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Author:   Hwei Hsu
Publisher:   McGraw-Hill Education
Imprint:   McGraw-Hill Education
Edition:   4th edition
Dimensions:   Width: 21.30cm , Height: 2.50cm , Length: 28.50cm
Weight:   0.787kg
ISBN:  

9781260454246

ISBN 10:   126045424
Pages:   528
Publication Date:   30 September 2019
Audience:   College/higher education ,  Tertiary & Higher Education
Format:   Paperback
Publisher's Status:   Active
Availability:   Available To Order  
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Table of Contents

Preface to The Second Edition Preface to The First Edition To the Student Contents Chapter 1. Signals and Systems 1.1 Introduction 1.2 Signals and Classification of Signals 1.3 Basic Continuous-Time Signals 1.4 Basic Discrete-Time Signals 1.5 Systems and Classification of Systems Solved Problems Chapter 2. Linear Time-Invariant Systems 2.1 Introduction 2.2 Response of a Continuous-Time LTI System and the Convolution Integral 2.3 Properties of Continuous-Time LTI Systems 2.4 Eigenfunctions of Continuous-Time LTI Systems 2.5 Systems Described by Differential Equations 2.6 Response of a Discrete-Time LTI System and Convolution Sum 2.7 Properties of Discrete-Time LTI Systems 2.8 Eigenfunctions of Discrete-Time LTI Systems 2.9 Systems Described by Difference Equations Solved Problems Chapter 3. Laplace Transform and Continuous-Time LTI Systems 3.1 Introduction 3.2 The Laplace Transform 3.3 Laplace Transforms of Some Common Signals 3.4 Properties of the Laplace Transform 3.5 The Inverse Laplace Transform 3.6 The System Function 3.7 The Unilateral Laplace Transform Solved Problems Chapter 4. The z-Transform and Discrete-Time LTI Systems 4.1 Introduction 4.2 The z-Transform 4.3 z-Transforms of Some Common Sequences 4.4 Properties of the z-Transform 4.5 The Inverse z-Transform 4.6 The System Function of Discrete-Time LTI Systems 4.7 The Unilateral z-Transform Solved Problems Chapter 5. Fourier Analysis of Continuous-Time Signals and Systems 5.1 Introduction 5.2 Fourier Series Representation of Periodic Signals 5.3 The Fourier Transform 5.4 Properties of the Continuous-Time Fourier Transform 5.5 The Frequency Response of Continuous-Time LTI Systems 5.6 Filtering 5.7 Bandwidth Solved Problems Chapter 6. Fourier Analysis of Discrete-Time Signals and Systems 6.1 Introduction 6.2 Discrete Fourier Series 6.3 The Fourier Transform 6.4 Properties of the Fourier Transform 6.5 The Frequency Response of Discrete-Time LTI Systems 6.6 System Response to Sampled Continuous-Time Sinusoids 6.7 Simulation 6.8 The Discrete Fourier Transform Solved Problems Chapter 7. State Space Analysis 7.1 Introduction 7.2 The Concept of State 7.3 State Space Representation of Discrete-Time LTI Systems 7.4 State Space Representation of Continuous-Time LTI Systems 7.5 Solutions of State Equations for Discrete-Time LTI Systems 7.6 Solutions of State Equations for Continuous-Time LTI Systems Solved Problems Chapter 8. Random Signals 8.1 Introduction 8.2 Random Processes 8.3 Statistics of Random Processes 8.4 Gaussian Random Process Solved Problems Chapter 9. Power Spectral Density and Random Signals in Linear System 9.1 Introduction 9.2 Correlations and Power Spectral Densities 9.3 White Noise 9.4 Response of Linear System to Random Input Solved Problems Appendix A. Review of Matrix Theory A.1 Matrix Notation and Operations A.2 Transpose and Inverse A.3 Linear Independence and Rank A.4 Determinants A.5 Eigenvalues and Eigenvectors A.6 Diagonalization and Similarity Transformation A.7 Functions of a Matrix A.8 Differentiation and Integration of Matrices Appendix B. Review of Probability B.1 Probability B.2 Random Variables B.3 Two-Dimensional Random Variables B.4 Functions of Random Variables B.5 Statistical Averages Appendix C. Properties of Linear Time-Invariant Systems and Various Transforms C.1 Continuous-Time LTI Systems C.2 The Laplace Transform C.3 The Fourier Transform C.4 Discrete-Time LTI Systems C.5 The z-Transform C.6 The Discrete-Time Fourier Transform C.7 The Discrete Fourier Transform C.8 Fourier Series C.9 Discrete Fourier Series Appendix D. Review of Complex Numbers D.1 Representation of Complex Numbers D.2 Addition, Multiplication, and Division D.3 The Complex Conjugate D.4 Powers and Roots of Complex Numbers Appendix E. Useful Mathematical Formulas E.1 Summation Formulas E.2 Euler’s Formulas E.3 Trigonometric Identities E.4 Power Series Expansions E.5 Exponential and Logarithmic Functions E.6 Some Definite Integrals Schaum’s Signals and Systems Videos Schaum’s Signals and Systems MATLAB Videos MATLAB Prints for Online Videos Index

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