Thermodynamics: Thermodynamics of Chemical Processes: Review of 1
stlaw, Concept of entropy,
Chemical potential, Equilibrium conditions for closed systems, Phase and reaction equilibria,
Maxwell relations.
Module 2: Reaction Dynamics, Catalysis & Electrochemistry: Rate laws, 1
stOrder reaction & 2
ndorder
reaction, Arrhenius equation,Mechanism and Theories of reaction rates,Characteristics and Types of
Catalyst, Theories of Catalysis, Electrode potential, Redox reaction & Nernst Equation.
Module 3: Solid State and Molecular spectroscopy:.Homonuclear and Heteronuclear concepts, Non –
covalent interaction, Van der waals bonding, hydrogen bonding, Idea of spatial periodicity of lattice,
Unit cells, Bravias lattice, Atomic packing factor of SCC, BCC and FCC, Band theory, Conductors
Semiconductors and insulators. Basic concepts of spectroscopy, selection rule, fundamentals of IR,
UV-Vis, NMR spectroscopy
Module 4: Co-Ordination Chemistry:Transition elements, Warner’s co-ordination theory, Structure of Co-
ordination Compounds corresponding to Co-ordination number 2 to 6, Types of ligands, Isomerism
& its types viz. Geometrical, Optical, Ionization, linkage & Co-ordination isomerism, Theories of
bonding in Co-ordination compounds viz. crystal field theory and valance bond theory.
Module 5: Reactivity of Organic Molecules, Types of Reactions and Stereochemistry: Inductive effect,
Resonance, Hyper conjugation, Electromeric effect, Carbocation, carbanion & free radicals,
Substitution reactions, Elimination reactions, Addition reactions, & their Mechanisms. Introduction
to stereochemistry, stereochemical nomenclature & terminology (chiral carbons, allenes, biphenyls,
etc.) and nomenclature (R/S, E/Z, D/L, d/l). Identification of stereo chemical relationship
(enantiomers, diastereomers, epimers, etc.).
Module 6:
Polymers& Fuel Chemistry:Polymerization, Mechanism of Addition polymerization, Classification
of plastics, Preparation properties & industrial applications of PTFE, PVC, Phenolic resin &
Polyester resin, Conducting polymers & Biopolymers. Solid Fuel: Coal, Classification of coal, Coal
analysis. Liquid fuel: Petroleum, classification of petroleum, Thermal cracking, Octane number,
Cetane number, Aviation Fuel Bio-diesel. Gaseous fuels: Natural gas, water gas, bio gas.
Chemistry SCY41106 3-0-0 3 Credits
Text Books:
1 P. W. Atkins, Physical Chemistry, ELBS/Oxford, 7th Edition, 1995
2 G.W.Castellan, Physical Chemistry
3 D. A. McQuarrie and J.D. Simon, Physical Chemistry - a molecular approach, Viva Books Pvt.
Ltd. (1998)
4 P. C. Rakshit, Physical Chemistry, Sarat Book House (7thEdition)
5 Cotton, F A,Wikinson G. and Gaus, P L,Basic Inorganic Chemistry
6 J. D. Lee, Concise Inorganic Chemistry, 4th Edition, ELBS, 1991
7 I.L. Finar,Organic Chemistry,Vol – I & II, Pearson Education
8 Morrison & Boyd, Organic Chemistry
9 P. Sykes, Mechanism in Organic Chemistry, Orient Longman
10 Joel R. Fried, Polymer Science and Technology, Pearson Education (2nd
Edition)
11 S. Sarkar, Fuels and Combustion, Taylor & Francis (3rd
Edition), 2009
12 Kuriacose& Raja Ram ,Chemistry in Engineering and Technology, Vol.1 & 2 by, Tata McGraw
Hill & Co
ADAMAS UNIVERSITY
Bachelor of Technology
1ST
YEAR SEMESTER – II
Module 1: Introduction to Electrical Engineering
Sources of energy; General structure of electrical power systems; Steam power generation; Hydel
power generation; Gas and Nuclear power generation; Power Transmission and Distribution;
overhead lines; underground cables; Transformers; Basic Principle and operation
Module 2: DC Networks
Kirchoff’s laws; node voltage method; mesh current method; Delta-star and star-delta conversion;
Network theorems; Superposition principle; Thevenin’s theorem; Norton’s theorem
Module 3: AC Circuits
Definitions: average and effective values of Sinusoids; Solution of R,L,C series circuits;
Significance of j operator; complex representation of impedances; Phasor diagram; power factor,
power in complex notation; solution of parallel and series – parallel Circuits; Three phase EMF
generation; delta and Y – connections; line and phase quantities
Module 4: Basics of Semi-Conductors and PN Junction
Introduction; Carrier Concentrations- the Fermi Level; Electron and Hole Concentration at
Equilibrium; Temperature Dependence of Carrier Concentration; Drift and diffusion current; The
Hall Effect; Optical Absorption, Luminescence; PN Junction Diode in Equilibrium Conditions; PN
Junction Diode in Forward Biased and Reverse Biased Condition; Breakdown in PN Junction
Diodes.
Module 5: Bipolar Junction Transistors Introduction, Types: NPN and PNP; Current Components; Early Effect Ebber’s Moll Model;
Different Configurations of a Transistor and its Characteristics; Transistor as an Amplifier (CE, CB,
CC); Transistor as a Switch
Module 6: Field Effect Transistors
Introduction; JFET and MOSFET; Realization of digital logic circuit using MOSFET (AND, OR,
NOT etc.); Realization of switching circuits using MOSFET
Module 7: Electronics Instruments & Digital Electronics Fundamental:
Signal generator, Mustimeter, operation of CRO and its application. Number systems, Conversions and codes,
Logic gates and truth tables.
Electrical Technology EEE41102 3-0-0 3 Credits
Text Books:
1 Basic Electrical Engineering-Abhijit Chakrabarti, SudipNath, Chandan Kumar Chnada, Tata
McGraw-Hill publishing Limited, New Delhi
2 Principles of Electrical Engineering and Electronics- V K Mehta, Rohit Mehta , S Chand and
Company , New Delhi
3 Solid State Electronic Devices- Ben G. Streetman and Sanjay Kumar Banerjee, PHI.
Reference Books:
1 Basic Electrical Engineering-D P Kothari, I J Nagrath, Tata Mcgraw-Hill Publishing Company,
New Delhi
2 Integrated Electronics: Analog & Digital Circuit Systems – Jacob Millman & Halkias, TMH
3 Digital Principles & Applications, 8th Edition by Donald P Leach, Albert Paul Malvino, Goutam
Saha (Tata Mcgraw Hill Publishing Co Ltd, 2014)
ADAMAS UNIVERSITY
Bachelor of Technology
1ST
YEAR SEMESTER – II
Module 1: BASIC CELL BIOLOGY
Introduction; Living Organisms; Cells and Cell theory, Cell Structure and Function, Genetic
information, protein synthesis, and protein structure, Cell metabolism; Cell growth, reproduction,
and differentiation; Cell division, cell cycle and apoptosis; ATP synthesis and Glycolysis;
Respiration and photosynthesis.
Module 2: BIOCHEMISTRY AND TRANSPORT PROCESS
Chemistry of life: chemical bonds; Non-covalent interactions and free energy changes in biological
processes; Fundamentals of momentum, heat and mass transport as applied to biological systems;
Human body as a thermodynamic system; Blood Rheology, Fluid mechanical aspects of some
diseases and organs; Biochemistry and Human biology; Stem cells and Tissue engineering.
Module 3: CHEMICAL BIOLOGY
Carbohydrates; Lipids; Proteins: structure and sequencing; DNA: structure and sequence, replication,
recombination; RNA synthesis; Genetic code and protein biosynthesis; Recombinant DNA
technology.
Module 4: ENZYMES AND INDUSTRIAL APPLICATIONS
Enzymes: mechanism, kinetics and inhibition; Biological catalysts, Proteases, Carbonic anhydrase,
Restriction enzymes, and Nucleoside monophosphate kinases.
Module 5: FERMENTATION TECHNOLOGY AND APPLICATIONS
Introduction and scope of microbial processes. Sources of industrial cultures and maintenance.
Alcoholic fermentation: Production of Industrial Alcohol. Brewing and malting, manufacture of wine
and other distilled liquors. Microbial Foods – Food, Fodder and Baker's yeast, applications of the
nonconventional raw materials; Nutritional characteristics of food yeast, mushroom production;
Vitamins- Vitamin B-2, Riboflavin, Soya-sauce & cheese production. Production of acids, viz., citric,
lactic and gluconic acid. Mechanism of each fermentation, their uses. Production of Amino acids and
Antibiotics and its new Developments. Production of Organic Acids its spoilage and prevention.
Module 6: MECHANOCHEMISTRY
Molecular Machines/Motors; Cytoskeleton; Biosensors; Bio-Micro devices.
Module 7: HUMAN PHYSIOLOGY
Physiology of cells and molecules; cellular physiology of the nervous system; cardiovascular and
respiratory systems; gastrointestinal and renal systems; endocrine and reproductive systems.
Module 8: IMMUNE SYSTEM AND CELL SIGNALING
Immune system; General principles of cell signaling.
Life Sciences SBT41108 3-0-0 3 Credits
Module 8: IMPACT OF BIOLOGY ON SOCIETY AND MANKIND
Crop management, Disease control, Biological Hazards and safety; Unsolved Problems in Biology.
Text Book:
S. ThyagaRajan, N. Selvamurugan, M. P. Rajesh, R. A. Nazeer, Richard W. Thilagaraj, S.
Barathi, and M. K. Jaganathan, "Biology for Engineers," Tata McGraw-Hill, New Delhi,
2012.
Reference Book:
Biology for Engineers. Arthur T. Johnson. 2010 by CRC Pres. ISBN 9781420077636
ADAMAS UNIVERSITY
Bachelor of Technology
1ST
YEAR SEMESTER – II
Module 1 - Introduction to Statics Concept of particle and Rigid body, Vector, Introduction to Vector Algebra, Addition and subtraction
of Vectors and different laws, Lami’s theorem, Free Vector, Bound Vector, Representation of
Vectors in terms of I, j and k, Cross product and Dot product and their application, scalar.
Module 2 - Force System Introduction, Force, Two-Dimensional Force system, Resolution of Force, Moment, Couple,
Varignon’s Theorem, Resultant of Forces.
Module 3 – Equilibrium Introduction, Equilibrium in Two-Dimension, Free body Concept and Diagram, Equation of
Equilibrium.
Module 4 - Distributed Force
Introduction, Center of Mass and Centroid, Centroid of Mass, Centroid of Line and Area (Triangle,
Circular section, Quadrilateral, Composite Area etc.).
Module 5 – Friction Introduction, Concept of Friction, Law of Coulomb Friction, Angle of Repose, Coefficient of
Friction, Application of Friction in Machines.
Module 6 - Moment of Inertia Mass Moment of Inertia of Symmetrical bodies, Area Moment of Inertia, Introduction, M.I of Plane
figures w.r.t an axis on its plane, M.I of plane figures w.r.t an axis perpendicular to its plane, Parallel
axis theorem.
Module 7 – Virtual Work Introduction of Virtual work, Principal of Virtual work, Application of Principal of Virtual work.
Engineering Mechanics EME41104 3-0-0 3 Credits
SCHOOL OF ENGINEERING AND TECHNOLOGY
Syllabus for Dual Programme
Course: B. Tech+ M. Tech. in Electronics
and Communication Engineering (Semester III to Semester X)
Proposed to take effect from
2017-18 Academic Years
ADAMAS UNIVERSITY
Adamas Knowledge City,
Barasat - Barrackpore Road,
P.O. - Jagannathpur, District- 24 Parganas (North),
Kolkata - 700 126, West Bengal, India
Semester III
Transform Calculus SMA42101 4-0-0 4 Credits
Module 1: Laplace Transform: Definition, Linearity, shifting and scaling properties, Transform of
elementary functions, Transform of derivatives and integrals, Multiplication by t & division by t.
Inverse Laplace transform, Convolution theorem, Transform of periodic functions, Unit step
function & Dirac delta function, Initial value & final value theorems and its application to
solution of ordinary differential equations and partial differential equations such as heat
conduction, wave equation and Laplace equation.
16
Module 2: Fourier series: Periodic functions, Definition of Fourier series, Euler's formulae, Dirichlet
conditions, Change of interval, Even and odd functions, half range Fourier Sine & Cosine series,
Parseval’s identity, Practical harmonic analysis. Fourier Transform: Definition of Fourier
integrals, Fourier Sine & Cosine integrals, Complex form of Fourier integral, Fourier sine
&cosine transforms, complex form of Fourier transform, Linearity, shifting & scaling properties,
modulation theorem, inverse Fourier transform, Fourier transform of derivatives and its
applications.
14
Module 3 Z-Transform: Sequence, Basic operations on sequences, Definition of Z- Transform, Linearity,
Change of scale & shifting properties, Z-transform of standard sequences, Inverse Z- Transform,
Multiplication by n & division by n, Initial value & final value theorems, Convolution of
sequences, Convolution theorem, Inverse Z- transform by partial fraction, power series and
residue methods and its application to solution of difference equations.
12
Module 4:
Wavelet Transform: Fourier transform and its limitations, short time Fourier transform,
introduction to time frequency analysis, continuous wavelet transform, discrete time wavelet
transform, multi-resolution analysis, Haar wavelet, Daubechies wavelet, filter bank theory,
application of wavelet theory in engineering.
18
Text Books:
1 ErwynKreyszig, Advanced Engineering Mathematics, John Wiley and Sons
2 R.K. Jain and S.R.K. Iyengar, Advanced Engineering Mathematics, Narosa Publishing House
3
K. P. Soman, K. I. Rmachandran, N. G. Resmi, “Insight into Wavelets: From Theory to Practice, (Third
Edition)”, PHI Learning Pvt. Ltd., 2010.
Reference Books:
1 H K Das, Advanced Engineering Mathematics, S Chand Publishers
2 James S. Walker, “A Primer on Wavelets and their Scientific Applications”, CRC Press, (1999).
Signals and Networks EE42101 3-0-0 3 Credits
Module 1: Introduction of signals and systems
signal and system types and classifications, basic Operations on signals, Parseval’s theorem, step
response, impulse response and convolution integral, concepts of correlation, power spectral density.
05
Module 2: Periodic and aperiodic signal analysis
Periodic signal analysis: Fourier series and properties; Aperiodic signal analysis :Fourier Transform
- its properties and sinusoidal steady state analysis of systems
07
Module 3: Elements of electrical network and analysis
Dependent and independent sources, active and passive components; linear and nonlinear circuit,
lateral and bilateral circuit, lumped and distributed circuit, Generalized formulation of KCL, KVL,
Thevenin, Norton, Maximum Power Transfer, Tellegen and Reciprocity Theorems; classical
differential equations for description of transient conditions of Network; Solutions of linear time
invariant networks with initial conditions; Unilateral and Bilateral Laplace Transforms and
properties; Transient analysis of RL and RC circuits using Laplace Transform; Network functions:
poles, zeros, transfer function. Resonant Circuits- Series and Parallel resonance, Quality Factor,
Half Power Points, Bandwidth, Coupled Circuits- magnetic coupling, self and mutual inductance,
co-efficient of coupling.
12
Module 4: Network Topology
Graph theory: Tree, Co-tree, fundamental cut-set, fundamental loop analysis of network 06
Module 5:One and two port network parameters and functions
Z, Y and ABCD parameters, driving point and transfer impedances and admittances. 07
Module 6: Analog filter design
HP, LP, BP, BR Filter, Butterworth, Sallen Key, frequency transformation and scaling. 08
Text Books:
1 “Signals & Systems” by Oppenheim, Willsky and Nawab, Pearson, PHI
2 “Network Analysis” by M.E. Van Valkenburg, Third Edition; Prentice Hall, 1986.
3 “Network Analysis & Synthesis” by F.F.Kuo; John Wiley & Sons Inc.
Reference Books:
1 “Signals and systems”, by A NagoorKani, Tata McGraw Hill, Indian Reprint, 2010
2 “Digital Signal Processing”, by Proakis : Pearson.
3 “Fundamental of electric circuit theory”, by D. Chattopadhyay and P.C.Rakshit, S. Chand, 2009
Analog Electronics EEC42101 3-0-0 3 Credits
Module 1: Diode Circuits
Introduction, Simple Diode Circuits, Concept of Load Line, Linear Piecewise Model; Rectifier
Circuits (Half-Wave, Full-Wave and Bridge), Peak Detector; Filter Circuits for Power Supply:
Inductor Filter, Capacitor Filter, LC Filter, Multiple LC Filter, CLC Filter or Π Filter; Load
Regulation, Diode Clipper and Clamper Circuits.
08
Module 2: Transistor Biasing and Stabilization
Biasing Schemes for BJT and FET Amplifiers, Bias Stability, Various Configurations (Such As
CE/CS, CB/CG, CC/CD) and Their Features; Thermal Runaway, Thermal Stability;
Compensation Techniques: Diode Compensation, Transistor Compensation and Thermistor
&Sensistor Compensation.
08
Module 3: Frequency Response and Transistors Amplifier
Low Frequency Transistor Amplifier: h-parameter Models for CB, CE, CC configurations and
their interrelationship; Linear analysis of Transistor Circuits; Miller's Theorem; Single stage
amplifier: Simplified models and calculation of gain for CE and CC Amplifiers; Effect of emitter
resistance in CE amplifiers; Darlington Pair; Single stage FET amplifier: CS and CD
Configuration; FET as VVR.
High Frequency Transistor Amplifiers: CE hybrid-π model; Validity and parameter Variation;
Current Gain with resistive load; frequency response of a single stage CE Amplifier; Gain
Bandwidth product; CC stage High frequencies.
10
Module 4: Multi-stage and Power Amplifiers Multi-stage Amplifiers: Distortion in Amplifiers; Frequency Response of an Amplifier: Bode
plots, Step Response; Cascaded Stages: Response of a Two-stage RC Coupled Amplifier at Low
and high frequencies; Direct Coupled Amplifiers; Differential Amplifiers.
Power Amplifiers: Large Signal Amplifiers; Harmonic Distortions; Class A; Class B; Class AB;
Push Pull Amplifiers; Class C and Class D Amplifiers.
08
Module 5: Feedback Amplifier and Oscillators:
Feedback Amplifiers: Classification; Feedback concept; Ideal Feedback amplifier: Properties of
Negative Feedback Amplifier Topologies: Method of Analysis of Feedback amplifiers: Voltage
series Feedback: Voltage series Feedback pair: Current series, Current shunt and Voltage shunt
feedback; Effect of feedback on amplifier Bandwidth and stability.
Oscillators:The oscillator feedback loop; Oscillation criterion; Sinusoidal oscillator: phase shift
oscillators, Wien Bridge oscillator; Resonant circuit oscillators: General form of oscillator
configuration; LC Colpitts& LC Hartley oscillators; Crystal oscillator; Amplitude Frequency and
phase stability analysis of all Oscillators.
06
Module 6:Filters: Concept of Filters: Low Pass, High Pass, Band-Pass and Band-Stop Filters;
Definition of Passive and Active Filters. 05
Text Books:
1 “Microelectronics circuits” by Sedra and Smith; Oxford University Press
2 Integrated Electronics: Analog & Digital Circuit Systems – Jacob Millman&Halkias, TMH
Reference Books:
1 Microelectronics” by Millman and Grabel; Tata McGraw Hill.
2 Electronic Devices & Circuits – David A. Bell, PHI
3 Electronic Devices and Circuit Theory by Boylestad&Nashelsky (11th Edition), Pearson Education India
4 Linear Integrated Circuits (4th Edition), D. Roy Choudhury and Shahil B. Jain, New Age International
Semiconductor Devices EEC42103 3-0-0 3 Credits
Module 1: Semiconductor Basic
Band structure; Electrons and Holes distribution; Current transport in semiconductors and
concepts about mobility; Diffusivity and recombination; The continuity equation and its solution;
generation and recombination and injection of carriers; transient response; basic governing
equations in semiconductor; physical description of p-n junction; transport equations; current
voltage characteristics and temperature dependence; tunneling current; small signal ac analysis.
09
Module 2: Bipolar Junction Transistor
Introduction; BJT equivalent circuits and modeling; frequency response of transistors. Small
Signal analysis: simplified hybrid-π model; and its application to single stage BJT amplifiers
(Common Emitter, Common-Base and Common-Collector configurations), High frequency
model of BJT; and its application to single stage BJT amplifiers.
09
Module 3: Metal Oxide Field Effect Transistor
Introduction; MOS structure; threshold voltages; MOS static characteristics; small signal
parameters and equivalent circuit; charge sheet model, strong, moderate and weak inversion;
short channel effects; scaling laws of MOS transistors; LDD MOSFET, NMOS and CMOS IC
technology; CMOS latch up phenomenon; Structure and characteristic of VMOS and DMOS.
08
Module 4: Special Devices
Ideal Schottky barrier; current voltage characteristics; MIS diode heterojunctions devices; optical
absorption in a semiconductor; photovoltaic effect; solar cell; photoconductors; PIN photodiode;
avalanche photodiode; LED; semiconductor lasers; negative conductance in semiconductors;
transit time devices; IMPATT; Tunnel diode; ATT devices; Gunn diode; BiCMOS devices;
PNPN diode; SCR; UJT, DIAC; TRIAC and IGBTs
08
Module 5: Integrated Circuits (IC)
Introduction to IC, Concept of Operational Amplifier (OP-AMP), Ideal OP-AMP, Virtual
Ground, Inverting & Non-Inverting Operational Amplifier; Differential Amplifier: Basic
Structure and Principle of Operation, Calculation of Differential & Common Mode Gain, CMRR
& ICMR; Summing Amplifier, Integrator & Differentiator, Current-to-Voltage Converter &
Voltage-to-Current Converter; Instrumentation Amplifier, Logarithmic & Anti-Logarithmic
Amplifier; Precision Rectifier; Schmitt Trigger & its Applications; Multivibrator Circuits using
OP-Amp.
06
Module 6: 555 Timer
Introduction, Monostable and Astablemultivibrator circuits using 555 Timer. 05
Text Books:
1 Solid State Electronic Devices- Ben G. Streetman and Sanjay Kumar Banerjee, PHI.
2 Semiconductor Physics and Devices (4th Edition) by Donald Neamen and DhrubesBiswas, McGraw Hill
Education
3 Microelectronic Circuits (Fifth Edition), Adel S. Sedra and Kenneth C. Smith, Oxford University Press
Reference Books:
1 Electronic Devices and Circuit Theory (11th Edition) by Boylestad&Nashelsky, Pearson Education India
HSS III HEN42111 3-0-0 3 Credits Module 1 Introduction to Communication – Communication Model –Types of Communications – Barriers to
Communication – Effective means of communication
Module 2:
Reading Skills – Importance of Reading – Types of Reading – Effective reading skills
Module 3:
Listening Skills – Importance of Listening – Types of Listening – Barriers to Listening
Module 4: Presentation Skills – Different types of Presentation skills – Non-verbal Communications –– Use of Visual aids
Module 5: Group Discussion, Business Dialogues and Interaction
Module 6:
Mock Interviews
Text Books: 1 Business Communication Today. Bovee, Thill, Schwatzman, Pearson Education.
2 Spoken and Written Communication. Board of Editors. Orient Blackswan.
3 M. S Gupta. Current English Grammar and Usage. Prentice Hall India Learning Private Limited; 2016. Reference Books: 1 P. C. Das. Spoken English and Functional Grammar.
2 Sangeeta Sharma and Binod Mishra. Communication skills for Engineers and Scientists. Prentice Hall India
Learning Private Limited, 2009.
Semester IV
Probability and Statistics SMA42102 3-0-0 3 Credits
Module 1:Probability and random variable
Introduction, Probability of an event, additive rule and multiplication rule, conditional
probability, total probability theorem, Bayes’ rule and applications in engineering, random
variable, discrete and continuous probability distribution, joint probability distribution,
mathematical expectation, variance and co-variance of random variables, mean and co-variance
of linear combination of random variables, Binomial, Hyper-geometric, Geometric, Poisson
distribution, Uniform, Normal, Exponential Distribution, Weibull’s distribution, Chi-square
distribution and its applications in engineering.
14
Module 2: Sampling Distribution
Introduction, types of sampling, parameter and statistics, test of significance, tests of significance
for large samples, sampling of attributes, sampling of variables, distribution, some theorem on
Chi-Square distribution, linear transformation, applications of Chi-Square distribution, Student’s
‘t’ distribution and F-distribution and its applications, estimation, methods of estimation,
estimating the mean of a single sample, standard error, prediction interval, tolerance limits,
estimating the difference between means of two samples, estimating proportion and variance of a
single sample, estimating the difference between two proportions and variances of two samples,
maximum likelihood estimation.
15
Module 3: Test of Hypothesis
Basic concepts, statistical hypothesis, simple and composite, steps in solving testing of
hypothesis problem, one and two tailed test, test on a single mean when variance is known and
variance is unknown, test on two means, test on a single mean population and test on two
populations, one and two sample test for variance, -Test for goodness of fit and test for
independence.
08
Module 4: Correlation and Regression
Introduction, Karl Pearson correlation coefficient, rank correlation, regression analysis, fitting
straight lines, method of least square, regression coefficients, properties of regression
coefficients and its applications.
08
Text Books:
1 ErwynKreyszig, Advanced Engineering Mathematics, John Wiley and Sons
2 Ronald E. Walpole, Raymond H. Myers, Sharon L. Myers & Keying Ye, “Probability & Statistics for
Engineers & Scientists", Eighth Edition, 2007, Pearson Education Inc., New Delhi.
3 Vijay K. Rohatgi, A.K. Md. EhsanesSaleh, An Introduction to Probability and Statistics,
Second edition, Wiley.
Reference Books:
1 R. V. Hogg, J Mckean, A T Craig, Introduction to Mathematical Statistics, 7e, Pearson Education India.
2 S C Gupta and V K Kapoor, Fundamentals of Mathematical Statistics, S Chand & Sons
Digital Electronics EEC42102 3-0-0 3 Credits
Module 1: Minimization Techniques And Logic Gates
Introduction, Minimization Techniques: Boolean postulates and laws, De-Morgan’s Theorem,
Principle of Duality, Boolean expression, Minimization of Boolean expressions,8-4-2-1 BCD
code, Minterm, Maxterm, Sum of Products (SOP), Product of Sums (POS), Karnaugh map
Minimization, Don’t care conditions, Quine - McCluskey method of minimization. Logic Gates:
AND, OR, NOT, NAND, NOR, Exclusive–OR and Exclusive–NOR, Implementations of Logic
Functions using gates, NAND–NOR implementations ,Multi-level gate implementations, Multi
output gate implementations, TTL and CMOS Logic and their characteristics, Tristate gates.
10
Module 2: Combinational Circuits
Introduction, Design Procedure of Adder &Subtractor: Half Adder, Full Adder, Half Subtractor,
Full Subtractor, Parallel Binary adder, Look Ahead carry adder, Serial adder, BCD adder. Other
Combinational Circuits: Binary Multiplier, Binary Divider, Parity Bit Generator/Checker,
Magnitude Comparator, Code Converter, Encoder, Decoder, Multiplexer, De-Multiplexer.
08
Module 3: Sequential Circuits
Introduction, Types of Sequential circuits, Comparison between Combinational and Sequential
Circuits, Comparison between Synchronous and Asynchronous sequential circuit, Latches and
Flip-Flops: Gated S-R Latch, D Latch, J-K Latch, T Latch, Edge Triggered S-R Flip Flop, Edge
Triggered D Flip Flop, Edge Triggered J-K Flip Flop, Edge Triggered T Flip-Flops, Master -
Slave Flip-Flops, Direct Preset and Clear Input.
Counters and Shift Registers: Asynchronous Counter, Ripple Counters, Design of asynchronous
counters, Effects of propagation delay in Ripple counters, Synchronous Counters, 4-bit
synchronous up down counter, Design of synchronous counters, Ring counter, Johnson counter,
Pulse train generators using counter, Design of Sequence Generators, Digital Clock using
Counters, Parallel In Parallel Out Shift Register , Serial In Parallel Out Shift Register, Parallel In
Serial Out Shift Register, Serial In Serial Out Shift Register, Bi-Directional Shift Registers,
Universal Shift register
08
Module 4: Semiconductor Memory and Programmable Logic
Introduction, Classification of memories:Programmable Read Only Memory, Erasable
Programmable Read Only Memory, Electrically EPROM, EAPROM,RAM – RAM organization,
Write and Read operation, Memory cycle and Timing wave forms, Memory decoding and
memory expansion, Static RAM Cell, Bipolar RAM cell, MOSFET RAM cell, Dynamic RAM
cell, Programmable Logic Devices, Programmable Logic Array (PLA), Programmable Array
Logic (PAL), Field Programmable Gate Arrays (FPGA), Implementation of combinational logic
circuits using ROM, PLA, PAL.
08
Module 5: Synchronous and Asynchronous Sequential Circuits::
Synchronous Sequential Circuits: Introduction, General Model, Classification and Design,Use of
Algorithmic State Machine, Analysis of Synchronous Sequential Circuits.
Asynchronous Sequential Circuits: Introduction, Design of fundamental mode and pulse mode
circuits, Incompletely specified State Machines, Problems in Asynchronous Circuits , Design of
Hazard Free Switching circuits
06
Module 6: ADC and DAC: Analog-to-Digital Converters (ADC): Single Slope Type, Dual Slope
Type, Successive Approximation Type, Flash Type etc. Digital-to-Analog Converters (DAC):
Weighted Resistor Type, R2R Ladder Type, Resistor String Type etc.
05
Text Books:
1 “Fundamentals of Digital Circuits ” by A. Anand Kumar (PHI).
2 “Digital Electronics And Logic Design” by M.Mano (PHI)
3 Digital Circuits and Design (Fourth Edition-2012) by S. Salivahanan and S. Arivazhagan, Vikas
Publishing House
Reference Books:
1 Digital Circuits & Logic Design – LEE, PHI
2 Digital Fundamentals: Floyd & Jain: Pearson Education
Analog Communication EEC43104 3-0-0 3 Credits
Module 1:Representation of Signals and Systems in a Communication System:
Discrete and Continuous signals with spectral representation, time domain representation of
discrete time, continuous time, analog and digital signals, concepts of modulation and frequency
translation, low pass and band pass signals and channels, concept of complex envelope, Hilbert
transform and phase shifting, Communication system block diagram - Transmitter, channel,
receiver.
08
Module 2: Amplitude Modulation and Demodulation:
Amplitude Modulation, time and frequency domain representation, modulation index,
determination of transmission bandwidth; phasor diagram; carrier power, sideband power, total
transmitted power & efficiency ; under modulation, over modulation and critical modulation,
Suppressed carrier modulation, DSB-SC modulation, bandwidth and transmitted power for DSB,
Generation of AM wave- Gated, Square law modulators, Balanced Modulator, SSB Generation
by Filter method, Phase shift method and the Third method, Demodulation of AM waves:
envelope detector, Synchronous detector for DSB-SC, Frequency & Phase error and error
Corrections, Generation of DSB-SC signals, Detection of DSB-SC signals, Single-tone
modulated DSB-SC, Costas loop, Quadrature AM, SSB-SC modulation, Generation of SSB-SC
signals, Detection of SSB-SC signals, VSB, Comparison of various AM systems, Frequency
Division Multiplexing (FDM), General block diagram of AM transmitters, Block diagram of high
level and low level AM Transmitter, High level transistor collector modulator, Low level
transistor modulator, Balanced modulator for SSB generation, Super heterodyne receivers –
image frequency & its rejection, Mixer, intermediate frequency, Local oscillator, selectivity,
sensitivity and fidelity.
11
Module 3: Angle Modulation: Phase & Frequency Modulation:
FM and PM, narrowband FM, wideband FM, methods of generation, FM spectrum, Generation
of FM using PM modulator and vise-versa, Demodulation techniques for FM: using balanced
frequency discriminator-Zero crossing detector, Linearized model of Phase Locked Loop, FM
demodulation employing first order PLL, Single-tone FM, Multi-tone FM, Transmission BW of
FM waves, Carson’s Rule, Effect of the modulation index β on bandwidth, Spectrum analysis of
sinusoidal FM wave, Narrow Band FM and Wide Band FM, De-emphasis and Pre-emphasis
filtering, Direct and Indirect (Armstrong) FM transmitter, Frequency multiplication, Stereophonic
FM broadcasting.
11
Module 4: Noise and SNR of Various Analog modulation Technique:
Various noise sources, Noise calculations for – single noise sources, multiple noise sources,
cascade and cascade amplifiers. Noise figure and its measurement, Noise temperature, Equivalent
input noise resistance, noise Bandwidth, noise measurement on line and channel. Band – pass
noise representation, noise figure calculation for various modulation systems (DSB-AM, DSB-
SC, SSB and FM). Calculation of Signal to Noise Ratio for AM, DSB/SC, SSB, FM.
10
Module 5: Sampling a Signal by Periodic Pulse Stream:
Sampling, ideal sampling, Nyquist sampling theorem, generation and detection of PAM, PWM,
PPM signals, generation and demodulation schemes.
05
Text Books:
1 Taub and Schilling , “Principles of Communication Systems”, 2nd ed., Mc-Graw Hill
2 B.P.Lathi -Communication Systems- BS Publications
3 Simon Haykin, Introduction to Analog and Digital Communication Systems, John Wiley and Sons, 3rd
Edition, 2001
Reference Books:
1 Carlson—Communication System,4/e , Mc-Graw Hill
2 Proakis&Salehi, Fundamentals of Communication Systems- Pearson
Digital Signal Processing EEC42106 3-0-0 3 Credits
Module 1: Introduction to Digital Signal Processing:
Types of sampling, Sampling theorem, Frequency domain representation of sampling,
Reconstructions of band limited signals from its samples, Aliasing, Linear Time Invariant (LTI)
system, Stability and causality.
03
Module 2:Frequency Domain Analysis of Discrete Time Signals and Systems:
Z-transform, Regions of convergence (ROC) and Z-transform properties, Inverse z-transform,
System analysis using Z transform, Discrete Fourier analysis, Discrete-Time Fourier Transform
(DTFT), Inverse DTFT. Discrete Fourier Transform (DFT), Inverse DFT. Fast Fourier
Transform, Types of FFT, N-point Radix-2 FFT, Inverse FFT. Discrete Linear Convolution,
Circular Convolution, Fast Convolution, Frequency Response of LTI system using Discrete
Fourier Analysis, All pass systems, Minimum/Maximum phase systems, Discrete Cosine
Transform.
12
Module 3: Structures of Discrete-Time Systems:
Realization of discrete-time systems, FIR systems: Direct, Cascade, Frequency Sampling and
Lattice structures. Structures for IIR systems: Direct, Signal Flow Graphs and Transposed,
Cascade, Parallel, Lattice and Lattice-Ladder structures. State space system analysis and
structures
06
Module 4: FIR Filter Design
Symmetric and Anti-symmetric FIR filters, FIR Filter design by window method (Rectangular,
Bartlett, Hamming, Hanning, Blackman and Kaiser window), Frequency Sampling method,
Optimum approximation of FIR filters, Design of FIR differentiators, Design of Hilbert
transformers
10
Module 5: IIR Filter Design
Design of Discrete-time IIR filters from Continuous-time Filters: Filter design by Impulse
invariant and bilinear transformation method: Butterworth, Chebyshev and Elliptic
approximation Filter, Frequency transformation.
07
Module 6: Multi-Rate Digital Signal Processing
Introduction, Decimation, Interpolation, Sampling rate conversion by rational factor, Filter design
and implementation for sampling rate conversion: Direct form FIR digital filter structure,
Polyphase filter structure, Time varying digital filter structure, Sampling rate conversion by an
arbitrary factor.
07
Text Books:
1 Digital Signal Processing – Principles, Algorithms and Applications by J. G. Proakis and D. G.
Manolakis, 4th Edition, Pearson
2 Discrete Time Signal Processing by A.V. Oppenheim, R. W. Schafer, & John R. Buck, , 2nd Edition,
Prentice Hall, 1999.
Reference Books:
1 Digital Signal Processing: Fundamentals and Applications – Li Tan, Academic Press, Elsevier.
2 Digital Signal Processing – S. Salivahan, A. Vallavraj and C. Gnanapriya, TMH.
Antenna and Wave Propagation EEC42108 3-0-0 3 Credits
Module 1: E M Theory Basics and Wave Propagation
Maxwell’s equations – Displacement current, equation of continuity, boundary conditions;
Propagation of uniform plane waves in unbounded medium – Reflection, phase and group
velocities; Ground wave, Sky wave, tropospheric scattering propagation; Transmission lines and
waveguides – Modes, design, traveling waves, standing waves, pulse propagation, characteristic
impedance, cut-off frequency, attenuation, dispersion, power-handling capability; Smith chart
and impedance matching techniques; Radiation concept– Elementary dipole, half-wave dipole,
radiation patterns, gain, pattern multiplication, other basic antennas.
12
Module 2: Fundamental Concepts of Antenna
Physical concept of radiation, Radiation pattern, near-and far-field regions, reciprocity,
directivity and gain, effective aperture, polarization, input impedance, efficiency, Friis
transmission equation, radiation integrals and auxiliary potential functions.
08
Module 3: Radiation from Wires and Loops
Infinitesimal dipole, finite-length dipole, linear elements near conductors, dipoles for mobile
communication, small circular loop
06
Module 4: Aperture and Reflector Antennas
Huygens' principle, radiation from rectangular and circular apertures, design considerations,
Babinet's principle, radiation from sectoral and pyramidal horns, design concepts, prime-focus
parabolic reflector and Cassegrain antennas.
07
Module 5: Broadband Antennas
Log-periodic and Yagi-Uda antennas, frequency independent antennas, broadcast antennas 04
Module 6:Microstrip Antennas
Basic characteristics of micro strip antennas, feeding methods, methods of analysis, design of
rectangular and circular patch antennas.
04
Module 7: Antenna Arrays
Analysis of uniformly spaced arrays with uniform and non uniform excitation amplitudes,
extension to planar arrays, synthesis of arrays of antenna using Schelkun off polynomial method,
Woodward-Lawson method
04
Text Books:
1 E.C.Jordan and Balmain, "Electro Magnetic Waves and Radiating Systems", PHI, 1968, Reprint 2003.
2 John D.Kraus and RonalatoryMarhefka, "Antennas", Tata McGraw-Hill Book Company, 2002.
Reference Books:
1 R.E.Collin, "Antennas and Radio Propagation ", McGraw-Hill, 1987.
2 Balanis , "Antenna Theory " , John Wiley & Sons, third edition , 2009.
HSS IV
(Economics for Engineers) HEC42180 3-0-0 3 Credits
Module 1: Basic Concepts and Theories of Economics
Introduction to The Literature of Microeconomics centering around Decision Making at
Individual Level
Some Fundamental Concepts: Maximization, Equilibrium, and Efficiency
The Theory of Consumer Choice and Demand
The Theory of Supply
Market Equilibrium
Market Structure
Market Failure and Environmental Issues
Game Theory
Concept of Yield and Theories of Term Structure
The Theory of Asset Pricing
Decision-Making under Uncertainty: Risk and Insurance
20
Module 2: Sustainability Study of a Project
Budget plan
Estimation of the project cost
Prices, fees and cost recovery
Financing of recurrent costs
Sustainability of the activities generated by the project
10
Module 3: Economic Feasibility Study
Problem of Pricing under Oligopoly
Problem of Market Stagnation
Problem of Volatility in Open Economy
Problem of Global Meltdown
Problem of Financing a Project
12
Module 4: Project Report
Facets of Project Viability – Commercial, Technical, Financial
Outline of a Model Project Report
A Real Life Case Study
03
References:
1 Engineering Economy, Leland Blank and Anthony Tarquin, McGraw-Hill, New York, 7th Edition
2 How to Make Cash Flow Projections, Tim Spilker,
https://www.tgci.com/sites/default/files/pdf/How%20to%20Make%20Cash%20Flow%20Projections_0.pd
f
3 Esty, Benjamin C., Modern Project Finance: A Casebook, John Wiley & Sons, Inc., (New York, NY).
2003
4 Gregory Mankiw, Principles of Economics, South-WesternCollege, 6th Edition
Semester V
Microprocessors and Microcontrollers EEC43101 3-0-0 3 Credits
Module 1:Introduction
Introduction to Microcomputer based system. Evolution of Microprocessors and microcontrollers
and their advantages and disadvantages.
02
Module 2: The 8085 Microprocessor
Architecture of 8085 Microprocessor, Pin details of 8085 IC, Address / Data Bus multiplexing
and demultiplexing, Status and Control signal generation, Classification of instructions
,Instruction set of 8085 Microprocessor, timing diagram of the instructions, addressing modes.
Assembly language programming. Stack and Subroutine, Interrupts of 8085 processor:
classification of interrupts, Programming using interrupts ,Serial and parallel data transfer – Basic
concept of serial I/O, DMA, Asynchronous and synchronous serial transmission using SID and
SOD pins of 8085 Microprocessor.
12
Module 3:The 8086 microprocessor
Architecture, Minimum mode and Maximum mode operation, Pin details, Timing diagram,
Memory segmentation, addressing modes, 8086 Instructions set, Interrupts, Stack, Assembly
language programming, The Processor 8288.
10
Module 4: 8051 architecture
8051 micro controller hardware, input/output pins, ports, external memory, counters and timers,
instruction set, addressing modes, serial data i/o, interrupts. Assembly language Programming
using 8051 Moving data: External data moves, code memory read only data moves, PUSH and
POP opcodes, data exchanges. Logical operations: Byte-level, bit-level, rotate and swap
operations. Arithmetic operations: Flags, incrementing and decrementing, addition, subtraction,
multiplication and division, decimal arithmetic. Jump and call instructions: Jump and call
program range, jumps, calls and subroutines, interrupts and returns.
10
Module 5:Support IC chips and Interfacing
8255, 8253 and 8251: Block Diagram, Pin Details, Modes of operation, control word(s) format.
Interfacing of support IC chips with 8085, 8086 and 8051. 8257 DMA Controller ,8259 Interrupt
controller . Memory interfacing with 8085, 8086 & 8051. ADC / DAC interfacing with 8085,
8086 & 8051.
08
Module 6:Brief introduction to PIC microcontroller
Architecture of 16F877, PIN details, memory layout etc. 02
Module 7:High end Microprocessors
Introduction to 80386 and 80486. 01
Text Books:
1 Microprocessor architecture, programming and application with 8085 – R. Gaonkar (Penram
International)
2 Ray &Bhurchandi, Advanced Microprocessors & Peripherals, TMH
3 The 8051 microcontroller and Embedded systems - Mazidi, Mazidi and McKinley (PEARSON)
Reference Books:
1 The 8051 microcontroller - K. Ayala (Thomson)
2 Microprocessors & interfacing – D. V. Hall (Tata McGraw-hill)
3 Microprocessors and microcontrollers - N. Senthil Kumar, M. Saravanan and Jeevananthan (Oxford
university press).
Digital Communication EEC43103 3-0-0 3 Credits
Module 1: Probability and Random Processes
Probability theory, Conditional probability, Baye’s rule, Radar example, continuous random
variable, discrete random variable, Cumulative distribution function, conditional probability
density function (Gaussian, Rayleigh and Rician), Expectation, variance, covariance, stochastic
process, stationary (strictly, weakly), properties of auto-correlation function, cross correlation
function, ergodic processes, transmission of weakly stationary process, power spectral density of
weakly stationary process, cross spectral density.
08
Module 2: Geometric Signal Representation
Analogy between signal and vector, orthogonality and orthonormality, geometric representation
of signal, Schwartz inequality, Gram-Schmidt orthogonalization procedure, AWGN channel
model, AWGN channel to vector channel conversion, maximum likelihood decision rule,
orthogonal signal space, message point, signal constellation, optimum receiver, correlation
receiver, matched filer receiver, error probability, bit error, symbol error.
08
Module 3: Analog waveform to Digital Data conversion and transmission
sampling, Pulse Amplitude Modulation (PAM), interlacing, signal sample multiplexing,
quantization, uniform and non-uniform quantization, quantization noise, Pulse Code Modulation
(PCM), , binary encoding, A-Law and μ –law, companding, regenerative repeater, noise in PCM,
differential PCM, delta modulation, adaptive delta modulation, concept of line coding
polar/unipolar/bipolar NRZ and RZ, Manchester, differential encoding and their PSDs, Inter
Symbol Interference (ISI), Nyquist criterion for zero ISI, pulse shaping, ideal Nyquist pulse,
raised cosine pulse, Eye diagram, equalization, adaptive equalization, zero forcing equalizer,
timing extraction.
12
Module 4: Digital Modulation Techniques
Types of Digital Modulation, coherent and non-coherent Binary Modulation, digital carrier
modulation techniques: ASK, FSK and PSK, Coherent Binary Phase Shift Keying (BPSK),
geometrical representation of BPSK signal; error probability, generation and detection of BPSK
Signal, spectrum of BPSK. Concept of M-ary Communication, M-ary phase shift keying, average
probability of symbol error for coherent M-ary PSK, power spectrum of MPSK, Quadrature
Phase Shift Keying (QPSK), error probability of QPSK signal, generation and detection of QPSK
signals, power spectrum of QPSK signals, Offset Quadrature Phase shift Queuing (OQPSK),
Coherent Frequency Shift Keying (FSK), Binary FSK, error probability of BFSK signals,
generation and detection of Coherent Binary FSK signals, power spectrum of BFSK signal,
Minimum Shift Keying (MSK), signal constellation of MSK waveforms, error probability of
MSK signal, Gaussian Minimum Shift Keying: GMSK, concept of OFDM, constellation
diagram, Some performance issues for different digital modulation techniques - Error Vector
Magnitude (EVM), Vector Signal Analyzer (VSA).
17
Text Books:
1 Simon Haykin, “Digital Communication Systems” John Wiley, 4th Edition, 2001
2 Taub& Schilling , “Principles of Digital Communication “ Tata McGraw-Hill” 28th reprint, 2003
Reference:
1 Digital Communications, J.G.Proakis, TMH Publishing Co.
2 Modern Digital and Analog Communication Systems, B.P.Lathi and Z.Ding, Oxford University Press
Environmental Science SGY43113 3-0-0 3 Credits
Module 1: Basics of Environmental Sciences
Definition, Scope and objectives, classification of environment, interrelationship between the
components, ecology and ecosystem, structural and functional component of ecosystem, energy
flow in an ecosystem, biogeochemical cycles, human impact on the environment, The IPAT
equation, Ecological foot print, ecology and environment, ecosystem concept, energy flow in
an ecosystem
06
Module 2: Energy resources
Concept of energy, SI Units of Work, Heat and Power, World energy use, Energy consumption
pattern in India and U.S., Environmental aspects of energy utilization Renewable and non-
renewable sources; Fossil fuel: types, use and environmental impacts, Solar energy: Solar
Radiation – Passive and active solar systems – Flat Plate and Concentrating Collectors – Solar
direct Thermal Application– Fundamentals of Solar Photo Voltaic Conversion- advantages and
disadvantages of Solar Power generation, Solar energy status in India, Wind Energy: site
selection, Wind turbine: basic working principle and types, Wind energy status in India,
advantages and disadvantages of Wind Power generation, Hydroelectric power : How it is
generated, advantages and disadvantages, Biomass energy: various types, generations of
biofuel, Biomass direct combustion – Biomass gasifiers – Biogas plants – Digesters – Ethanol
production – Bio diesel, Geothermal Energy: source, various methods of extraction: wet steam,
dry steam and hot water flashed, advantages and disadvantages
10
Module 3: Air pollution and control
Classification of air pollutants, Criteria air pollutants and their impacts, Major global impacts
of air pollution on man: Global warming, Ozone layer depletion, Acid rain; Air quality
standards, Air pollution control methods, Methods of reducing air pollutants from IC engines,
particulate pollutant and gaseous pollutant
08
Module 4:Water pollution fundamentals and control strategies
Water quality: physical, chemical and biological characteristics, drinking water quality
standard, effluent water quality, waste water sources and constituents, waste water treatment:
preliminary treatment, primary treatment, secondary treatment, sedimentation, coagulation,
floatation, aerobic and anaerobic biological treatment, activated sludge process, lagoons,
trickling filters, rotating biological contractor
10
Module 5: Solid waste management
Sources and generation of solid wastes, their characterization, chemical composition and
classification. Different methods of disposal and management of solid wastes, Recycling of
waste material. Waste minimization technologies.Hazardous Wastes Management and
Handling Rules, 1989
06
Module 6: Environmental impact assessment
Introduction to Environmental Impact Analysis. Environmental Impact Statement and
Environmental Management Plan.EIA guidelines 1994, Notification of Government of India.
Impact Assessment Methodologies. Generalized approach to impact analysis. Procedure for
reviewing Environmental impact analysis and statement. Guidelines for Environmental audit.
05
Text Books:
1
“Principles of Environmental Science”, 4th edition by Cunningham, W.P. and Cunningham, M.A.
(2002),Tata McGraw-Hill Publishing Company, New Delhi
2 “Introduction to Environmental Engineering”, 2
nd Ed. by Davis, M. L. and Cornwell D. A. McGraw Hill,
Singapore.
Reference Books:
1 “Introduction to Environmental Engineering and Science”, by Masters, G.M., PrenticeHall of India,
Second Indian Reprint.
2 “Wastewater Engineering: Treatment and Reuse”, 4
th Edition, Metcalf and Eddy, Inc. McGraw-Hill, Inc.,
New York, 2002
HSS-V (Financial Accounting) HEC43181 3-0-0 3 Credits
Unit 1: Meaning and scope of accounting- introduction, meaning of accounting, objectives of
accounting, functions of accounting,book-keeping,distinction between book-keeping and
accounting, sub-fields of accounting, users of accounting information, relationship of
accounting with other disciplines, limitations of accounting, use of mathematics in accounting,
accounting concepts, principles and conventions.
15
Unit 2: Basic accounting procedures in journal entries, accounting equation approach,
traditional approach, ledgers, trial balance. 06
Unit 3: Subsidiary books – other than cash book, cash book, capital and revenue expenditures,
capital and revenue receipts, contingent assets and contingent liabilities. 06
Unit 4: Rectification of errors, basis of inventory valuation and record keeping, average due
date and current account. 05
Unit 5: Bank reconciliation statement, depriciation accounting, consignment and joint
ventures. 05
Unit 6: Preparation of final accounts of sole proprietors, final accounts of manufacturing
entities, accounting of non-profit organisation, preparation of receipt and payment account,
income and expenditure account and balance sheet. 08
Text Books:
1 B.K Banerjee, Financial Accounting- Concept, Analysis, Methods and Uses, P.H.I Learning Pvt. Ltd
2 Basu and Das , Financial Accounting(vol-1), - Rabindra library
3 Prof. Amitabh Basu, Financial Accounting(vol-1), Tee Dee publication pvt.ltd
Semester VI
VLSI System Design EEC43102 3-0-0 3 Credits
Module 1:Intrdoduction to VLSI Design:
Historical Perspective and Future Trends, Moor’s Law;Scale of Integration (SSI, MSI, LSI, VLSI,
ULSI), Types of VLSI Chips (Analog & Digital VLSI chips, General purpose, ASIC, PLA, FPGA),
Design principles (Digital VLSI – Concept of Regularity, Granularity etc), Design Domains
(Behavioural, Structural ); VLSI design styles: Full custom, Gate array, Standard cell, Micro-cell
based design, Field programmable device; Design quality.
09
Module 2: Fabrication Technology
Si semiconductor technology: Wafer preparation, Oxidation, Ion implantation, Different deposition
processes, Metallization, Etching, Lithography; Bipolar, CMOS and Bi-CMOS fabrication
processes; Layout design rule.
07
Module 3:MOSFET
MOSFET characteristics threshold voltages, body effect, Chanel length modulation, MOSFET
scaling, MOS switch and inverter, The complementary CMOS inverter-DC characteristic, Alternate
CMOS inverter, latch up.
07
Module 4:MOS & CMOS Circuit Characterization and Performance Estimation
Resistance Estimation, Capacitance Estimation: MOS Device Capacitance, Diffusion Capacitance,
Routing Capacitance, RC Effects, Capacitance Design Guide; Switching Characteristic: Fall Time,
Rise Time, Delay Time; RC Circuit Delay Computation: Cascaded RC Stages, Elmore Delay.
Propagation Delay Calculation with Elmore Model for Multiple RC Stages; CMOS Gate Transistor
Sizing, Determination of Conductor Size, Power Consumptions: Static Dissipation, Dynamic
Dissipation.
07
Module 5:CMOS circuit and logic design
CMOS logic circuit, NMOS and CMOS Logic, Dynamic and Pass-transistor logic, Design of logic
gate: Inverter, NAND and NOR gate,CMOS Full Adder ,Multiplexer, Decoder, logic minimization,
Advanced CMOS Logic circuits; Sequential CMOS logic circuits; SR Latch circuit, clocked JK
Latch/ Master-Slave JK , CMOS D-latch & Edge triggered flip-flop , Series and parallel transistor
connection, source drain capacitance, charge sharing, Logic style comparison, Physical layout logic
gate, CMOS standard cell design, Layout and layout design rules.
08
Module 6: Semiconductor memories
SRAM: CMOS SRAM cell, Bipolar SRAM cell; DRAM: basic DRAM cell and its Operation
Device design and scaling Considerations for a DRAM Cell; Non-volatile memories: MOSFET
nonvolatile memory devices, Flash Memory Arrays, Floating-Gate Nonvolatile Memory Cells,
Nonvolatile Memory Cells with Charge Stored in Insulator
07
Text Books:
1 Digital Integrated Circuit, J.M.Rabaey, Chandrasan, Nicolic, Pearson Education,2nd
edition 2003
2 Weste and Eshrighian, ―Principle of CMOS VLSI Design‖ Pearson Education
3 Wayne, Walf, “Modern VLSI design: System on Silicon” Pearson Education, 2nd Edition, 1998
Reference Books:
1 Pucknull, “Basic VLSI Design” PHI 3rd Edition
Computer Architecture and
Operating System ECS42104 3-0-0 3 Credits
Module 1: Basic organization of computers, Block level description of the functional units as
related to the execution of a program; Fetch, decode and execute cycle. 05
Module 2: Machine instructions, Instruction set architectures, Assembly language programming,
addressing modes, instruction cycles, registers and storage, addressing modes; discussions about
RISC versus CISC architectures; Inside a CPU.
08
Module 3: Evolution of operating systems, Types of operating systems. Different views of the
operating system, operating system concepts and structure. 08
Module 4: Process Management
Processes: Concept of processes, process scheduling, operations on processes, co-operating
processes, inter-process communication
Threads: overview, benefits of threads, user and kernel threads.
CPU scheduling: scheduling criteria, preemptive& non-preemptive scheduling, scheduling
algorithms (FCFS, SJF, RR, and Priority), and algorithm evaluation, multi-processor scheduling.
Process Synchronization: background, critical section problem, critical region, synchronization
hardware, classical problems of synchronization, semaphores
Deadlocks: system model, deadlock characterization, methods for handling deadlocks, deadlock
prevention, deadlock avoidance, deadlock detection, recovery from deadlock
12
Module 5:
Memory Management: background, logical vs. physical address space, swapping, contiguous
memory allocation, paging, Segmentation, segmentation with paging
Virtual Memory: background, demand paging, performance, page replacement, page replacement
algorithms (FCFS, LRU), allocation of frames, thrashing
12
Text Books:
1 Computer System Architecture by M. Morris Mano, Prentice Hall of India, New Delhi, 1992.
2 Computer Organization and Design, by David Patterson and John Hennessey, Elsevier. 2008
3 Tanenbaum A.S, “Operating System Design & Implementation”, Practice Hall NJ.
Reference Books:
1 Computer Systems Design and Architecture (2
nd Edition) by Vincent P. Heuring and Harry F.
Jordan (Dec 6, 2003).
2 Computer Architecture and Organization, by Hayes, J.P. 1998, McGraw-Hill.
3 Computer Organization, by V. Carl Hamacher, Safwat G. Zaky and Zvonko G. Vranesic,
McGraw-Hill series (2002).
4 Silberschatz, A, Galvin, P.B, and Gagne, G., Operating System Principles, 8e, John Wiley &
Sons, 2008.
Management -I MBA43144 3-0-0 3 Credits
Module- 1 INDUSTRIAL MANAGEMENT - Introduction: Concept, Development,
application and scope of Industrial Management. Productivity: Definition, measurement,
productivity index, types of production system, Industrial Ownership.
08
Module 2: Management Function: Principle of Management – Time and motion study, work
simplification – process charts and flow diagrams, Production Planning. Inventory Control:
Inventory, Cost, Deterministic Models, Introduction to supply chain management.
12
Module 3: Quality Control: Process control, SQC, Control charts, Single, Double and
Sequential Sampling, Introduction to TQM. 06
Module 4: Fundamentals of Materials Management; Material cycle; Forecasting; Production
Planning and Materials Requirements , Materials Procurement; Tendering; Types of Tenders 07
Module 5: Storage and warehousing concepts, Receipt, Warehouse type, Layout, issue of
materials and updation of records; Manpower and equipment; 06
Module 6: Material Classification, Need and usage of classification, Single-dimensional
classification, Multidimensional classifications; Materials Codification, Usage of codification,
Codification types;
06
Text Books:
1 Arnold, Chapman: Introduction to Materials Management: Pearson, 5th edition, 2008
Reference Books:
1 Gopalkrishnan&Sundarsan: Material Management: An Integrated Approach, Prentice Hall of India Private
Limited, New Delhi, 2003
2 Industrial Engineering and Management by OP Khanna, DhanpatRai Publications, Delhi.
3 Industrial Management by VK Sharma, OP Harkut.
Semester VII
Embedded Systems Design EEC44101 3-0-0 3 Credits
Module 1:Overview of Embedded system
Introduction to embedded systems ,Differences between Microprocessor and Microcontroller,
General computing systems Vs Embedded system, Classification of embedded systems,
embedded processor in system, purpose of Embedded systems
05
Module 2: Hardware of Embedded System
Input: Sensors, Sample-and-hold circuits, A/D converters; Communication: Requirements
Electrical robustness, Real-time behavior, Examples; Processing Unit: Application-Specific
Circuits (ASICs), Processors, Reconfigurable Logic; Output: D/A-converters, Actuators ;
Memories: Memory organization;
10
Module 3: Communication Buses and Devices:
I/O types, Serial Parallel communication port, Timer and Counting devices, Watchdog timers,
real time clock ,Brown out reset,, Serial bus communication protocol-I2C, CAN, Parallel
communication protocol-ISA
08
Module 4:Interrupt Service Mechanism
Interrupt sources, Interrupt handling mechanism, Fast interrupts, Interrupt controller, Interrupt
latency, Interrupt programming, Device driver
08
Module 5:Embedded software development and Program Modeling Concepts
Assambly language programming (ALP), High level language-C, Processor directives, functions
and macros and other programming elements, primary issues in Hardware software co-design,
Unified Modeling Language(UML), DFG model, state machine programming model, Hardware
Software trade-offs.
06
Module 6: Real time operating system (RTOS)
RTOS overview, types of Real-time tasks, Basic design rule using RTOS, Task swapping
methods ,Scheduler algorithms, Priority inversion, process, thread, Choice of RTOS, Overview
of embedded RTOS, Programming in RTOS.
05
Module 7:Case study of different types of embedded system
System design using ARM Processor 7 or 9, Development of protocol converter, Case studies
digital camera, Robotics, Popular microcontrollers used in embedded systems
03
Text Books:
1 Steve heath, ―Embedded system design , 2nd edition 2003,elsevier
2 Rajkmal, Embedded system, 2nd edition.
3 SantanuChattopadhyay,-- Embedded System Design,2nd
edition,PHI Learning
Reference Books:
1 Shibu. K.V , ―Introduction to Embedded systems‖, mcgraw hill 2009
2 Frank Vahid , Embedded systems.
HSS-VI (Organizational
Behaviour) HPS44101 3-0-0 3 Credits
Module 1: Introduction: Historical development; concept of organization; elements of
organizational structure; scope of organizational behaviour.
Module 2: Motivation and job satisfaction: Major theories; content and process; (Adams,
Maslow, Vroom, Herzberg). Intrinsic and extrinsic motivation; incentive systems - Job
satisfaction; concept and determinants.
Module 3: Leadership: Functions and approaches; trait, behavioural and contingency models;
characteristics of successful leaders; role of power in leadership
Module 4: Communication: Communication process- types of communication;
communication channels and networks; barriers to communication.
Module 5: Group behavior and conflict: Defining and classifying groups; stages of group
development; concept, causes and consequences of conflicts; methods of conflict-resolution.
Module 6: Behavior in organizations: Human perception and motivation, human learning
and problem solving, people are unique, groups in organizations, leader and group
effectiveness
Text Books:
1 Aamodt, M. G. (2001). Industrial/organizational psychology. New Delhi: Cengage
2 Luthans, F. (2005). Organizational behavior(12thEd.). New York: McGraw Hill.
3 Muchincky. (2009). Psychology applied to work. New Delhi: Cengage.
Reference Books:
1 Robbins , S., Judge, T.A., &Sanghi, S. (2009). Organizational behavior(13th Ed.). New Delhi: Pearson
Education.
2 Riggio, R. E. (2003) Introduction to Industrial/Organizational Psychology (4th d.). New Jersey: Prentice-
Hall .
Management II MBA 44116 3-0-0 3 Credits
Module 1:
Economic Order Quantity, Safety Stocks, Inventory Management Systems, Forecasting
Techniques, Material Requirement Planning, Just in Time (JIT)
05
Module 2:
RP and Related Technologies: Business Process Re-engineering, Management Information
systems, Decision Support Systems, Executive Information Systems- Advantages of EIS;
Disadvantages of EIS, Data Warehousing, Data Mining, On-Line Analytical Processing,
Product Life Cycle Management, Supply Chain Management, ERP Security
08
Module 3:
ERP Implementation Life Cycle: ERP Tools and Software, ERP Selection Methods and
Criteria, ERP Selection Process, ERP Vendor Selection, ERP Implementation Lifecycle, Pros
and cons of ERP implementation, Factors for the Success of an ERP Implementation
06
Module 4:
Marketing – scope, nature, definition, core marketing concepts, Marketing mix recent trends in
marketing in India. Product concept, price concept, channel of distribution and promotion,
08
Module 5:
Compensation: Wage policy, Wage determination, Wage boar, factors affecting wages &
Salary, systems of payments,Job evaluation, components of wage/salary-DA, incentives,
bonus, fringe benefits etc., Minimum Wages Act 1948, Workmen Compensation Act 1923,
Payment of bonus Act 1965.
10
Module 6:
Recruitment & Selection: Career planning & development, training methods, basic concept of
performance appraisal. Promotion & Transfer.
08
Text Books:
1 Marketing Management by Philip Kotler, Prentice Hall of India, New Delhi
2 Essential of HRM and Industrial Relations-P.SubbaRao
Reference Books:
1 Inventory management- principles and practices- P Narayan Jaya Subhramanian
2 Industrial Engineering and Management by TR Banga.
ELECTIVES
Microwave Engineering EEC43107 3-0-0 3 Credits
Module 1:Introduction to Microwaves
History of Microwaves, Microwave Frequency bands. Applications of Microwaves: Civil and
Military, Medical, EMI/ EMC.
02
Module 2: Mathematical model of Microwave Transmission
Concept of Mode. Characteristics of TEM, TE and TM Modes. Losses associated with
microwave transmission. Concept of Impedance in Microwave transmission. Scattering or S-
parameter representation of microwave circuits, properties of S-parameters.
04
Module 3:Analysis of RF and Microwave Transmission Lines
Coaxial Line. Rectangular Waveguide, Circular waveguide. Stripline. Microstrip Line. 05
Module 4:Microwave Network Analysis
Equivalent Voltages and currents for non-TEM lines. Network parameters for microwave
Circuits. Scattering Parameters.
03
Module 5: Passive and Active microwave Devices
Microwave Passive components: Directional Coupler, Power Divider, Microwave Passive
components: Magic Tee, attenuator, resonator.
Microwave Active components: Diodes, Transistors. Microwave Active components:
oscillators, mixers. Microwave Semiconductor Devices: Gunn Diodes, IMPATT diodes, Schottky
Barrier diodes, PIN diodes. Microwave tubes: Klystron, TWT, Magnetron
05
Module 6: Microwave Design Principles
Impedance transformation. Impedance Matching. Microwave Filter Design. RF and Microwave
Amplifier Design. Microwave Power amplifier Design. Low Noise Amplifier Design, Microwave
Mixer Design. Microwave Oscillator Design.
07
Module 5:Microwave Antenna
Microwave Antenna Parameters. Microwave antenna for ground based systems. Microwave
antenna for airborne based systems. Microwave antenna for satellite borne systems. Microwave
Planar Antenna.
06
Module 6:Microwave Measurements. Power, Frequency and impedance measurement at
microwave frequency. V.S.W.R method, Reflectometer technique, Use of Smith chart, Bridge
method. Network Analyser and measurement of scattering parameters. Spectrum Analyser and
measurement of spectrum of a microwave signal. Noise at microwave frequency and
measurement of noise figure. Measurement of Microwave antenna parameters.
04
Module 7: Microwave Systems.
Radar Systems. Cellular Phone. Satellite Communication. RFID. GPS. 02
Module 7:Modern Trends in Microwaves Engineering. Effect of Microwaves on human
body. Medical and Civil applications of microwaves, Electromagnetic interference /
Electromagnetic Compatibility (EMI / EMC). Monolithic Microwave IC fabrication. RFMEMS
for microwave components. Microwave Imaging.
07
Text Books:
1 Samuel Y.LIAO : Microwave Devices and Circuits - Prentice Hall of India - 3rd Edition (2003)
2 Annapurna Das and SisirK.Das: Microwave Engineering - Tata McGraw-Hill (2000) (UNIT V)
Reference Books:
1 R.E. Collin: Foundations for Microwave Engg. - IEEE Press Second Edition (2002)
2 David M.POZAR: Microwave Engg. - John Wiley & Sons - 2nd Edition (2003)
Mobile Communication EEC43108 3-0-0 3 Credits
Module 1:Introduction to Cellular Mobile Systems
A basic cellular system, operation of cellular systems, performance criteria, uniqueness
of mobile radio environment, planning a cellular system, Elements of Cellular Radio Systems
Design and Interference: General description of the problem, concept of frequency reuse channels,
co-channel interference reduction factor, desired C/I from a normal case in an omni
directional antenna system, cell splitting, consideration of the components of cellular systems,
Introduction to co-channel interference, co-channel measurement design
of antenna system, antenna parameter and their effects
08
Module 2:Cell Coverage for Signal & Antenna Structures
General introduction, obtaining the mobile point to point mode, cell site, antenna heights and signal
coverage cells, mobile to mobile propagation, Characteristics of basic antenna structure, antenna at
cell site, mobile antennas, Frequency Management & Channel Assignment, Hand Off & Dropped
Calls: Frequency Management, fixed channel assignment, non-fixed channel assignment, traffic &
channel assignment, types of handoff and their characteristics.
08
Module 3: Characteristics of wireless channel
Different Multi-path propagation mechanisms, propagation over water or flat open area, propagation
near in distance, long distance propagation, point to point prediction model – characteristics, free
space propagation model, two ray ground reflection model. Multi-path effects on mobile
communication, Fading, different types of fading, small and large scale fading, slow and fast fading,
narrowband and wideband fading, Inter symbol interference, fast fading model, Doppler effect
due to velocity of mobiles, Rayleigh envelop.
08
Module 4: Mobile Wireless Communication Systems
Mobile Wireless Systems, 2G network GSM, Architecture, Protocols, Air Interface, GSM Multiple
Access, GSM Channel Organization, GSM Call Set up Procedure, GSM Protocols and Signaling,
Location Update Procedure, Routing a call to a Mobile Subscriber, The concept of packet data
services - 2.5G GPRS networks: The 2.5 G General Packet Radio Services, GPRS Networks
Architecture. Session Management and PDP Context, GPRS Location Management Procedures,
GPRS Interfaces and Related Protocols, GPRS Applications, IS-136 (Digital-AMPS), Mobile
Management, Voice signal processing and coding.
08
Module 4:Multiple Access Technologies in cellular communication
Multiple access techniques: FDMA, TDMA, CDMA, Time-division multiple access (TDMA), code
division multiple access (CDMA), CDMA capacity, probability of bit error
considerations, CDMA compared with TDMA.
06
Module 5:WLAN & Collision Management
IEEE 802.11 standards, WLAN family, WLAN system architecture, Wi-Fi, Wi-Max Architecture;.
Collision Sense Multiple Access with Collision Detection (CSMA/CD) and CSMA collision
avoidance (CSMA/CA).
07
Text Books:
1 William, C. Y. Lee, “Mobile Cellular Telecommunications”, 2nd Edition, McGraw Hill, 1990.
2 Theodore S Rappaport, “Wireless Communication Principles and Practice”, 2nd Edition, Pearson, 2002.
Reference Books:
1 Mischa Schwartz, “Mobile Wireless Communications”, Cambridge University Press, UK, 2005.
2 William Stallings, “Wireless Communication Networks and Systems”, 2nd Edition, PPH, 2005.
3 Jochen Schiller, "Mobile Communications", 2nd Edition, Addison-Wesley (An imprint of Pearson
Education), 2003
Fiber Optics Technology EEC43112 3-0-0 3 Credits
Module 1: Introduction and importance of Fiber Optics Technology. 01
Module 2: Ray analysis of optical fiber
Propagation mechanism of rays in an optical fiber, Meridional rays, Skew rays, Fiber numerical
aperture, dispersion
05
Module 3:Electromagnetic (modal) analysis of Step-index multimode fibers
Wave equation and boundary conditions, Characteristics equation, TE, TH and Hybrid modes, Weakly
guiding approximation, linearly polarized modes, Single mode fiber, V parameter, Power confinement
and mode cutoff, Mode field diameter
08
Module 4: Graded-index fiber
Modal analysis of graded index fiber, WKB analysis, Optimum profile.
Experimental techniques in fiber optics: Fiber fabrication (OVD, VAD, CVD, MCVD, PMCVD etc.)
and characterization, Splices, Connectors and fiber cable
10
Module 5: Loss mechanism in optical fiber
Absorption loss, scattering loss, bending loss, splice loss.Pulse propagation, Dispersion and chirping in
single mode fibers: Pulse propagation in non-dispersive and dispersive medium, Pulse broadening and
chirping, Group and phase velocity, Intermodal and intra-modal dispersion, Group velocity (material
and waveguide) dispersion, Higher order dispersion, Fiber bandwidth
10
Module 6: Dispersion compensation mechanism: Dispersion tailored and dispersion compensating
fibers, Fiber Birefringence and polarization mode dispersion, Fiber bandwidth
Nonlinear effects in optical fiber: Stimulated Raman Scattering, Stimulated Brillouin Scattering, Self
Phase Modulation, Cross Phase Modulation, Optical Solitons
07
Module 7: Fiber based devices: Erbium-doped fiber amplifiers and lasers, Fiber Bragg gratings,
Optical Fiber Sensors. Photonic crystal fibers 04
Text Books:
1 G. Keiser, “Optical Fiber Communications”, McGraw Hill, 2009.
2 D.K. Myanbaev& Lowell L. Scheiner, “Fiber Optic Communication Technology”, Pearson, 2008.
Reference Books:
1 G.P. Agrawal, “Nonlinear Fiber Optics”, Academic Press, 2009
2 J.M. Senior, “Optical Fiber Communications”, Prentice Hall, India, 2008.
3 R. P. Khare, “Fiber Optics and Optoelectronics”, Oxford University Press, 2004
Object Oriented Programming ECS42106 3-0-0 3 Credits
Module 1:
OOP concept: Data abstraction, encapsulation, inheritance, polymorphism, classes and objects;
Properties of OOP, Procedural and object oriented programming paradigms.
Introduction to C++ / Java / Python, data types, variables, constants, scope and validity of
variables, various operators, operator hierarchy, expressions, data type conversion and casting,
enumerated types, control flow and scope of blocks, conditional statements, loops, break and
continue statements, stand-alone java programs, arrays, console input-output, formatting output,
constructors, methods, parameter passing, static fields and methods, access control, this
reference, method overloading and overriding, recursion, garbage collection, building and
exploring string class.
8
Module 2: Inheritance: Inheritance hierarchy, sub and super classes, Member accessing rules, super
keyword, preventing inheritance: using final classes and methods, the Object class and its
methods.
Polymorphism: dynamic binding, method overriding, abstract classes and methods.
Interfaces: Interfaces and Abstract classes, definition and implementation of interfaces,
accessing through interface references, extending interfaces.
Inner classes: uses of inner classes, Various inner classes: local inner class, anonymous inner
class, static inner class.
Packages: Definition, Creation and Access of a Package, Understanding “classpath”, importing
packages.
8
Module 3: Exception handling: errors/exceptions occur in OOP, Benefits of exception handling, the
classification of exceptions- exception hierarchy, checked exceptions and unchecked exceptions;
usage of try-catch block, throw, throws and finally, re-throwing exceptions, exception
specification, built in exceptions, user defined exceptions.
Multithreading: multiple processes vs. multiple threads, states of a thread, creating threads,
interrupting threads, thread priorities, thread synchronization, inter-thread communication,
producer-consumer pattern.
8
Module 4: Collection Framework: Introduction to Collections, Overview of Collection frame work,
Generics, Basic Collection classes: Array List, Vector, Hash table, Stack, Enumeration, Iterator,
String Tokenizer, Random, Scanner, calendar.
Files: streams- byte streams, character streams, text input/output, binary input/output, random
access file operations, File management.
Connecting to Database: JDBC / ODBC Type 1 to 4 drives, database connectivity, database
query and result processing, data updation with JDBC.
10
Module 5: GUI Programming: AWT class hierarchy, Fundamentals of Swing, Swing vs. AWT, Hierarchy
of Swing components, Containers - JFrame, JApplet, JDialog, JPanel; Overview of swing
components - Jbutton, JLabel, JTextField, JTextArea; Applications of swing, Layout
management - Layout manager types - border, grid and flow.
Event handling: Events, Event sources, Event classes, Event Listeners, Relationship between
Event sources and Listeners, Delegation of event model, handling of a button click, handling of
mouse events, Adapter classes.
Applets: Basics, Inheritance hierarchy for applets, applets vs. applications, life cycle of an
applet, passing parameters to applets, security issues.
11
Text Books:
1 “Java Fundamentals - A comprehensive Introduction”, Illustrated Edition by DaleSkrien, Herbert Schildt,
McGraw-Hill Education.
Reference Books:
1 “Java for Programmers”, 2nd
Edition by Paul Deitel and Harvey Deitel, Pearson Education.
2 “Thinking in Java”, Low Price Edition by Bruce Eckel, Pearson Education
Mobile Computing EEC61129 3-0-0 3 Credits
Module 1: Introduction
Introduction to mobile computing, basics of digital communication and computer
networks,Convergence of Internet. Overview of Global System for Mobile Communication
(GSM) system: GSM Architecture, Mobility management, Overview of General Packet Radio
Services (GPRS): GPRS Architecture, GPRS Network Nodes.Sharing of wireless channels:
FDMA, TDMA, and CDMA. MAC layer issues in wireless communication.
11
Module 2: Computational Model and algorithm
Influence of portability and mobility in computational model and algorithms for mobile
environment. Handling handoffs, disconnected operation. Analysis of algorithms and termination
detection.
8
Module 3: Mobility in cellular based wireless network
Different types of Mobility, channel allocation, interferences, handoffs, Frequency reuse and
location management. IP mobility: Mobile IP and IDMP, Wireless Local Loop (WLL):
Introduction to WLL Architecture, wireless Local Loop Technologies. Wireless LAN, Personal
Area Network: Bluetooth Wi-Max, Wi-Fi and ZigBee, Familiarization with UWB, LTE, EDGE
& MIMO Technologies
10
Module 4: Data delivery models in wireless channel
push based mechanism and pull based mechanism. Data distribution or dissemination in wireless
channels. Broadcast disks. Caching effects.
8
Module 5: Ad Hoc and Sensor Networks
Introduction, Protocols Challenges. Indexing in Air, Mobile Databases, Distributed file system for
mobile environment
8
Text Books:
1 Wireless Communications and Networking, Willam Stallings, Pearson Education. (2002)
2 Wireless Communication: Principles and Practice, T. Rappaport , Pearson Education.
Reference Books:
1 Reza B'Far (Ed), "Mobile Computing Principles", Cambridge University Press
2 R. Dayem, "Mobile Data & Wireless Lan Technologies," Prentice-Hall (2005)
3 Jochen Schiller, "Mobile Communications", 2nd Edition, Addison-Wesley (An imprint of Pearson
Education), 2003
Antenna Theory EEC61119 3-0-0 3 Credits
Module 1:
Introduction: The Wireless Communication Channel, Properties of Electromagnetic Waves,
Propagation Mechanisms, Fundamentals of Antenna, Near-Field and Far-Field Regions, Antenna
parameters, Practical Dipoles, antenna arrays, horn antennas, loop antennas, helical antennas, patch
antennas.
8
Module 2:
Basic Propagation Models: path loss, noise modeling, free space loss, link budgets. Terrestrial
Fixed Links, Satellite Fixed Links, Macrocells, Shadowing, Narrowband Fast Fading, Wideband
Fast Fading, Microcells, Picocells. Antennas for Mobile Systems: mobile terminal antennas, base
station antennas.Overcoming Narrowband Fading via Diversity: space diversity, polarization
diversity, time diversity.
10
Module 3:
Frequency diversity. Overcoming Wideband Fading: system modeling, linear equalizers, adaptive
equalizers, non-linear equalizers, rake receivers, OFDM receivers.
7
Module 4:
Adaptive Antennas: Applications, Optimum Combining, multiple-input multiple-output systems.
Channel Measurements for Mobile Systems: Indoor Measurement, Outdoor Measurements.
Full wave analysis of MicrostripAntenna(MSA),Active Integrated MSA, Compact MSA with
enhanced gain, Broadband Antenna(MSA), Dual frequency & Dual polarized MSA.
10
Module 5:
Standardization and characterization of antennas, Anechoic Chamber, Open-air test range.
Propagation over plane-Earth, Spherical Earth, Refraction, Anomalous Propagation, Diffraction,
Modified refractive index- Its effects on wave propagation, Duct and other nonstandard
propagation. Environmental noise, EMI - EMC, Radiation Hazards. Microwave &millimeter wave
propagation, Effects on atmospheric precipitations: Rain, Fog, Snow, Ice, and other atmospheric
gases. Low frequency propagation, Propagation through seawater, Sea clutter, Land clutter,
Surface clutter, Radar equation.
10
Text Books:
1 R.E Collin, Antennas & Radio wave propagation (McGraw-Hill Book Co.)
2 Jordan and Balmain, Electromagnetic Waves and Radiating Systems (PrenticeHall of India)
3 M.L Skolink, Introduction to radar systems (McGraw-Hill Book Co.)
4 P Bhartia and I.J. Bhal, Millimeter wave Engineering & Applications
5 C. A. Balanis, Antenna Theory: Analysis and Design, 3ed (WILEY Interscience), 2009
Reference Books:
1 Albart Smith, Radio Engineering Principle and Applications
2 R.Garg,P.Bhartia,InduBhal,A.Ittipibom ; Microstrip Antenna Design hand book –Artech House.
3 Kin. Lu. Wong ; Compact and Broadband Microstrip Antenna—John Willey & Sons.
4 M. Dolukhanov, Propagation of Radio Waves (Mir Publication).
Internet of Things (IoT) EEC61128 3-0-0 3 Credits
Module 1:Introduction to Internet On Things(IoT) :Technologies involved in IoT
Development. IoT Architecture: History of IoT, M2M – Machine to Machine, Web of Things,
IoT protocols.
Applications of IoT: Remote Monitoring & Sensing, Remote Controlling, Performance
Analysis. The Layering concepts, IoT Communication Pattern, IoT protocol Architecture, The
6LoWPAN architecture.
12
Module 2:Internet/Web and Networking Basics: OSI Model, Data transfer referred with OSI
Model, IP Addressing, Point to Point Data transfer, Point to Multi Point Data transfer & Network
Topologies, Sub-netting, Network Topologies referred with Web, Introduction to Web Servers,
Introduction to Cloud Computing.
Overview of IoT Platform: Overview of IoT supported Hardware platforms such as: Raspberry
pi, ARM Cortex Processors, Arduino and Intel Galileo boards.
Network Fundamentals: Overview and working principle of Wired Networking equipment’s;
Router, Switches, Overview and working principle of Wireless Networking equipment’s; Access
Points, Hubs etc. Linux Network configuration Concepts: Networking configurations in Linux
Accessing Hardware & Device Files interactions
12
Module 3:IoT Application Development: Application Protocols MQTT, REST/HTTP, CoAP,
MySQL
Back-end Application Designing: Apache for handling HTTP Requests, PHP & MySQL for
data processing, MongoDB Object type Database, HTML, CSS & jQuery for UI Designing,
JSON lib for data processing, Security & Privacy during development, Application Development
for mobile Platforms: Overview of Android / IOS App Development tools
13
Module 4:Case Study & advanced IoT Applications: IoT applications in home, infrastructures,
buildings, security, Industries, Home appliances, other IoT electronic equipments. Use of Big
Data and Visualization in IoT, Industry 4.0 concepts. Sensors and sensor Node and interfacing
using any Embedded target boards (Raspberry Pi / Intel Galileo/ARM Cortex/ Arduino)
8
Text Books:
1 Internet of Things: Converging Technologies for Smart Environments and Integrated Ecosystems,
Dr.OvidiuVermesan, Dr. Peter Friess, River Publishers
2 6LoWPAN: The Wireless Embedded Internet, Zach Shelby, Carsten Bormann, Wiley
Reference Books:
1 Asoke K Talukder and Roopa R Yavagal, “Mobile Computing,” Tata McGraw Hill, 2010
2 Internet of Things (A Hands-on-Approach) , Vijay Madisetti , ArshdeepBahga
3 Data and Computer Communications; By: Stallings, William; Pearson Education Pte. Ltd., Delhi, 6th
Edition
Image and Video Processing EEC61107 3-0-0 3 Credits
Module 1: Digital Image Fundamentals
Visual perception; sensing and acquisition of image; sampling and quantization; basic
relationships between pixels and neighbourhood, adjacency, connectivity, distance measures.
Image Enhancements and Filtering: Gray level transformations; histogram equalization and
specifications; pixel-domain smoothing filters: linear and order-statistics; pixel-domain
sharpening filters: first and second derivative; two-dimensional DFT and its inverse; frequency
domain filters: low-pass and high-pass.
Image Segmentation- Detection of discontinuities, edge linking and boundary detection,
thresholding global and adaptive, region-based segmentation.
12
Module 2: Color Image Processing
Color models: RGB, YUV, HSI; Color transformations, colr complements, color slicing, tone and
color corrections; Color image smoothing and sharpening; Color Segmentation.
6
Module 3: Wavelets and Multi-resolution image processing
Introduction; Time-frequency localization; continuous wavelet transforms; wavelet bases and
multi-resolution analysis; wavelets and Sub-band filter banks; wavelet packets.
4
Module 4:Image Compression
Redundancy: inter-pixel and psycho-visual; Lossless compression: predictive, entropy; Lossy
compression: predictive and transform coding; Discrete Cosine Transform; Still image
compression standards – JPEG and JPEG-2000.
7
Module 5:Fundamentals of Video Coding
Inter-frame redundancy; motion estimation techniques: full-search, fast search strategies,
forward and backward motion prediction; frame classification: I, P and B; Video sequence
hierarchy: Group of pictures, frames, slices, macro-blocks and blocks; Elements of a video
encoder and decoder; Video coding standards – MPEG and H.26X.
8
Module 6:Video Image Compression
Requirement of full motion video compression; CCITT H 261 video coding algorithm; MPEG
compression; MPEG-2 compression; Audio (Speech) compression.
Video Segmentation- Temporal segmentation: shot boundary detection, hard-cuts and soft-cuts;
Spatial segmentation: motion-based; Video object detection and tracking.
8
Text Books:
1 “Digital Image Processing”, by R.C.Gonzalez and R.E. Woods, Second Edition, Pearson Education
2 “Fundamentals of Digital Image Processing”, by Anil Kumar Jain. Prentice Hall of India.
Reference Books:
1 “Video Processing” by Murat Tekalp
Artificial Intelligence 3-0-0 3 Credits
Module 1: Introduction, Agents, Problem formulation, uninformed search strategies,
heuristics, informed search strategies, Control strategies, constraint satisfaction, introduction to
expert systems, acquiring, representing knowledge reasoning,
8
Module 2: Logical agents, propositional logic, inferences, first-order logic, inferences in first
order logic, forward chaining, backward chaining, unification, resolution 10
Module 3: Planning with state-space search, partial-order planning, planning graphs,
planning and acting in the real world 10
Module 4: Uncertainty, review of probability, probabilistic reasoning, Bayesian networks,
inferences in Bayesian networks, Temporal models, Hidden Markov models 10
Module 5: Learning from observation, Inductive learning, Decision trees, Explanation based
learning, Statistical Learning methods, Reinforcement Learning 7
Text Books:
1 Artificial Intelligence – A Modern Approach, Second Edition, S. Russel and P. Norvig Pearson
Education, 2003.
Reference Books:
1 Computational Intelligence: a logical approach”, David Poole, Alan Mackworth, Randy Goebel,
First edition; Oxford University Press, 2004.
2 Artificial Intelligence: Structures and Strategies for complex problem solving”, Fourth Edition, G.
Luger , Pearson Education, 2002.
Soft Computing EEC44104 3-0-0 3 Credits
Module 1: Artificial Neural Network: Neural Networks- biological neurons, Artificial neurons,
activation functions, architectures- feed forward networks, recurrent networks, learning/training
algorithms, supervised learning, unsupervised learning, perceptron, linear separability, back
propagation algorithms, associative models- auto & hetero associative networks, hopfield networks,
applications of ANN.
14
Module 2: Fuzzy Systems: Crisp sets, Fuzzy sets, Operation and properties. Fuzzy relations –
equivalence and tolerance relations. Fuzzy membership function- types and definitions. Membership
value assignments, Rule based systems. Type of fuzzy inference. Structure and parameters of a
Fuzzy system, De-fuzzification methods.
14
Module 3: Evolutionary Computation: Genetic Algorithm (GA):Genetic algorithm based
optimization, terminologies, principle of genetic algorithm, genetic operators- selection, crossover
and mutation, fitness scaling, issues in GA implementation, Particle swarm optimization (PSO).
10
Module 4: Neuro-Fuzzy Technology: Fuzzy neural networks, neuro fuzzy control, combination of
genetic algorithm with neural networks, combination of genetic algorithms and fuzzy logic in
engineering applications.
7
Text Books:
1 “Principles of soft computing”, Sivanandam.S.N, Deepa.S.N, 2nd Edition, Wiley India Pvt Limited, 2011.
2 “Neuro fuzzy and soft computing”, JuhShing Roger Jang,Cheun Tsai Sun,EijiMizutani, Prentice Hall,
1997.
3 “Neural Networks and Learning Machines”, S. Haykin, Prentice Hall, 2009.
Reference Books:
1 “Soft Computing and its Application”, Aliev.R.A, Aliev,R.R, World Scientific Publishing Co. Pvt. Ltd.,
2001.
2 “Artificial Intelligence”, Elaine Rich, 2nd Edition, McGraw Hill, 2005.
Information Theory & Coding EEC61121 3-0-0 3 Credits
Module 1: Uncertainty, Information and Entropy Information Measures: Characteristics on
information measure; Shannon’s concept of information; Shannon’s measure of information;
Model for source coding theorem; Communication system; Source coding and line/channel
coding; channel mutual information capacity (Bandwidth).
07
Module 2: Linear and Block Codes for Error Correction, Cyclic Codes
Matrix description of linear block codes, equivalent codes, parity check matrix, decoding of a
linear block code, perfect codes, Hamming codes. Polynomials, division algorithm for
polynomials, a method for generating cyclic codes, matrix description of cyclic codes, Golay
codes.
10
Module 3: BCH Codes and Convolutional Codes
Primitive elements, minimal polynomials, generator polynomials in terms of minimal
polynomials, examples of BCH codes.
Convolutional Codes. Tree codes, trellis codes, polynomial description of convolutional codes,
distance notions for convolutional codes, the generating function, matrix representation of
convolutional codes, decoding of convolutional codes, distance and performance bounds for
convolutional codes, examples of convolutional codes, Turbo codes, Turbo decoding.
12
Module 4: Compression: Lossless and lossy; Huffman codes; Binary Image compression
schemes; Run – length Encoding; CCITT group-3 1D compression; CCITT group-3 2D
compression; CCITT group-4 2D compression;
Video Image Compression: Requirement of full motion video compression; CCITT H 261 video
coding algorithm; MPEG compression methodology; MPEG-2 compression; Audio (Speech)
compression;
08
Module 5:Cryptography: Encryption; Decryption; Cryptogram (cipher text); Concept of cipher;
Cryptanalysis; Keys: Single key (Secret key); Cryptography; two-key (Public key) cryptography;
Single key cryptography; Ciphers; Block Cipher code; Stream ciphers; Requirements for secrecy;
The data Encryption Standard; Public Key Cryptography; Diffie-Hellmann public key
distribution; The Rivest- Shamin Adelman(R-S-A) system for public key cryptography; Digital
Signature.
08
Text Books:
1 Digital Communication by Das, Mullick&Chatterjee, New Age Pub.
2 An Introduction to Error control codes, Oxford-Gravano
3 Digital Communication by Proakis, TMH
Reference Books:
1 Digital Image Processing by Gonzales & Woods, Pearson
2 Local Area Network by G. Keiser, TMH
3 Information theory, coding and cryptography - Ranjan Bose; TMH
Low Power VLSI Design EEC61104 3-0-0 3 Credits
Module1: Introduction: Need for low power VLSI chips, Sources of power dissipation on Digital
Integrated circuits. Emerging Low power approaches. Physics of power dissipation in CMOS devices.
Device & Technology Impact on Low Power Dynamic dissipation in CMOS, Transistor sizing & gate
oxide thickness, Impact of technology Scaling, Technology & Device innovation.
10
Module 2: Simulation Power analysis: SPICE circuit simulators, gate level logic simulation,
capacitive power estimation, static state power, gate level capacitance estimation, architecture level
analysis, data correlation analysis in DSP systems. Monte Carlo simulation.
Probabilistic power analysis: Random logic signals, probability & frequency, probabilistic power
analysis techniques, signal entropy.
08
Module 3: Low Power Design Circuit level: Power consumption in circuits. Flip Flops & Latches
design, high capacitance nodes, low power digital cells library
Logic level: Gate reorganization, signal gating, logic encoding, state machine encoding, pre
computation logic.
08
Module 4: Low power Architecture & Systems: Power & performance management, switching
activity reduction, parallel architecture with voltage reduction, flow graph transformation, low power
arithmetic components, low power memory design.
10
Module 5:Low power Clock Distribution: Power dissipation in clock distribution, single driver Vs
distributed buffers, Zero skew Vs tolerable skew, chip and package co-design of clock network
Algorithm and architectural level methodologies: Introduction, design flow, algorithmic level
analysis and optimization, Architectural level estimation and synthesis.
09
Text Books:
1 Semiconductor Devices: Modelling And Technology, NanditaDasgupta, AmitavaDasgupta, PHI
2 Fundamentals Of Semiconductor Fabrication, Gary S. May, S.M.Sze, John Wiley & Sons
Reference Books:
1 Introduction To System Design Using Integrated Circuits, Sonde, B.S., New Age International
2 Semiconductor Devices: Physics And Technology, Simon M. Sze, John Wiley & Sons
Semiconductor Device Modeling EEC61110 3-0-0 3 Credits
Module 1: Introduction to Numerical Modeling
Fundamental semiconductor equations, Finite difference scheme, Error analysis, Solution of a
system of Linear Equations, Direct Method: LU-decomposition, Tri-diagonal system, Relaxation
Method, Numerical solution of Non-Linear Equations: Newton-Raphson method, Finite
difference discretization example: Current continuity and energy relations, Introduction to circuit
simulations.
12
Module 2:Modeling of LASER diode
Rate equations, Numerical schemes: Small signal modeling, and Large signal modeling, Equivalent
circuits.
07
Module 3: MESFET Modeling
Bridging between time and frequency domains: Harmonic Balance Method, MESFET small signal
and large signal equivalent circuit, numerical device simulation and parameter extraction.
10
Module 4: Quantum Physics Aspects of Device Modeling
Effective mass Schrödinger equation, Matrix representation, Dirac notation, WKB Approximation,
Time dependent and independent perturbation theories, Fermi’s golden rule, semi-classical
transport in semiconductors: Boltzmann transport equation, numerical scheme, Introduction to Monte
Carlo simulations.
09
Module 5:Introduction to Quantum Effect Device Modeling
Double barrier resonant tunneling diode, Device modeling through transfer matrix approach,
Numerical estimation of diode current density, coupled Poisson-Schrödinger scheme for electron
transmission simulations.
07
Text Books:
1 Selberherr, S., Analysis and Simulation of Semiconductor Devices, Springer-Verlag, 1984
2 Arora, N., MOSFET Models for VLSI Circuit Simulation, Springer-Verlag, 1993
3 C.M. Snowden, and, E. Snowden, Introduction to Semiconductor Device Modeling, World-Scientific,
1998
4 W.J. McCalla, Fundamentals of Computer-Aided Circuit Simulation, Kluwer Academic, 1987
Reference Books:
1 Leonard I. Schiff, Quantum Mechanics, Third Edn.,Tata Mc-Graw-Hill, 2010
2 Research Papers on Selected Topics
Telecommunication Networks
Optimization EEC44107 3-0-0 3 Credits
Module 1: Introduction to Network Optimization: Multicast Routing, multicast group,
Optimization Goals, Network, Telecommunication Optimization Requirements & Applications of
Multicast Routing
08
Module 2:Graph Theory Terminology: Graphs - Data structures for graphs – Sub-graphs - perations
on Graphs: Connectivity – Networks and the maximum flow - Minimum cut theorem - Trees -
Spanning trees - Rooted trees – Matrix representation of graphs, classes of graphs: Eulerian graphs
and Hamiltonian graphs - Standard theorems - Planar graphs - Euler's formula - Five colour theorem -
Coloring of graphs – Chromatic number (vertex and edge) properties and examples - Directed graphs,
graph algorithm: Computer Representation of graphs - Basic graph algorithms – Minimal spanning
tree algorithm - Kruskal and Prim's algorithm - Shortest path algorithms - Dijsktra's algorithm - DFS
and BFS algorithm, Basic Multicast Routing Algorithms- Flooding algorithm, reverse path-forwarding
algorithm.
20
Module 3: Models and algorithm for transportation and assignment problems with Delay
Constraints: Shortest path problems & performance of algorithms, Maximum flow, Minimum cost
flow, Multicommodity flows, Delay Constrained Minimum Spanning Tree Problem-minimum
spanning tree
08
Module 4: Applications: QOS routing, Location problems, Resiliency problems, Robustness in
communication networks, Equilibrium in traffic networks, Advanced Analysis Methods and Radio
Access Network Autotuning, Advanced Analysis Methods for Cellular Networks - Automatic
Optimization.
09
Text Books:
1 NarsinghDeo, “Graph Theory with Applications to Engineering and Computer Science”, PHI.
2 Rao S.S., “Engineering Optimization: Theory and Practice”, New Age International Pvt. Ltd., 3rd
Edition1998.
3 JaanaLaiho, AchimWacker& Tomas Novosad, “Radio Network Planning and Optimisation”, John
Wiley, 2006.
4 IanaSiomina, “Radio Network Planning and Resource Optimization”, LiU-Tryck, Link¨oping, Sweden,
2007.
Reference Books:
1 S. Boyd and L. Vandenberghe “Convex Optimization”, Cambridge University Press
2 Bertsekas, Athena “Network Optimization”, Continuous and discrete models; Scientific
3 A. Kershenbaum “Telecommunication Network Design Algorithms”, Mcgraw-Hill
Data Communication &
Networking EEC44105 3-0-0 3 Credits
Module 1: Data Transmission Basic Concepts and Terminology:
Data Communication Model, Communication Tasks, Parallel & Serial Transmission, Transmission
Models, Transmission Channel, Data Rate, Bandwidth Signal Encoding Schemes, Data Compression.
03
Module 2:Computer network
Network Topology, Network Classification, advantages & disadvantages of Network, Transmission
Media (guided and unguided), Network Architecture, OSI Reference Model, and TCP/IP.
06
Module 3: Physical Layer:
Guided Transmission, Media, Wireless Transmission Medium, Circuit Switching and Telephone
Network, High Speed Digital Access.
04
Module 4: Data Link Layer:
Stop and Wait Protocols: Noise free and Noisy channels, performance and efficiency, Sliding Window
Protocols: Go Back and Selective Repeat ARQS, performance and efficiency, verification of protocol.
HDLC data link protocol.
06
Module 5: Network and Transport Layer:
Network Layer: Network Layer Design Issues, Routing Algorithms (Optimality principle, Static
Routing Algorithms, Shortest Path, Flooding, Dynamic routing Algorithms, Distance Vector, Link
State routing.), Congestion control Algorithms (Principles, Policies, Algorithms), Network Layer
Protocols (IP Addressing, IP layer protocols: ICMP, ARP, RARP, DHCP, BOOTP, IPv6)
Transport Layer:Transport Layer Service, Elements of Transport protocols, Internet protocols (UDP
and TCP)
08
Module 6: Application Layer:
DNS, Electronic Mail, The World Wide Web (Architectural Overview only), Multimedia. 03
Module 7: Local Area Network & Medium Access Layer:
LAN topologies, Layered architecture of LAN, MAC, IEEE standard. Ethernet LAN, Multiple Access:
CSMA, CSMA/ CD CSMA/CA.
04
Module 8: Network Security: Introduction to Cryptography, Data Encryption standard, RSA Algorithm, Digital signature, Public
keys, IPSec, Firewalls.
06
Module 9: Advance Networks: Introduction to Mobile Communication and Networks - their types and basic principles; ISDN and B-
ISDN; ATM- Header structure, Protocol stack, Signaling and Service category, Virtual Private
Networks (VPN), MPLS support for VPN
05
Text Books: 1. B A. Forouzan, “Data Communication and Networking”, 4/e, McGraw Hill, 2006.
2. W Stallings, “Data and Computer Communication” –7/e Pearson
3. A Tanenbarum, “Computer Networks” –4th Edition, PHI, 2004/Pearson Education 4th Edition
Reference Books: 1.JeanWairand - Communication Networks (A first Course) - Second Edition - WCB/McGraw Hill -
1998. 2. Leon-Garcia and Widjaja, “Communication Networks”, 2/e McGraw Hill, 2004
Introduction To Electronics EEC42107 3-0-0 3 Credits
Module 1: Review of semiconductor, P-N junction Diode and Transistors 05
Module 2: Diode Circuits
Introduction, Simple Diode Circuits, Concept of Load Line, Linear Piecewise Model; Rectifier
Circuits (Half-Wave, Full-Wave and Bridge), Peak Detector; Filter Circuits for Power Supply:
Inductor Filter, Capacitor Filter, LC Filter, Multiple LC Filter, CLC Filter or Π Filter; Load
Regulation, Diode Clipper and Clamper Circuits.
05
Module 3: Transistor Biasing and Stabilization
Biasing Schemes for BJT and FET Amplifiers, Bias Stability, Various Configurations (Such As
CE/CS, CB/CG, CC/CD) and Their Features; Thermal Runaway, Thermal Stability;
Compensation Techniques: Diode Compensation, Transistor Compensation and Thermistor
&Sensistor Compensation.
09
Module 4: Integrated Circuits (IC)
Introduction to IC, Concept of Operational Amplifier (OP-AMP), Ideal OP-AMP, Virtual
Ground, Inverting & Non-Inverting Operational Amplifier; Differential Amplifier: Basic
Structure and Principle of Operation, Calculation of Differential & Common Mode Gain, CMRR
& ICMR; Summing Amplifier, Integrator & Differentiator, Current-to-Voltage Converter &
Voltage-to-Current Converter; Instrumentation Amplifier, Logarithmic & Anti-Logarithmic
Amplifier; Precision Rectifier.
08
Module 5: Frequency Response and Transistors Amplifier
Low Frequency Transistor Amplifier: h-parameter Models for CB, CE, CC configurations and
their interrelationship; Linear analysis of Transistor Circuits; Miller's Theorem; Single stage
amplifier: Simplified models and calculation of gain for CE and CC Amplifiers; Effect of emitter
resistance in CE amplifiers; Darlington Pair; Single stage FET amplifier: CS and CD
Configuration.
High Frequency Transistor Amplifiers: CE hybrid-π model; Validity and parameter Variation;
Current Gain with resistive load; frequency response of a single stage CE Amplifier; Gain
Bandwidth product; CC stage High frequencies.
06
Module 6: Multi-stage and Power Amplifiers Multi-stage Amplifiers: Distortion in Amplifiers; Frequency Response of an Amplifier: Bode
plots, Step Response; Cascaded Stages: Response of a Two-stage RC Coupled Amplifier at Low
and high frequencies; Direct Coupled Amplifiers; Differential Amplifiers.
Power Amplifiers: Large Signal Amplifiers; Harmonic Distortions; Class A; Class B; Class AB;
Push Pull Amplifiers; Class C and Class D Amplifiers.
07
Module7:Feedback Amplifier and Oscillators
Feedback Amplifiers: Classification; Feedback concept; Ideal Feedback amplifier: Properties of
Negative Feedback Amplifier Topologies: Method of Analysis of Feedback amplifiers: Voltage
series Feedback: Voltage series Feedback pair: Current series, Current shunt and Voltage shunt
feedback; Effect of feedback on amplifier Bandwidth and stability.
Oscillators: The oscillator feedback loop; Oscillation criterion; Sinusoidal oscillator: phase
shift oscillators, Wien Bridge oscillator; Resonant circuit oscillators: General form of oscillator
configuration; LC Colpitts& LC Hartley oscillators; Crystal oscillator; Amplitude Frequency and
phase stability analysis of all Oscillators.
05
Text Books:
1 Microelectronic Circuits (Fifth Edition), Adel S. Sedra and Kenneth C. Smith, Oxford University Press,
YMCA Library Building Jai Singh Road, New Delhi – 110 001
2 Integrated Electronics (Second Edition), Jacob Millman, Christos Halkias, and Chetan Parikh, McGraw
Hill Education
3 Electronics –Fundamental and Application-D. Chattopadhyay and P.C Rakshit-11th edition(New age
International)
Reference Books:
1 Electronic Devices (Seventh Edition), Thomas L. Floyd, Pearson Education, 482 FIE, Patparganj, Delhi –
110 092 (Selected Portions).
2 Electronics Principles (7th Edition), Albert Malvono and David J. Bates, Tata McGraw-Hill Publishing
Company Limited, New Delhi.
Satellite Communication systems EEC61118 3-0-0 3 Credits
Module 1:
Origin of Satellite Communications, Historical Back-ground, Basic Concept, Frequency
allocations, Applications, Future Trends. Orbital mechanics and launchers: Orbital Mechanics,
Look Angle, Orbital perturbations, Orbit determination, launches, launch vehicles, Orbital effects
in communication systems performance.
08
Module 2:
Attitude and orbit control system, telemetry, tracking, Command and monitoring, power systems,
communication subsystems, Satellite antenna Equipment reliability and Space qualification.
Satellite link design: Basic transmission theory, system noise temperature and G/T ratio, Design of
down links, up link design, Design of satellite links for specified C/N, System design example
09
Module 3:
Frequency division multiple access (FDMA) Inter-modulation, Calculation of C/N. Time division
Multiple Access (TDMA) Frame structure, Examples. Satellite Switched TDMA Onboard
processing, DAMA, Satellite Spread Spectrum Communication: DS Spread Spectrum System, DS
Code Division Multiple Access. Frequency hop spread spectrum system, frequency hop CDMA
DS and FH acquisition and synchronization. Earth station technology: Introduction, Transmitters,
Receivers, Antennas, Tracking systems, Terrestrial interface.
09
Module 4:
Orbit consideration, coverage and frequency considerations, Delay & Throughput considerations,
System considerations, Operational NGSO constellation Designs. Satellite navigation & the global
positioning system: Radio and Satellite Navigation, GPS Position Location principles, GPS
Receivers and codes, Satellite signal acquisition, GPS Navigation Message, GPS signal levels,
GPS receiver operation, GPS C/A code accuracy, Differential GPS. Satellite on board processing.
10
Module 5:
Very Small Aperture Terminal Network (VSAT) – VSAT technologies, network configurations,
multi access and networking. Network error control polling VSAT network. Mobile Satellite
Network(MSAT)- Operating environment, MSAT network concept, CDMA MSAT relink,
Worldwide timing by satellite relay.
09
Text Books:
1 Satellite Communications – Timothy Pratt, Charles Bostian and Jeremy Allnutt, WSE, Wiley
Publications,2nd Edition, 2003.
2 Satellite Communications Engineering – Wilbur L. Pritchard, Robert A Nelson and Henri
G.Suyderhoud,2nd Edition, Pearson Publications, 2003.
Reference Books:
1 Satellite Communications: Design Principles – M. Richharia, BS Publications, 2nd Edition, 2003.
2 Global Navigation satellite systems-G S Rao, Tata McGraw Hill Education Private Ltd., New Delhi 2010.
Statistical Signal Processing EEC61131 3-0-0 3 Credits
Module 1:
Review of Probability and Stochastic Process Estimation Theory: Minimum-variance unbiased
estimator (MVUE), Cramer-Rao Lower bound, Best Linear Unbiased Estimator, Maximum
likelihood Estimator, General Bayesian Estimator
08
Module 2:
Detection Theory: Neyman Pearson Theorem, Receiver Operating Characteristics, Matched
Filters, Composite Hypothesis Testing
07
Module 3:
Nonparametric Spectral Estimation: Estimation of power spectrum of stationary random signal
using periodogram-various methods, Joint signal analysis and estimation of cross power spectrum
Linear Signal Model: Synthesis of coloring filter and Analysis of whitening filter, Rational power
spectra (AR, MA, ARMA), Relationship between filter parameters and autocorrelation
sequences, Lattice-Ladder filter realization
10
Module 4:
Parametric Spectral Estimation: Order selection criterion of AR model , Minimum-variance,
Maximum entropy and Maximum likelihood spectrum estimation Harmonic models and
frequency estimation techniques Harmonic Decomposition, MUSIC algorithm, ESPRIT
algorithm
10
Module 5:
Linear Optimum Filter: Optimum FIR Filter, PCA of optimum linear estimator and its frequency
domain interpretation, Forward and Backward Linear prediction and optimum reflection
coefficients Optimum causal and non-causal IIR Filters, Deconvolution and Signal restoration
Algorithms and Structure of Optimum Linear Filters Levinson Recursion for optimum estimate,
Order-recursive algorithms for optimum FIR filters and its lattice structures.
10
Text Books:
1 “Fundamentals of Statistical Signal Processing”, by Steven Kay, Vol I: Estimation Theory, Vol II:
Detection Theory, Prentice Hall, 1993/1998.
2 “Statistical Digital Signal Processing and Modelling”, by Monson H. Hayes, John Wiley, 1996.
Reference Books:
1 “Detection, Estimation, and Modulation Theory”, by Harry L. Van Trees, Part I, Wiley-Inter science,
2001