ECC404: Signals & Systems Syllabus for EC 4th Sem 2017 Pattern Mumbai University

Signals & Systems detailed syllabus scheme for Electronics & Telecommunication Engineering (EC), 2017 regulation has been taken from the University of Mumbai official website and presented for the Bachelor of Engineering students. For Course Code, Course Title, Test 1, Test 2, Avg, End Sem Exam, Team Work, Practical, Oral, Total, and other information, do visit full semester subjects post given below.

For all other Mumbai University Electronics & Telecommunication Engineering 4th Sem Syllabus 2017 Pattern, do visit EC 4th Sem 2017 Pattern Scheme. The detailed syllabus scheme for signals & systems is as follows.

Signals & Systems Syllabus for Electronics & Telecommunication Engineering SE 4th Sem 2017 Pattern Mumbai University

Prerequisites:

For the complete Syllabus, results, class timetable, and many other features kindly download the iStudy App
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Course Objectives:

1. To introduce students the concept and theory of signals and systems needed in electronics and telecommunication engineering fields.
2. To introduce students to the basic idea of signal and system analysis and its characterization in time and frequency domain

Course Outcomes:

After successful completion of the course student will be able to

1. Understand about various types of signals and systems, classify them, analyze them, and perform various operations on them,
2. Understand use of transforms in analysis of signals and system in continuous and discrete time domain.
3. Observe the effect of various properties and operations of signals and systems.
4. Evaluate the time and frequency response of Continuous and Discrete time systems which are useful to understand the behaviour of electronic circuits and communication systems.

Module 1

Introduction to signals and systems 08

1. Introduction to signals: Definition, sampling theorem, sampling of continuous time signals, elementary signals: exponential, sine, step, impulse, ramp, rectangular, triangular, signum, sinc, operations on signals,
2. Classification of signals: Continuous and discrete time, deterministic and non-deterministic, periodic and aperiodic, symmetric (even) and asymmetric (odd), energy and power, causal and anti-causal signal, Case study of different signals from communication and biomedical field
3. Introduction to systems: Definition, Classification of systems: Static and dynamic, time variant and time invariant, linear and nonlinear, causal and non-causal, stable and unstable systems., communication and control system as examples

Module 2

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Module 3

Frequency domain analysis of continuous and discrete signals: 10

1. Review of Fourier series: Trigonometric and exponential Fourier series representation of signals, Gibbs phenomenon, Discrete Time Fourier Series, properties, analogy between Continuous Time Fourier Series (CTFS) and Discrete Time Fourier Series (DTFS).
2. Fourier Transform (FT): Fourier Transform and Inverse Fourier Transform on periodic and non-periodic signals, limitations of CT/DT Fourier Transform and need for Laplace/Z Transform.
3. Overview of Laplace Transform: Need of Laplace Transform, review of unilateral and bilateral LaplaceTransform, properties, inverse of Laplace Transform, concept of Region of Convergence (ROC),poles and zeros, relation between continuous time Fourier Transform and Laplace Transform.

Module 4

Z-Transform 08

1. Need of Z-Transform, definition of unilateral and bilateral Z-Transform, Z-Transform of finite and infinite duration sequences, properties, Inverse Z-Transform, relation between discrete time Fourier Transform and Z-Transform, Z-Transform of standard signals, ROC for ZT, plotting poles and zeros of transfer function.
2. Analysis of discrete time LTI systems using Z-Transform: Transfer Function, causality and stability of systems, frequency response (impulse and step), relation between Laplace Transform and Z-Transform.

Module 5

State Space Analysis and Realization Structures 08

1. State Variable Analysis: Introduction to the notion of state, systematic procedure for determining state equations, solution of state equations using Laplace transform, definition of exp(A) where A is a matrix, time domain solution of state equations.
2. Systems with finite duration and infinite duration, impulse response, recursive and non-recursive discrete time system, realization structures: direct form-I, direct form-II, Transpose, cascade, and parallel forms.

Module 6

For the complete Syllabus, results, class timetable, and many other features kindly download the iStudy App
It is a lightweight, easy to use, no images, and no pdf platform to make students’s lives easier.
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Text Books:

1. NagoorKani, Signals and Systems, Tata McGraw Hill, Third Edition, 2011.
2. B.P. Lathi, Principles of Linear Systems and Signals, Oxford, Second Edition, 2010.
3. S. L. Nalbalwar, A. M. Kulkarni and S. P. Sheth, Signals and Systems, Synergy Knowledgeware, 2016.
4. Simon Haykin and Barry Van Veen, Signals and Sytems, John Wiley and Sons, Second Edition,2004.

Reference Books:

1. Hwei. P Hsu, Signals and Systems, Tata McGraw Hill, Third edition, 2010
2. V. Krishnaveni and A.Rajeshwari, Signals and Systems, Wiley-India, First Edition 2012.
3. Narayanalyer, Signals and Systems, Cenage Learning, First Edition 2011.
4. Michael J Roberts, Fundamentals of Signals and systems, Tata McGraw Hill, special Indian Economy edition, 2009.
5. Rodger E Ziemer, William H. Tranter and D. Ronald Fannin, Signals and Systems, Pearson Education, Fourth Edition 2009.
6. Alan V. Oppenhiem, Alan S. Willsky and S. Hamid Nawab, Signals and Systems, Prentice-Hall of India, Second Edition, 2002.

For detail syllabus of all other subjects of Electronics & Telecommunication Engineering (EC) 4th Sem 2017 regulation, visit EC 4th Sem Subjects syllabus for 2017 regulation.