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Lecture-01 Signals

Lecture-02 Domain & Range of signal

Lecture-03 System Introduction

Lecture-04 Signal Properties

Lecture-05 Frequently used continuous signals

Lecture-06 Frequently used discrete time signals

Lecture-07 Transformations on time & Range

Lecture-08 System Properties

Lecture-09 System Properties

Lecture-10 Communiction Diagram As a Test For Linearity & Time Invariance

Lecture-11 LTI system

Lecture-12 Representation of Discrete Time Convolution

Lecture-13 Representation Of Continuous Time Convolution

Lecture-14 Properties of Convolution

Lecture-15 Differential Equations

Lecture-16 Solving Differential Equation

Lecture-17 Physical System Relation With Differential Equation

Lecture-18 System Described by Differential Equation

Lecture-19 System Described by Differential Equation

Lecture-20 Difference Equation Intro

Lecture-21 LTI Systems Described By Difference Equation

Lecture-22 Filters

Lecture-23 Implementation with Integrators

Lecture-24 Theory of Signal Representation

Lecture-25 Representation of Periodic Signal

Lecture-26 Fourier Series

Lecture-27 Fourier Spectrum

Lecture-28 Fourier Transform

Lecture-29 Properties of CTFT

Lecture-30 Properties of CTFT

Lecture-31 Frequency Response of Continuous System

Lecture-32 Discrete Signals & System Representation

Lecture-33 Discrete Time Fourier Transform

Lecture-34 Properties of Discrete Time Fourier Transform

Lecture-35 Frequency Response of Discrete LTI System

Lecture-36 Ideal Sampling

Lecture-37 Flat Top Sampling

Lecture-38 Faithful Sampling

Lecture-39 Interpolation

Lecture-40 Laplace Transform

Lecture-41 Inverse Laplace Transform

Lecture-42 Properties of Laplace Transform

Lecture-43 Z-Transform

Lecture-44 Inverse Z Transform

Lecture-45 Properties of Z Transform

Description:

Instructor: Prof. K.S. Venkatesh, Department of Electrical Engineering, IIT Kanpur. This course is a study of signals and systems, covering topics: formal definition of 'signal' and 'system', continuous and discrete signals, continuous and discrete-time systems, Linear Time-Invariant (LTI) systems, representation of continuous and discrete-time convolution, differential equations, difference equations, filters, periodic signals, Fourier series, Fourier transform and its properties, discrete-time Fourier transform, frequency response of continuous and discrete LTI systems, sampling, Laplace transform and its properties, inverse Laplace transform, z-transform and its properties, inverse z-transform.

Signals and Systems

NPTEL

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#Engineering #Electrical Engineering #Signal Processing #Control Systems #Mathematics #Differential Equations #Communication Systems #Fourier Analysis #Statistics & Probability #Sampling #Computer Science #Deep Learning #Convolution #Z-Transform #Mathematical Analysis #Laplace Transform