数字信号处理:理论及实践DIGITAL SIGNAL PROCESSING
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作者: D. Sundararajan 著
出 版 社: Penguin
出版时间: 2003-12-1字数:版次: 1页数: 278印刷时间: 2003/01/01开本:印次: 1纸张: 胶版纸I S B N : 9789812382160包装: 精装内容简介
This concise and clear text is intended for a senior undergraduate and graduate level, one-semester course on digital signal processing. Emphasis on the use of the discrete Fourier transform (the heart of practical digital signal processing) and comprehensive coverage of the design of commonly used digital filters are the key features of the book. The large number of visual aids such as figures, flow graphs, and tables makes the mathematical topic easy to learn. The numerous examples and the set of Matlab programs (a supplement to the book) for the design of optimal equiripple FIR digital filters help greatly in understanding the theory and algorithms.
Solution Manual to the questions (as a separate volume) is available to instructors or lecturers.
目录
Preface
Chapter 1 Introduction
1.1 The Organization of this Book
Chapter 2 Discrete Signals
2.1 Signal Classifications
2.2 Basic Signals
2.3 Signal Operations
2.4 Summary
Chapter 3 Time-Domain Analysis of LTI Discrete Systems
3.1 Linear Time-Invariant Discrete Systems
3.2 Difference Equation Model
3.3 Convolution-Summation Model
3.4 System Response
3.5 System Stability
3.6 Computational Structures for Discrete Systems
3.7 Summary
Chapter 4 The Discrete Fourier Transform
4.1 The Fourier Series
4.2 The Discrete Fourier Transform
4.3 Properties of the DFT
4.4 Summary
Chapter 5 The Discrete-Time Fourier Transform
5.1 The Discrete-Time Fourier Transform
5.2 Fundamentals of FIR Filter Design Using the DTFT
5.3 Approximation of the DTFT by the DFT
5.4 Summary
Chapter 6 The z-Transform
6.1 The DFT and the z-Transform
6.2 The z-Transform
6.3 Properties of the z-Transform
6.4 The Inverse z-Transform
6.5 Summary
Chapter 7 Frequency-Domain Analysis of Discrete Systems
7.1 Transfer Function Model
7.2 Frequency Response
7.3 System Stability
7.4 Computing the Steady-State Response Using the DFT
7.5 Summary
Chapter 8 Digital Filters-Characterization and Realization
8.1 Characterization
8.2 Realization
8.3 Summary
Chapter 9 Linear-Phase FIR Filters-I
9.1 Linear Phase Response
9.2 Linear-Phase FIR Filter Design Using the DTFT
9.3 Implementation of FIR Filters Using Fast Convolution
9.4 Summary
Chapter 10 Linear-Phase FIR Filters-II
10.1 Optimum Equiripple Linear-Phase FIR Filter Design
10.2 Some Special Applications of FIR Filters
10.3 Summary
Chapter 11 IIR Filters
Chapter 12 COmputation of the DFT
Chapter 13 Quantization Effects
Appendix A Analog Filter Design
Appendix B Sampling and Reconstruction of Signals
Solutions to Selected Exercises
Index
