SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
Vision
Mould quality technocrats in the field of Electronics and Communication with human values to cater the societal needs
Mission
To impart high-quality academic environment.
To provide training in new tools and technologies.
To facilitate continuous learning and research environment.
To inculcate professionalism with ethical values, with little impact on environment.
Program Educational Objectives
PEO-1: Proficient to apply the knowledge gained in mathematics, science and engineering to the
field of electronics and communication engineering for the synthesis and analysis of systems
PEO-2: Competent to pursue higher studies and research, with effective communication
PEO-3: Aware of new technologies in the domain field, apply the same for the societal
requirement minimizing the impact on environment and ethical practices in their domain
Program Outcomes
Engineering Graduates will be able to:
Engineering knowledge: Apply the knowledge of mathematics, science, engineering
fundamentals, and an engineering specialization to the solution of complex engineering problems.
Problem analysis: Identify, formulate, review research literature, and analyze complex
engineering problems reaching substantiated conclusions using first principles of mathematics,
natural sciences, and engineering sciences.
Design/development of solutions: Design solutions for complex engineering problems and
design system components or processes that meet the specified needs with appropriate
consideration for the public health and safety, and the cultural, societal, and environmental
considerations.
Conduct investigations of complex problems: Use research-based knowledge and research
methods including design of experiments, analysis and interpretation of data, and synthesis of
the information to provide valid conclusions.
Modern tool usage: Create, select, and apply appropriate techniques, resources, and modern
engineering and IT tools including prediction and modeling to complex engineering activities with
an understanding of the limitations.
The engineer and society: Apply reasoning informed by the contextual knowledge to assess
societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to
the professional engineering practice.
Environment and sustainability: Understand the impact of the professional engineering
solutions in societal and environmental contexts, and demonstrate the knowledge of, and need
for sustainable development.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Ethics: Apply ethical principles and commit to professional ethics and responsibilities and norms
of the engineering practice.
Individual and team work: Function effectively as an individual, and as a member or leader in
diverse teams, and in multidisciplinary settings.
Communication: Communicate effectively on complex engineering activities with the engineering
community and with society at large, such as, being able to comprehend and write effective
reports and design documentation, make effective presentations, and give and receive clear
instructions.
Project management and finance: Demonstrate knowledge and understanding of the
engineering and management principles and apply these to one's own work, as a member and
leader in a team, to manage projects and in multidisciplinary environments.
Life-long learning: Recognize the need for, and have the preparation and ability to engage in
independent and life-long learning in the broadest context of technological change.
Program Specific Outcomes (PSOs)
The ability to identify, analyse and design systems related to modern engineering hardware and
software tools, in Electronics and Communication Engineering in the areas of electronics,
communication, image processing, VLSI, signal processing and embedded systems for solving day
to day problems.
Impat the awareness about the impact of professional engineering solutions in societal and
environmental context, professional ethics and be able to communicate effectively.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY, TUMAKURU (A Constituent College of Sri Siddhartha Academy of Higher Education, Tumakuru)
SCHEME OF TEACHING AND EXAMINATION – 2018 Choice Based Credit System (CBCS) (Effective from the academic year 2018-19)
DEPARTMENT OF ELECTRONICS AND COMMUNICATION – V Semester
Professional Elective I: Open Elective I:
18EC5PE51: Random Process and Probability 18EC5OE61: Digital System Design Using Verilog
18EC5PE52: Robotics and Automation 18EC5OE62: Digital Communication Systems
18EC5PE53: Digital Switching Systems 18EC5OE63: Biomedical Instrumentation
Note: For OpenElectives the student should be minimumof 25, andmaximum of 55 to 60.
Academic Year 2020-21
V Semester B.E.
(Subjects and Syllabus as per AICTE-Model Curriculum for UG Course in Engg. & Tech.- Jan. 2018)
Teaching Hours/week Examination
SI No.
Course and Course
Code Course Title
Teaching
dept.
Board of
Exam. L T P C
Duration in
Hrs. CIE SEE Total Marks
01 PC 18EC501 Digital Signal Processing EC EC 3 1 - 4 3 50 50 100
02 PC 18ECI502 Information Theory and Coding EC EC 3 - 2 4 3 50 50 100
03 PC 18EC503
Fundamentals of CMOS VLSI
Design EC EC 3 1 - 4 3 50 50 100
04 PC 18EC504 Microwave Communication EC EC 3 - - 3 3 50 50 100
05 PE 18EC5PE5x Professional Elective-I EC EC 3 - - 3 3 50 50 100
OE 18EC5OE6x Open Elective-I EC EC 3 - - 3 3 50 50 100
07 PC 18EC507 Digital Signal Processing Lab EC EC - - 2 1 3 50 50 100
08 PC 18EC508 VLSI Lab EC EC - - 2 1 3 50 50 100
09 HS 18SK501 Skill Development-III HS HS - - 2 1 3 50 50 100
Total 18 2 08 24 27 450 450 900
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
Syllabus for the Academic Year – 2020 - 2021
Department:ECE Semester:V
Subject Name: DIGITAL SIGNAL PROCESSING L-T-P-C: 3-1-0-4
Subject Code: 18EC501 (52 Hours)
Course Objectives:
Sl.No Descriptions
1 Understand the basics of digital signal processing.
2 Develop algorithms using DFT and FFT.
3 Understand the concepts of analog and digital filter design.
4 Realize FIR and IIR filters and its applications.
UNIT Description Hours
I
UNIT – I: Discrete Fourier Transforms (DFT):
Introduction, signals & systems, Typical ADC/DAC system, Application of DSP,
Frequency domain sampling and reconstruction of discrete time signals, DFT as a linear
transformation, Relationship of the DFT to other transforms, Properties of DFT.
Text 1 ( 1.1,1.4,7.1,7.2,7.3.1)
12
II
UNIT-II: Fast-Fourier-Transform (FFT) algorithms:
Direct computation of DFT, need for efficient computation of the DFT ( FFT
algorithms), Radix-2 FFT algorithm for the computation of DFT and IDFT decimation-
in-time and decimation-in-frequency algorithms, Use of DFT in linear filtering, Overlap-
save and overlap-add method, Chirp z- Transform , Goertzel algorithm.
Text 1 (7.3.2,8.1—8.1.1,8.1.2, 8.1.3 , 8.3)
10
III
UNIT-III: Analog Filter Design:
Characteristics of commonly used analog filters, Butterworth and Chebyshev filters,
Analog to analog frequency transformations.
Text 1 (10.3.4, 10.4.1.)
10
IV
UNIT-IV: Digital IIR filter design and realization:
Digital IIR filters design from analog filters (Butterworth and Chebyshev), Impulse
invariance method, Bilinear Transformation, The Matched z transformation, Structures
for IIR filter-direct form I and direct form II realization, cascade and parallel
realization.
Text 1 (10.3.2, 10.3.3, 10.3.5,9.3.1, 9.3.3, 9.3.4.)
10
V
UNIT-V: Digital FIR filter design and realization
Introduction to FIR filters, design of FIR filters using Rectangular, Hamming, Bartlett
and Kaiser windows, FIR filter design using frequency sampling techniques, Basic FIR
filter structures, Linear phase FIR structure, Design of Hilbert transformers, design of
10
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
differentiators.Applications of DSP: Dual tone multifrequency signal detection,
harmonic analysis of sinusoidal signals, Digital FM stereo generation, sub-band coding
of speech and audio signals,transmultiplexers
Text 1 (10.2.1, 10.2.2, 10.2.3, 10.2.5, 10.2.6, 9.2.1, 9.2.2)
Text 2 (11.1, 11.2,11.6,11.8,11.9 )
Text Books
Sl
No Author Text Book title Publisher/Edition
Volume /
ISBN
Year of
Edition
1
Proakis &
Monalakis
Digital signal processing –
Principles Algorithms &
Applications
Pearson education
4th Edition
ISBN: 978-
81-317-
1000-5 2007
2 S. K. Mitra Digital Signal Processing
Tata Mc-Graw Hill
2nd Edition
ISBN: 0-07-
044705-5 2007
Reference Books
Sl
No Author Text Book title Publisher/Edition Volume / ISBN
Year of
Edition
1
Vinay K. Ingle
and John G.
Proakis
Digital Signal
Processing Using
MATLAB: A Problem
Solving Companion
Cengage Learning
4th Edition ISBN: 978-
1305635128 2016
2
Oppenheim &
Schaffer
Discrete Time Signal
Processing
Pearson Education
3rd Edition
ISBN:
9780131988422 2010
3
Emmanuel
Ifeachor, Barrie
W. Jervis
Digital Signal
Processing: A Practical
Approach
Pearson Education
2nd Edition ISBN: 978-020-
1596199 2002
4
Lonnie C.
Ludeman
Fundamentals of digital
signal processing
John Wiley & sons
1st Edition
ISBN : 81-265-
2222-4 2009
Course Outcomes :
Course Outcome Descriptions
CO1 Explain the transform domain and its significance.(L2).
CO2 Realize the computational complexity of DFT using FFT algorithms.(L3).
CO3
Design analog and digital filters and examine the applications of
filters.(L4).
CO4
Analyze the transformation techniques for analog to digital filters and their realizations.(L4).
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
Subject Name: INFORMATION THEORY AND CODING L-T-P-C: 3-0-2-4
Subject Code: 18ECI502 (39Hours)
Course Objectives:
Sl.No Course Objectives
1
Understand the concept of Source Entropy and Information Rate with reference
to dependent and independent sources.
2 Study various Source encoding Algorithms.
3 Model discrete and continuous communication channels.
4 Study various Error control coding Algorithms
UNI
T
Description Hours
I
UNIT – I: Information Theory : Introduction, Measure of Information,
Average Information Content of Symbols in Long Independent Sequences,
Average Information Content of Symbols in Long Dependent Sequences,
Some properties of Entropy, Extension of a DMS, Mark-off Statistical Model
for Information Sources, Entropy and Information Rate of Mark off Sources.
Text 1 (4.1, 4.2 ) Text 2 (2.1)
7
II
UNIT-II: Source Coding : Properties of Codes, Prefix Codes, Kraft
McMillan Inequality property , Code Efficiency and Redundancy, Source
Coding theorem, Shannon’s Encoding Algorithm. Shannon Fano Encoding
Algorithm, Huffman codes.
Text 1 (4.3, 4.3.1) Text 2 (2.2,2.3)
8
III
UNIT-III: Communication Channels: Discrete Communication Channels,
Channel Models, Channel Matrix, Joint probability Matrix, System Entropies,
Mutual Information and properties of Mutual information, Rate of Information
transmission over discrete channel, Channel capacity, Channel Capacity of :
Symmetric, Binary Symmetric Channel, Binary Erasure Channel, Muroga's
Theorem, Continuous Channels, Shannon's Hartley law and its Implications.
Text 2 ( 2.4 to 2.9) , Text 1( 4.5 , 4.6 )
8
IV
UNIT-IV: Introduction, Error control coding, methods of Controlling Errors,
Types of Errors, types of Codes, Linear Block Codes: matrix description of
Linear Block Codes, Error Detection and Error Correction Capabilities of
Linear Block Codes, Single Error Correcting hamming Codes, Table lookup
Decoding using Standard Array.
Binary Cyclic Codes: Algebraic Structure of Cyclic Codes, Encoding using
an(n-k) Bit Shift register, Syndrome Calculation, Error Detection and
8
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
Correction.
Text 1 (9.1 to 9.3 )
V
UNIT-V: Some Important Cyclic Codes: Golay Codes, BCH Codes, RS
Codes, Burst Error Correcting Codes.Convolution Codes: Convolution
Encoder, Time domain approach, Transform domain approach, Code Tree,
Trellis and State Diagram, The Viterbi Algorithm, Turbo Codes.
Text 1 ( 9.3 ), Text 2 (8.5,8.6)
8
Text Books:
Sl
No
Title
Author(s)
Publisher
/Edition Volume / ISBN
Year of
Edition
1
Digital and
Analog
Communication
systems
K.Sam
Shanmugam
John Wiley India
Pvt. Ltd
ISBN-
9788126536801 Reprint 2012
2
Digital
communication Simon Haykin,
John Wiley India
Pvt. Ltd
ISBN-
9788126542314 2013
Reference Books:
Sl
No
Title
Author(s)
Publisher
/Edition Volume / ISBN
Year of
Edition
1
Error Control
Coding
Shu Lin and
Daniel J Costello
Pearson
Education
Limited
ISBN-
9780130426727
2nd Edition,
2011
2
ITC and
Cryptography Ranjan Bose TMH
ISBN-
9780071231336
II edition,
2007
3
Elements of
Information
Theory
Thomas Cover,
Joy Thomas John Wiley
ISBN-
9780471241959
New York,
1991
Course Outcomes:
Course
outcome
Descriptions
CO1 Acquire the basic knowledge for measuring of Information and entropy of
independent & dependent sources. (L2)
CO2 Apply various source coding techniques to reduce redundancy. (L3)
CO3 Evaluate capacity of Symmetric, Erasure, and Cascaded Channels.(L3)
CO4 Design of Encoder and Decoder circuits of Linear block codes, Binary Cyclic codes and Convolution codes.(L3)
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
Subject Name: Fundamentals of CMOS VLSI Design L-T-P-C: 3-1-0-4
Subject Code: 18EC503 (52 Hours)
Course Objectives:
Sl. No Course Objectives
1 Learn the Principles, Operations and Applications of MOSFETs.
2
Realize the stick diagrams and layouts using Lambda based design rules for a given
schematic and to categorize the different MOS technologies.
3 Understand the modelling of digital circuits using different CMOS design styles.
4
Acquire the knowledge about scaling parameters, subsystem design and memory
design.
UNIT Description Hours
I
Overview of VLSI: Introduction, VLSI Design Flow, Ideal Switches and
Boolean operations, MOSFET as switches, FET Threshold voltage concepts,
Pass Transistors and characteristics, CMOS Logic - Basic gates and
Compound gates, MOS layers, Layout and Stick diagrams of simple logic
gates, Transmission Gate Circuits.
(Text Book 1: 1.1, 2.1, 2.2, 2.3, 2.4, 2.5. Text Book 2: 3.1,3.2,3.7)
12
II
MOS Transistor theory: Introduction, I-V Characteristics, DC analysis of
CMOS Inverter.
Fabrication: n MOS fabrication, CMOS fabrication. Lambda-based design
rules.
(Text Book 1: 7.1, Text Book 2: 1.7, 1.8, 2.1.1,2.1.2, 3.3.1)
10
III
Basic Circuit Concepts: Sheet resistance, Area capacitances, Capacitance
calculations. Delay unit, Inverter delays, Switching Characteristics, Rise
Time and Fall Time Calculations, Propagation delay.
(Text Book 2: 4.1,4.3,4.4,4.5,4.6, Text Book 1: 7.2.1,7.2.2, 7.2.3)
10
IV
CMOS Subsystem Design and Process: Architectural issues, Switch logic,
Gate logic-NMOS and BiCMOS of Inverter, NAND and NOR, ALU
subsystem Design-Datapath of a processor, Standard Adder Element Design,
Implementation of 4-bit Adder and ALU.
( Text Book 2 : 6.1, 6.2, 6.3.1,6.3.2,6.3.3 , 8.2, 8.3)
10
V
Memory elements: Static RAM-General SRAM cell, 6T and 4T SRAM
Models, Multiport SRAM, SRAM Arrays, DRAM- 1T DRAM cell, Write
and Read Operations.
Scaling of MOS Circuits: Constant Voltage, Constant field, Combined
10
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
Voltage and Dimension Scaling Models, Scaling factors for Device
Parameters
(Text Book 1: 13.1,13.2,13.3, Text Book 2 : 5.1, 5.2)
Text Books:
Sl
No
Author Text Book title Publisher/
Edition
Volume / ISBN Year of
Edition
1 John P
Uyemura
Introduction to VLSI
circuits and systems
John Wiley
& sons
1-265-0915-5 2006.
2 Douglas A.
Pucknell &
Kamran
Eshraghian
Basic VLSI Design PHI
3rd Edition
978-81-203-0986-9 2005.
Reference Books:
Sl
No
Author Text Book title Publisher/
Edition
Volume / ISBN Year of
Edition
1 Neil H. E.
Weste, David
Harris and
Ayan Banerjee
CMOS VLSI
Design: A Systems
Perspective
Pearson
Education
Pvt. Ltd.,
3rd Edition
81-7758-568-1 2006.
2 M. K.
Achuthan and
K.N. Bhat
Fundamentals of
Semiconductor
Devices
Tata
McGraw-Hill
978-00706122-04 2006.
3 Sung-Mo Kang
& Yusuf
Leblebici
CMOS Digital
Integrated Circuits:
Analysis and
Design
Tata
McGraw-Hill
3rd Edition
978-0-07-053077-5 2003.
4 Wayne Wolf Modern VLSI
Design- IP Based
Design
PHI
Publishers
4th Edition
978-81-203-3824-1 2009.
Course Outcomes:
Course
Outcome
Descriptions
CO1 Analyze transistor level schematics, scaling parameters and Outline the various
fabrication processes. (L2 )
CO2 Estimate the design parameters for speed, area and power optimization. (L3)
CO3 Apply the different design techniques used in modeling the digital circuits.(L3)
CO4 Design the sub systems using different CMOS design styles.(L4)
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
Subject Name: Microwave Communication L-T-P-C: 3-0-0-3
Subject Code: 18EC504 (39 Hours)
Course Objectives:
Sl. No Descriptions
1 Understand the working principle of microwave devices for generation of microwave
frequency of oscillation.
2 Study the characteristics of microwave devices.
3 Learn the basic concepts of antenna parameters.
4 Study the applications of microwaves.
UNIT Description Hours
I
Microwaves: Introduction, Transmission lines (end equations only), Smith
Chart: solve transmission line problems analytically and verify using smith
chart. Microwave Vacuum Tubes: Introduction, Reflex Klystron Oscillator,
Mechanisms of Oscillations, Modes of oscillations, Travelling wave Tube
Amplifier, Magnetron Oscillator (Qualitative discussion, construction,
operation). Microwave solid state devices: PIN diode and its application (SPST,
SPDT), Gunn diode (construction and operation).
(Text 1: 1.1, 9.1, 9.2, 9.3, 9.4, 10.1, 10.2.1,10.2.2, 10.2.6, 10.3, 10.3.1, Ref 1:
3.1, 3.5)
08
II
Microwave Network Theory and Passive Devices: Introduction, Scattering or
S-Matrix Representation of Multiport Network, Properties of S-parameters.
Microwave Passive Components: Coaxial Cables, Waveguide sections,
Coaxial Line to Waveguide Adapters, Waveguide Tees, Magic Tee,
Ferromagnetic Insert and Component: Circulators, Isolators and Directional
Couplers.
(Text 1: 6.1, 6.3, 6.3.1, 6.4.1, 6.4.3, 6.4.8, 6.4.11, 6.4.16, 6.4.17, 6.4.18.)
08
III
Planar Transmission Lines: Strip Lines, Micro strip Lines, Slot Lines,
Advantages and Disadvantages of Planar Transmission lines. Antenna basics:
Introduction, Basic Antenna Parameters, Patterns, Beam Area, Radiation
Intensity, Beam Efficiency, Directivity and Gain, Antenna Apertures, Effective
Height, Radio Communication Link, Antenna Field Zones.
(Text 1: 3.8, 3.8.1,3.8.2, 3.8.3, 3.8.5, Text 2: 2.1 -2.7, 2.9 -2.11, 2.13)
08
IV
Electric Dipoles: Introduction, Short Electric Dipole, Radiation Resistance of a
Short Electric Dipole. Antenna Types: The Helix geometry, Helix modes,
Practical Design considerations for the mono-filar axial mode Helical Antenna,
Yagi-Uda array, Patch or Micro strip antenna, Horn Antenna, Parabolic
07
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
reflector. (Text 2: 6.1, 6.3, 8.2, 8.3, 8.5, 8.6, 9.7, 9.8, 10.5)
V
Applications of Microwaves: Introduction, Microwave Radar Systems, The
Radar Range equation, Duplexer, Pulsed Radar, CW Radar, Satellite
Communication Systems, Industrial application of microwaves.
(Text 1: 11.1, 11.2, 11.2.1, 11.2.2, 11.2.3, 11.2.4, 11.3.2, 11.4, 11.4.1)
08
Text Books:
Sl.
No
Text Book
title Author
Publisher/
Edition Volume / ISBN Year of Edition
1
Microwave
Engineering
Annapurna Das
and Sisir K Das
McGraw Hill
Education ISBN: 978-93-
329-0287-9 3rd Edition, 2015
2
Antennas for
all applications
John D
Kraus, Ronal J
Marhefka Tata McGraw Hill 3rd Edition
ISBN: 0-07-
053243-5, 2004
Reference Books:
Sl.
No
Text Book
title Author
Publisher/
Edition Volume / ISBN
Year of
Edition
1
Microwave devices
and circuits
Samuel Y
Liao Pearson
ISBN: 978-81-
203-0699-8 3rd Edition, 2008
2
Microwave
Engineering
David M
Pozar John Wiley
ISBN: 978-04-
711-7096-9 2nd Edition, 2004
3
Microwave and Radar
Engineering
M
Kulkarni
Umesh
publications ISBN: 978-
8188114009 4th edition, , 2009
4
Antennas and
Wave Propagation
K.D.
Prasad Satya Prakashan
ISBN: 978-
8176840255, 2003 3rd edition
Course Outcomes:
Course
Outcome Descriptions
CO1 Demonstrate microwave generation and transmission. (L2)
CO2 Outline the S-matrix of microwave network and explain antenna parameters. (L2)
CO3 Classify the microwave passive devices. (L2)
CO4 Identify microwave devices and antennas for different applications. (L3)
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
Subject Name: RANDOM PROCESS AND PROBABILITY L-T-P-C: 3-0-0-3
Subject Code: 18EC5PE51 (39 hours )
Course Objectives:
Sl.No Course Objectives
1 To introduces the various terminologies used in probability and random variable theory.
2 To introduce random processes such as Markov, Gaussian, Poisson, etc
3 To apply the techniques to solve problems relating to PDF and CDF with expected
values and distributions of multiple random variables
UNI
T
Description Hours
I
UNIT – I: Review of Probability Theory-Experiments. Sample space, Events,
Axioms, Joint and conditional probabilities. Baye’s Theorem, Independence,
Discrete Random Variables, Cumulative distribution function (CDF), Probability
density function (PDF), Gaussian random variable, Uniform RV, Exponential
RV.
8
II
UNIT-II: Operations on a Single R V: Expected value, Expected value of
functions of Random variables, Moments, Central Moments, Conditional
expected values. Transformation of Random variables.
8
III
UNIT-III: Pairs of Random variables, Joint Cumulative distribution function,
Joint Probability density function, Joint probability mass functions, Conditional
Distribution, density and mass functions, expected values involving pairs of
Random variables, Independent Random variables, Jointly Gaussian Random
variables.
8
IV
UNIT-IV: Multiple Random Variables: Joint and conditional probability mass
functions, CDF, PDF, expected value involving multiple Random variables,
Gaussian Random variable in multiple dimensions.
7
V
UNIT-V: Random Process: Definition and characterization, Mathematical tools
for studying Random Processes, Stationary and Ergodic Random processes,
Properties of Autocorrelation function. Example Processes: Markov processes,
Gaussian Processes, Poisson Processes.
8
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
Text Books:
Sl
No Title Author(s)
Publisher/
Edition
Volume /
ISBN
Year of
Edition
1
Probability and Random
processes: with applications to
Signal processing and
communication
S L Miller and
D C Childers
Academi c
Press
ISBN-
978012386
9814
Elsevier
2007
2
Probability andRandom
processes,Fourth edition
Geoffrey
Grimmet&Da
vid Stirzaker McGraw Hill ISBN 0198572239
3rd
Edition
Reference Books:
Sl
No Title Author(s)
Publisher/
Edition Volume / ISBN Year of Edition
1
Probability, Random
variables and stochastic
processes.
Papoulis and S
U Pillai
McGraw
Hill
ISBN-
10:0070486581
4thEditio
n, 2002
2
Probability, Random
variables and Random signal
principles
Peyton Z
Peebles TMH
ISBN-
10:9780070474
284
4thEditio
n 2007
3
Probability, random
processes and applications
H Stark and
Woods PHI
ISBN-
97801311236 2001
4
Probability, random
processes and applications
Ravichandran
R PHI
ISBN 13:978-
9384588007 2019
Course Outcomes:
Course
outcome
Descriptions
CO1 Define various terminologies used in probability and random variable theory, random
processes such as Markov, Gaussian, Poisson, etc. (L1)
CO2 Solve problems relating to PDF and CDF. (L3)
CO3 Examine functions of random variables and perform transformations. (L4)
CO4 Illustrate expected values and distributions of multiple random variables. (L5)
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
Subject Name: ROBOTICS AND AUTOMATION (39 hours )
Subject Code: 18EC5PE52 L-T-P-C: 3-0-0-3
Course Objectives:
Sl.No Course Objectives
1 This course introduces fundamental concepts in robotics.
2 The objective of the course is to provide an introductory understanding of robotics.
3
Students will be exposed to a broad range of topics in robotics with emphasis on basics
of manipulators, coordinate transformation and kinematics, trajectory planning, control
techniques, sensors and devices, robot applications and vision analysis
UNI
T
Description Hours
I
UNIT 1: BASIC CONCEPTS: Evolution of robots and robotics, Laws of
Robot, Robot definition, Generations of Robots, Robot anatomy, Coordinate
frames, mapping and transforms.
Text 1 (1.1 to 1.6)(2.1 to 2.5)
8
II
UNIT 2: END EFFECTORS: Grippers – Mechanical Grippers, Pneumatic
and Hydraulic Grippers, Magnetic Grippers, Vacuum Grippers; Two
Fingered and Three Fingered Grippers; Internal Grippers and External
Grippers; Selection and Design Considerations.
Text 2 (5.1 to 5.4)
8
III
UNIT 3: KINEMATICS: Direct kinematic model: Mechanical structure and
notations, Description of joints and links. Kinematic modeling of the
manipulator.Denavit –Hartenberg Notation.
Text1 (3.1 to 3.4)
8
IV
UNIT 4: PATHPLANNING: Definitions and planning tasks, joint space
techniques,Cartesian space techniques.
Text 1(7.1 to 7.3)
8
V
UNIT 5: ROBOTIC SENSORS AND VISION: Definitions, Sensors and
Robotics, Kinds of sensors used in Robotics. Robotic Vision, Industrial
applications of vision –controlled robotic vision systems.
Text 1 (9.1 to 9.5)
7
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
Text Books:
Sl
No Title Author(s)
Publisher/
Edition Volume / ISBN
Year of
Edition
1 Robotics And Control
R K Mittal And I
J Nagarth
McGraw –
Hill , ISBN 13 DIGIT
– 978-0-07-048 2003
2
Industrial Robotics –
Technology,
Programming and
Applications M.P.Groover
McGraw-
Hill,
ISBN -13 digits
-978-1- 25-
9000621-0 2001
Reference Books:
Sl
No Title Author(s)
Publisher/
Edition
Volume /
ISBN
Year of
Edition
1
Robotics Control,
Sensing, Vision and
Intelligence
Fu.K.S.
Gonzalz.R.C., and
Lee C.S.G.,
McGraw-
Hill Book Co
978-
007022625
8 1987
2
Robotic engineering-
An Integrated
Approach
Richard D. Klafter,
Thomas A.
Chmielewski and
Michael Negin,
Prentice Hall
Inc 978013468
7520 1989
3
Robotics and Image
Processing Janakiraman.P.A
Tata
McGraw-Hill
100-471-
71998-6 1995
4
Robotics for
Engineers YoramKoren
McGraw-
Hill Book Co
978007035
3992 1992
Course Outcomes:
Course
outcome Descriptions
CO1 Understand the fundamental concepts of robot (L1)
CO2 Calculate the forward kinematics of serial robots.(L3)
CO3
To do the path planning for a robotic system.(L4)
CO4 To familiarize various robot sensors and their perception principles that enable a robot(L2)
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
Subject Name: DIGITAL SWITCHING SYSTEMS (39 hours)
Subject Code: 18EC5PE53 L-T-P-C: 3-0-0-3
Course Objectives:
Sl.No Course Objectives
1
Study and understanding of the various aspects of Digital switching systems
hardware architectures, internal communication and control requirements, the basics
of switching fabric, advanced functionalities of DSS, software architectures and
maintenance of digital switching system.
UNI
T
Description Hours
I
UNIT – I:Switching System Fundamentals
Introduction to fundamentals of Telephony (Qualitative), Digital switching system
analysis, purpose of analysis, Basic central office linkages, outside plant versus
inside plant, switching system hierarchy, Evolution of digital switching systems,
stored program control switching systems, Digital switching system fundamentals,
Building blocks of DSS, Basic call processing
Text 2 , Text 1 ( Chapter 1 )
8
II
UNIT-II: :Communications and Control
Introduction, Switching communications and control, level1,level 2 and level
3control ,Basic functions of Interface controller and Network control processor,
Call processing, Control architectures, Multiplexed Highways, Switching fabric,
space division switching, Time division switching, STS switching, TST switching,
TTT switching, programmable junctors, Network redundancy.
Text 1 (Chapter 2)
8
III
UNIT-III:Switching System Software
Introduction, Basic software architecture, operating systems, Database
management, Concept of Generic program, Software architecture for level
1,level2,level3 controls, DSS software classification, Call models, connect
sequence, disconnect sequence, Software linkages during a call, Call features,
feature flow diagram.
Text 1 ( Chapter 5 )
7
IV
UNIT-IV: Maintenance of Digital Switching Systems
Introduction, Software maintenance, Interfaces of typical DSS central office,
System outage and its impact on DSS reliability, Impact of software patches on
DSS maintability, Growth of DSS central office, Methodology for reporting and
correction of field programs, Diagnostic capabilities for maintenance of DSS,
Effect of Firmware deployment on DSS, Switching system maintainability metrics,
A Strategy for improving software quality
Text 1 ( Chapter 7)
8
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
V
UNIT-V: A Generic Digital Switching System Model
Introduction, Hardware Architecture ;Central processor, Network control
processors, Interface controllers, Interface modules, switching fabric, Software
Architecture ;System le vel software, Maintenance software, Call processing
software, Database software, Recovery strategy, A Simple call through a DSS,
Some common characteristics of DSS, Analysis report; System description,
Operation ,administration and maintenance, reliability analysis, product support
Text 1 ( Chapter 9 )
8
Text Books:
Sl No Title Author(s)
Publisher/ Edition
Volume / ISBN
Year of Edition
1 Digital Switching Systems Syed R . Ali
Tata McGraw-
HILL
ISBN-
10;9780070 483903 Edition 2002
2
Telecommunication
switching Traffic and Networks Flood J E
Pearson publications
ISBN-
9788131705 025 Edition 2002
Reference Books:
Sl
No Title Author(s)
Publisher/
Edition Volume / ISBN Year of Edition
1 Digital Telephony John Bellamy Wiley India.
ISBN-
10;9788126509294 3rd Edition.
2
Fundamentals of
Digital Switching
John C Mc
Donald
Plenum press
Newyork &
London
ISBN-
978146844441 2003
3
Telecommunication
switching systems and
networks
Thiagarajan
Viswanathan PHI Learning
ISBN-
9788120350830 1999
4
Telecommunication
switching and
networks P.Gnanasivam
New Age International
(P)Ltd.Publis
hers
ISBN-
9788122423495 2006
Course Outcomes:
Course
outcome
Descriptions
CO1 Understand the basics , evolution and building blocks of DSS.(L1)
CO2 Understanding communication/control involved in DSS and switching system
software. (L1,L2)
CO3 Understanding the maintenance of DSS. (L2)
CO4 Studying the Generic DSS model Hardware architecture and software
maintenance. (L2)
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
Subject Name: DIGITAL SYSTEM DESIGN USING VERILOG (39 hours)
Subject Code: 18EC5OE61 L-T-P-C: 3-0-0-3
Course Objectives:
Sl.No Course Objectives
1 To introduce the notions of digital system design using an integrated development
environment for design entry through Verilog.
2 Covers fundamental design issues of combinational and sequential circuits.
3 To develop Verilog models representing structure, behavior or data flow concepts
describing the internal structure or external behavior of the circuit.
UNI
T
Description Hours
I
UNIT – I:
Introduction to Verilog:
Introduction to HDL, history of HDLs, capabilities. Modules and ports,
Expressions. Basic concepts: Lexical conventions, data types, system tasks and
compiler directives.
(Ref.Text2: 1.1 to 1.3, 2.1,4.1 to 4.2 ) (Text1:3.1 to 3.4,) (excluding testbench
programs)
8
II
UNIT-II:
Gate level Modeling:
Gate types, gate delays, examples. Timing and delays: Types of delay models,
path delay models.
(Text1: 5.1 to 5.3,10.1 to 10.2) (excluding testbench programs)
7
III
UNIT-III:
Behavioral Modeling:
Structured procedures, procedural assignments, timing controls, conditional
statements, multiway branching, generate blocks, examples.
(Text1: 7.1 to 7.6, 7.8 to 7.10)
8
IV
UNIT-IV:
Data flow Modeling:
Continuous assignments, delays, expression, operators and operands, operator
types, Examples. Tasks and Functions: Difference between tasks and
functions, tasks, functions
(Text1: 6.1- 6.6, 8.1 to 8.4) (excluding testbench programs)
8
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
V
UNIT-V
Design of networks for arithmetic operations:
Design of a serial adder with accumulator, State graphs for control networks,
Design of a binary multiplier, Multiplication of signed binary numbers, Design
of a binary divider.
(Text2: 4.1 to 4.5)
8
Text Books:
Sl
No Title Author(s)
Publisher/
Edition Volume / ISBN Year of Edition
1 “Verilog HDL”
Samir
Palnitkar, Pearson Education
ISBN: 81-7758-
918-0
Second edition,
2013
2
Digital Systems
Design using
VHDL
Charles
H. Roth.
Jr
Thomson
Learning, Inc,. ISBN: 981-240-
052-4 9th reprint, 2004
Reference Books:
Sl
No Title Author(s)
Publisher/
Edition
Volume /
ISBN
Year of
Edition
1
“HDL programming(VHDL
and Verilog)”
Nazein M.
Botros
Dreamtech
press ISBN: 978-
8177226973 2006
2 A Verilog HDL Primer J Bhasker
BS
publications
ISBN: 81-
7800-012-1 Second edition.
3
Verilog HDL(Digital design
and modeling)
Joseph
cavanagh CRC Press
ISBN-1-4200-
5154-7 2007
4 The complete Verilog book
Vivek
Sagdeo Springer
ISBN-0-306-
47658-4 1998
Course Outcomes:
Course
outcome
Descriptions
CO1 Define the constructs and conventions of the Verilog programming. (L1)
CO2 Design and program combinational and sequential digital systems using verilog( L4)
CO3 Design control networks for arithmetic operations. (L2)
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
Subject Name: Digital Signal Processing Lab L-T-P-C: 0-0-2-1
Subject Code: 18EC507
Course Objectives:
Sl.No Descriptions
1
Simulate the basics of Digital Signal Processing and it’s applications using
MATLAB processing tool.
2
Compute solution to the difference equations and computation of convolution and
correlation along with the
verification of properties.
3 Implement the DSP computations on hardware using Code Composer Studio IDE and DSP kit ( TMS320C67XX).
A. LIST OF EXPERIMENTS USING MATLAB
1. Verification of sampling theorem and Impulse response of a given system
2. Linear convolution and Circular convolution of two given sequences using time
domain approach.
3. Autocorrelation and Cross correlation of a given sequence and verification of
its properties.
4. Solving a given difference equation.
5. Computation of N point DFT of a given sequence and to plot magnitude and
phase spectrum and verification of its properties.
6. Linear convolution and Circular convolution of two sequences using DFT and
IDFT.
7. Design and implementation of FIR filter to meet given specifications.
8. Design and implementation of IIR filter to meet given specifications.
B. LIST OF EXPERIMENTS USING DSP PROCESSOR
9. Linear convolution and Circular convolution of two given sequences.
10. Computation of N- Point DFT of a given sequence.
11. Realization of an FIR filter (any type) to meet given specifications .The input can
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
be a signal from function generator / speech signal.
12. Impulse response of first order and second order system.
OPEN ENDED EXPERIMENTS
1. Application of FIR filters: Design of Differentiator.
2. Design of Hilbert transformer.
Question paper Pattern:
Text Books
Sl No Author Text Book title Publisher/Edition
Volume / ISBN
Year of Edition
1
Proakis &
Monalakis
Digital signal
processing –
Principles
Algorithms &
Applications
Pearson
education
4th Edition
ISBN: 978-
81-317-
1000-5 2007
2 S. K. Mitra
Digital Signal
Processing
Tata Mc-Graw
Hill 2nd Edition
ISBN: 0-07-
044705-5 2007
Reference Books
Sl No Author Text Book title Publisher/Edition Volume / ISBN
Year of Edition
1
Vinay K.
Ingle and
John G.
Proakis
Digital Signal
Processing Using
MATLAB: A
Problem Solving Companion
Cengage Learning
4th Edition
ISBN: 978-
1305635128 2016
2
Oppenheim &
Schaffer
Discrete Time
Signal Processing
Pearson Education
3rd Edition
ISBN:
9780131988422 2010
3
Emmanuel
Ifeachor,
Barrie W. Jervis
Digital Signal
Processing: A
Practical Approach
Pearson Education
2nd Edition
ISBN: 978-020-
1596199 2002
4
Lonnie C.
Ludeman
Fundamentals of
digital signal
processing
John Wiley & sons
1st Edition
ISBN : 81-265-
2222-4 2009
In the examination a student has to execute one program from each part for a total of 50 marks.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
Course Outcomes :
Pattern for practical exam conduction:
The allotment of marks is detailed as below:
Max Marks
TEST 1 10
TEST 2 10
RECORD 30
Total Max Marks 50
Minimum Passing Marks (40% of Max Marks) 20
Course
Outcome
Descriptions
CO1
Apply various signal processing operations and verification of their
properties using MATLAB simulation tool.(L3)
CO2 Realize and demonstrate FIR and IIR filter for DSP applications using
MATLAB simulation tool and DSP Processor kit.(L2)
CO3 Verify, interpret and record the experimental data, analyse the results and
prepare a formal laboratory report.(L3).
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
Subject Name: VLSI Lab
Subject Code: 18EC508 L-T-P-C: 0-0-2-1
Course Objectives:
Sl.
No.
Course Objectives
1 Learn the schematic editor and physical design tool.
2 Realize the functionality of combinational and sequential circuits using CMOS logic.
3 Understand the AC and DC analysis of digital circuits.
Sl. No. List of Experiments
Cycle-1
01. Inverter, Buffer
02. Basic Gates, Complex Gates
03. Transmission Gate(TG)
04. 4:1 MUX using TG
05. Full Adder and Parallel Adder
Cycle-2
06. Flip – Flops (SR, JK, T, D, MSJK)
07. Serial Register
08. Serial Adder
09. Asynchronous Counter and Synchronous Counter
Question Paper Pattern:
Text Books:
Sl
No Author Text Book title
Publisher/
Edition Volume / ISBN
Year of
Edition
1
John P
Uyemura
Introduction to VLSI
circuits and systems
John Wiley
& sons 1-265-0915-5 2006.
2
Douglas A.
Pucknell &
Kamran
Eshraghian Basic VLSI Design
PHI
3rd Edition 978-81-203-0986-9 2005.
In the examination a student has to execute one program from each cycle for a total of 50 marks.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
Reference Books:
Sl
No Author Text Book title
Publisher/
Edition
Volume /
ISBN
Year of
Edition
1
Neil H. E.
Weste, David
Harris and
Ayan Banerjee CMOS VLSI Design: A Systems Perspective
Pearson
Education
(Asia)Pvt. Ltd.,
3rd Edition 81-7758-568-1 2006.
2
Donald D
Givone
Digital Principles and
Design
Tata McGraw
Hill 0-07-052906-X 2004.
3
Sung-Mo Kang
& Yusuf
Leblebici
CMOS Digital
Integrated Circuits:
Analysis and Design
Tata McGraw-
Hill
3rd Edition 978-0-07-053077-5 2003.
4 Wayne Wolf
Modern VLSI
Design- IP Based
Design
PHI
Publishers 4th
Edition 978-81-203-3824-1 2009.
Course Outcomes:
Course
Outcome Descriptions
CO1
Demonstrate the different parameters of digital circuits using schematic editor
and layout Tool. (L2)
CO2
Model and verify the schematics and layout of digital circuits at transistor
level.(L3)
CO3
Simulate, interpret and record the experimental data, analyze the results and
prepare a formal laboratory report. (L3)
Pattern for practical exam conduction:
The allotment of marks is detailed as below:
Max. Marks
TEST 1 10
TEST 2 10
RECORD 30
Total Max. Marks 50
Minimum Passing Marks (40% of Max. Marks) 20