Chapter 1 Introduction 1.1 Signals and Systems Defined 1.2 Types of Signals 1.3 Examples of Systems A Mechanical System A Fluid System A Discrete-Time System Feedback Systems 1.4 AFamiliar Signal and System Example 1.5 Use of MATLAB9 Chapter 2 Mathematical Description of Continuous-Time Signals 2.1 Introduction and Goals 2.2 Functional Notation 2.3 Continuous-Time Signal Functions Complex Exponentials and Sinusoids Functions with Discontinuities The Signum Function The Unit-Step Function The Unit-Ramp Function The Unit Impulse The Impulse, the Unit Step, and Generalized Derivatives The Equivalence Property of the Impulse The Sampling Property of the Impulse The Scaling Property of the Impulse The Unit Periodic Impulse or Impulse Train A Coordinated Notation for Singularity Functions The Unit-Rectangle Function 2.4 Combinations of Functions 2.5 Shifting and Scaling Amplitude Scaling Time Shifring Time Scaling Simultaneous Shifiing and Scaling 2.6 Differentiation and Integration 2.7 Even and Odd Signals Combinations of Even and Odd Signals Derivatives and Integrals of Even and Odd Signals 2.8 Periodic Signals 2.9 Signal Energy and Power Signal Energy Signal Power 2.10 Summary of Important Points Exercises Exercises with Answers Signal Functions Shifting and Scaling Derivatives and Integrals of Functions Generalized Derivative Even and Odd Functions Periodic Signals
Signal Energy and Power of Signals Exercises without Answers Signal Functions Scaling and Shifiing Generalized Derivative Derivatives and Integrals of Functions Even and Odd Functions Periodic Functions Signal Energy and Power of Signals Chapter 3 Discrete-Time Signal Description 3.1 Introduction and Goals 3.2 Sampling and Discrete Time 3.3 Sinusoids and Exponentials Sinusoids Exponentials 3.4 Singularity Functions The Unit-Impulse Function The Unit-Sequence Function …… Chapter 4 Description of Systems Chapter 5 Time-Domain System Analysis Chapter 6 Continuous-Time Fourier Methods Chapter 7 Discrete-Time Fourier Methods Chapter 8 The Laplace Transform Chapter 9 The z Transform Chapter 10 Sampling and Signal Processing Chapter 11 Frequency Response Analysis Chapter 12 Laplace System Analysis Chapter 13 z-Transform System Analysis Chapter 14 Filter Analysis and Design Chapter 15 Communication System Analysis Chapter 16 State-Space Analysis Appendix Ⅰ Useful Mathematical Relations Appendix Ⅱ Continuous-Time Fourier Series Pairs Appendix Ⅲ Discrete Fourier Transform Pairs Appendix Ⅳ Continuous-Time Fourier Transform Pairs Appendix Ⅴ Discrete-Time Fourier Transform Pairs Appendix Ⅵ Tables of Laplace Transform Pairs Appendix Ⅶ z-Transform Pairs Bibliography Index
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