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    Signals And Systems: Basics, Convolution & Transforms

    Posted By: ELK1nG
    Signals And Systems: Basics, Convolution & Transforms

    Signals And Systems: Basics, Convolution & Transforms
    Published 3/2025
    MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
    Language: English | Size: 34.46 GB | Duration: 17h 52m

    Signals and Systems: Basics of Signals | Systems | Convolution | Laplace Transform | Z Transform | Fourier Series

    What you'll learn

    Introduction to Signals

    Introduction to Systems

    Convolution

    Laplace Transform

    Z Transform

    Fourier Series

    Requirements

    No Prior knowledge is needed

    Description

    Signals and Systems is a fundamental subject for electronics, electrical, and communication engineers. It forms the backbone of signal processing, control systems, and communications. Mastering this course helps in understanding real-world applications like audio processing, image analysis, and wireless communication.This course includes the videos related to Signals and Systems and it covers all the fundamentals of Signals and Systems.Here Prof. Hitesh Dholakiya has covered all the topics of Signals and Systems with the following outlines:1. Introduction to Signals:Basics and Applications of Signals, Classifications of Signals, Standard Signals {Impulse, Step, Ramp, Signum, Rectangular, Sinc and Sampling}, Operations on Signals {Time Shifting, Time Folding, Time Scaling & Arithmetic Operations}, Plot of Signal from the Function, Even and Odd Signals, Identification of Even and Odd Components of Signals, Periodicity of Signals, Energy and Power of Signals.2. Introduction to Systems:Basics and Applications of Systems, Classifications of Systems, Linear and Non-Linear Systems, Time Invariant and Time Variant Systems, LTI and LTV Systems, Static and Dynamic Systems, Causal and Non-Causal Systems, Invertible and Non-Invertible Systems, Stable and Unstable Systems, Impulse Response of Systems.3. Convolution:Basics and Properties of Convolution, Limits of Convolution, Area of Convoluted Signal, Convolution of Continuous Time Signals, Convolution by Slide and Shift Method, Convolution by Image Method, Convolution Examples, Linear Convolution, Circular Convolution, Deconvolution, Long Division Method of Deconvolution.4. Laplace Transform:Basics and Applications of Laplace Transform, Laplace Transform Vs Fourier Transform, Properties of Laplace Transform, ROC of Laplace Transform, Examples of ROC and Laplace Transform, Unilateral Laplace Transform, Laplace Transform of Standard Signals, Examples of Laplace Transform, Impulse Response of the system using Laplace Transform, Initial and Final Conditions using Laplace Transform.5. Z Transform:Basics and Properties of Z Transform, Relation of Z Transform with DTFT, Z Transform of Discrete Sequence, Examples of Z Transform, Z Transform of Standard Signals, Examples of Z Transform, Initial and Final Value Theorem using Z Transform, ROC of Z Transform, Examples of ROC and Z Transform, Causality and Stability using Z Transform, Long Division Method for Inverse Z Transform, Direct Method or Partial Fraction Method for Inverse Z Transform, Residue Method for Inverse Z Transform, Examples of Properties of Z Transform, Transfer Function and Impulse Response by Z Transform.6. Fourier Series:Fourier Series Vs Fourier Transform, Fourier Series Coefficient Derivation, Types of Fourier Series {Exponential, Trigonometric and Polar Fourier Series}, Properties of Fourier Series, Relation between Trigonometric and Exponential Fourier Series, Examples of Fourier Series Coefficient, Fourier Series Coefficients from Symmetry, DC Component of Fourier Series, Fundamental Component and Harmonics of Fourier Series, Examples of Trigonometric Fourier Series, Examples of Exponential Fourier Series.See you in the course.Thank You.

    Overview

    Section 1: Introduction to Signals and Systems

    Lecture 1 Course Trailer

    Lecture 2 How to Access the course Materials

    Section 2: Introduction to Signals

    Lecture 3 Introduction to Signals

    Lecture 4 Classifications of Signals

    Lecture 5 Standard Signals

    Lecture 6 Operations on Signal

    Lecture 7 Examples of Operations on Signal

    Lecture 8 Plot Signal from given Function

    Lecture 9 Even and Odd Components of Signal

    Lecture 10 Periodicity of Signal

    Lecture 11 Energy and Power of Signal from Waveforms

    Lecture 12 Energy and Power of Step & Exponential Signal

    Lecture 13 Energy and Power of Discrete Signal

    Lecture 14 Examples of Energy and Power Signals

    Lecture 15 Energy of Time Scaled Signal & Parseval' Theorem

    Section 3: Introduction to Systems

    Lecture 16 Introduction to Systems

    Lecture 17 Classifications of Systems

    Lecture 18 Linear and Non-Linear System

    Lecture 19 Time Invariant and Time Variant Systems

    Lecture 20 LTI and LTV Systems

    Lecture 21 Static and Dynamic Systems

    Lecture 22 Causal and Non-Causal Systems

    Lecture 23 Invertible and Non-Invertible Systems

    Lecture 24 Stable and Unstable Systems

    Lecture 25 Impulse Response of Systems

    Section 4: Convolution

    Lecture 26 Convolution

    Lecture 27 Limits of Convolution & Area of Convoluted Sign

    Lecture 28 Convolution of Continuous Time Signals

    Lecture 29 Convolution by Slide and Shift Method

    Lecture 30 Convolution by Image Method

    Lecture 31 Examples of Convolution

    Lecture 32 Area of Convoluted Signal

    Lecture 33 Linear Convolution

    Lecture 34 Circular Convolution

    Lecture 35 Circular Convolution by Matrix Method

    Lecture 36 Deconvolution

    Section 5: Laplace Transform

    Lecture 37 Laplace Transform

    Lecture 38 Comparison of Laplace Transform & Fourier Trans

    Lecture 39 Inverse Laplace Transform & Conditions for Exis

    Lecture 40 Properties of Laplace Transform

    Lecture 41 Proof of Properties of Laplace Transform

    Lecture 42 ROC in Laplace Transform

    Lecture 43 ROC & Laplace Transform Solved Examples - 1

    Lecture 44 ROC & Laplace Transform Solved Examples - 2

    Lecture 45 Unilateral Laplace Transform

    Lecture 46 Laplace Transform of Standard Signals

    Lecture 47 Examples of Laplace Transform - 1

    Lecture 48 Examples of Laplace Transform - 2

    Lecture 49 Examples of Impulse Response

    Lecture 50 Examples of Laplace Transform - 3

    Lecture 51 Initial and Final Value Theorem

    Lecture 52 Examples of Initial and Final Value Theorem

    Lecture 53 Examples of Laplace Transform - 4

    Lecture 54 Examples of Laplace Transform - 5

    Section 6: Z Transform

    Lecture 55 Introduction to Z Transform

    Lecture 56 Z Transform of Finite Discrete Sequence

    Lecture 57 Examples of Inverse Z Transform

    Lecture 58 Z Transform of Standard Signals Solved Examples - 1

    Lecture 59 Z Transform of Standard Signals Solved Examples - 2

    Lecture 60 Z Transform of Standard Signals

    Lecture 61 Initial and Final Value in Z Transform

    Lecture 62 Properties of Z Transform

    Lecture 63 ROC of Z Transform

    Lecture 64 Examples of ROC and Z Transform

    Lecture 65 Causality and Stability from ROC & Z Transform

    Lecture 66 Long Division Method for Inverse Z Transform

    Lecture 67 Direct Method for Inverse Z Transform

    Lecture 68 Residue Method for Inverse Z Transform

    Lecture 69 Examples of ROC and Z Transform

    Lecture 70 Properties of Z Transform Solved Examples

    Lecture 71 Convolution Property of Z Transform Solved Example

    Lecture 72 Transfer Function & Impulse Response by Z Transform

    Section 7: Fourier Series

    Lecture 73 Comparison of Fourier Series & Fourier Transfor

    Lecture 74 Fourier Series Coefficient Derivation

    Lecture 75 Types of Fourier Series

    Lecture 76 Properties of Fourier Series

    Lecture 77 Relation between Trigonometric & Exponential Fourier Series

    Lecture 78 Examples of Fourier Series Coefficients

    Lecture 79 Fourier Series Coefficients from Symmetry

    Lecture 80 Examples of Fourier Series

    Lecture 81 DC Component of Fourier Series

    Lecture 82 Fundamental Component & Harmonics of Fourier Series

    Lecture 83 Examples of Trigonometric Fourier Series - 1

    Lecture 84 Examples of Trigonometric Fourier Series - 2

    Lecture 85 Example of Exponential Fourier Series - 1

    Lecture 86 Examples of Exponential Fourier Series - 2

    Lecture 87 Feedback

    Section 8: About our other Courses on Udemy

    Lecture 88 Courses on Udemy

    Students (Engineering, Diploma, Science),Engineering students specializing in electrical, electronic, or communication engineering,Professionals working in industries such as defense, aerospace, and telecommunications,Anyone with a keen interest in understanding the principles and applications of Signals and Systems,MATLAB & Simulink Users,Government and Defense Employees,Students Preparing for Competitive Exams