Signals And Systems: From Basics To Advanced(Course-1)

An undergraduate course on fundamentals of signal processing in continuous time domain and in discrete time domain

What you'll learn
Basic definitions of Continuous and discrete signals and opertions on time
Periodic and aperiodic signals
Energy and power signals
Even and odd signals
Singularity functions like unit impulse, unit step and unit impulse signals
System defintion and properties
Basic convolution in continuous and discrete time domains

Requirements
Basic Mathematics

Description
This is an undergraduate course on signals and systems. This course is first one in a series of two courses on basics of signals and systemsFor any electrical, electronics, Instrumentation or bio-medical engineering student understanding basics of signals in continuous time(CT) domain and in discrete time(DT) domain is a must. This course gives an in-depth coverage of all the fundamentals required for signal processing in both the domains. This can also be taken as a refresher course to understand 'Digital signal processing'.The organisation and coverage of topics is as follows:Introduction to signals: This module begins with basic definition of signal and system. The primary classification of signals and independent variables in signal representation are well explained. Then we will move on to the operations performed on independent variable like time and their order of precedence. Classification of signals: Periodic and aperiodic signal classification is explained with sinusoidal signals and real exponential signals in detail. Another classification energy and power signals is given with all necessary examples. Finally, even and odd signals classification and its extension conjugate symmetric and conjugate anti symmetric signal classification is explained. Standard signals: An in-depth coverage of  singularity functions like unit-impulse, unit-step and unit-ramp signals are given in this chapter. All these signals are defined graphically and mathematically in both CT and DT domains. Properties of signals and relation between singularity functions is also explained. And other signals like signum function, sinc function etc., are also covered.System properties: All the system properties that is Linearity, time invariance, causality, stability, memory and invertibility are well explained with standard examples.About Author:Mr. Udaya Bhaskar is an undergraduate university level faculty and GATE teaching faculty with more than 16 years of teaching experience. His areas of interest are signal processing, semiconductors, digital design and other fundamental subjects of electronics.  He trained thousands of students for GATE and ESE examinations.

Who this course is for:
Undergraduate engineering students with Electrical engineering, Electronics engineering, Biomedical engineering, Instrumentation engineering as specialisation,Diploma/Polytechnic students with Electronics engineering, Communication engineering, Instrumentation as specialisation,GATE and PSU preparing students,Any Electronics or communication engineer who wants strengthen signal processing fundamentals