發表於2024-11-13
書名:數字信號處理(第二版)(英文版)
:38.00元
售價:25.8元,便宜12.2元,摺扣67
作者:(美)萊昂斯 ,張建華,許曉東,孫鬆林 改編
齣版社:電子工業齣版社
齣版日期:2010-07-01
ISBN:9787121111259
字數:
頁碼:
版次:1
裝幀:平裝
開本:16開
商品重量:0.400kg
本書在Richard G.Lyons所著Understanding Digital Signal Processing,Second Edition的基礎上進行瞭改編,針對通信類學校本科教學大綱,刪除瞭教學中一般不涉及的內容,調整瞭章節順序,並增加瞭z反變換、濾波器結構、綫性相位FIR濾波器和其結構、模擬濾波器簡介的內容,使教內容材更加完整。全書在概述瞭離散序列和係統的定義和實例之後,詳細討論瞭離散係統的特性、信號的離散化和離散捲積、z變換、離散時間傅裏葉變換和離散傅裏葉變換、快速傅裏葉變換、數字濾波器結構、以及有限和無限脈衝響應數字濾波器的設計等基本概念和基本理論。書中涉及的數學知識以簡明形式給齣,深入淺齣,易於理解。本書每章都增加瞭例題、習題和MATLAB例題,以便加強對每章內容的理解和掌握。
本書可作為理工類大專院校電子、計算機、通信等專業的本科生雙語教學教材,對於DSP領域的工程技術人員也有很好的參考價值。
Chapter 1 Discrete Sequences and Systems 1
1.1 Discrete Sequences and Their Notation 1
1.1.1 Discrete-time Signals 2
1.1.2 Frequently Used Discrete Sequences 7
1.2 Signal Amplitude, Magnitude, Power 9
1.3 Signal Processing Operational Symbols 10
1.4 Introduction to Discrete Linear Time-Invariant Systems 12
1.5 Discrete Linear Systems 12
1.5.1 Example of a Linear System 12
1.5.2 Example of a Nonlinear System 14
1.6 Time-Invariant Systems 16
1.6.1 Example of a Time-Invariant System 16
1.7 The Commutative Property of Linear Time-Invariant Systems 17
1.8 The Causality Property of Linear Time-Invariant Systems 18
1.9 The Stability Property of Linear Time-Invariant Systems 18
1.10 Analyzing Linear Time-Invariant Systems 19
1.11 Problems 20
1.12 MATLAB Applications 22
1.12.1 Applications 22
1.12.2 Examples 23
1.12.3 Exercises 24
Chapter 2 Periodic Sampling 25
2.1 Aliasing: Signal Ambiguity in the Frequency Domain 25
2.2 Sampling Low-Pass Signals 29
2.3 A Generic Description of Discrete Convolution 32
2.3.1 Discrete Convolution in the Time Domain 33
2.3.2 The Convolution Theorem 36
2.3.3 Applying the Convolution Theorem 39
2.4 Problems 42
2.5 Matlab Applications 43
2.5.1 Applications 43
2.5.2 Examples 44
2.5.3 Exercises 46
Chapter 3 Z-Transform 47
3.1 The z-Transform 47
3.1.1 Poles and Zeros on the z-Plane and Stability 49
3.1.2 The ROC of z-Transform 50
3.1.3 The Properties of z-Transform 53
3.2 The Inverse z-Transform 55
3.2.1 General Expression of Inverse z-Transform 55
3.2.2 Inverse z-Transform by Partial-Fraction Expansion 58
3.3 Problems 61
3.4 MATLAB Applications 63
3.4.1 Applications 63
3.4.2 Examples 64
3.4.3 Exercises 67
Chapter 4 The Discrete Fourier Transform 68
4.1 Interpreting the DFT 69
4.2 Understanding the DFT Equation 71
4.2.1 DFT Example 1 74
4.3 DFT Properties 81
4.3.1 DFT Symmetry 81
4.3.2 DFT Linearity 83
4.3.3 DFT Magnitudes 83
4.3.4 DFT Frequency Axis 84
4.3.5 DFT Shifting Theorem 85
4.4 Inverse DFT 87
4.5 DFT Leakage 88
4.6 Windows 94
4.7 DFT Resolution, Zero Padding, and Frequency-Domain Sampling 101
4.8 Frequency Response 104
4.9 Problems 106
4.10 Matlab Applications 107
4.10.1 Applications 107
4.10.2 Examples 108
4.10.3 Exercises 111
Chapter 5 The Fast Fourier Transform 112
5.1 Relationship of the FFT to the DFT 112
5.2 FFT Alogrithm 113
5.3 Derivation of the Radix-2 FFT Algorithm 114
5.4 FFT Input/Output Data Index Bit Reversal 120
5.5 Radix-2 FFT Butterfly Structures 121
5.6 Efficiently Performing the FFT of Real Sequences 127
5.6.1 Performing Two N-Point Real FFTs 127
5.6.2 Performing a 2N-Point Real FFT 133
5.7 Discrete Convolution using FFT 137
5.7.1 Overlap-added 138
5.7.2 Overlap-saved 138
5.8 IFFT Algorithm 140
5.9 Problems 143
5.10 Matlab Applications 144
5.10.1 Applications 144
5.10.2 Examples 144
5.10.3 Exercises 146
Chapter 6 Filter Structure 147
6.1 Block Structure 147
6.2 Mason and Transpose Theorem 149
6.2.1 Mason s Rule 149
6.2.2 Transpose Theorem 150
6.3 Example of Filter Structures 151
6.3.1 IIR Filter Structure 151
6.3.2 FIR Direct Structure 158
6.3.3 FIR Cascade Structure 158
6.4 Problems 159
6.5 Matlab Applications 162
6.5.1 Applications 162
6.5.2 Examples 163
6.5.3 Exercises 167
Chapter 7 Finite Impulse Response Filters 168
7.1 An Introduction to Finite Impulse Response (FIR) Filters 169
7.2 Properties of FIR Filters 172
7.2.1 Convolution in FIR Filters 172
7.2.2 Linear phase FIR Filter 181
7.2.3 Linear Phase FIR Filter Structure 188
7.2.4 FIR Filter Poles and Zeros 194
7.3 Low-Pass FIR Filter Design 196
7.3.1 Window Design Method 197
7.3.2 Windows Used in FIR Filter Design 204
7.3.3 Examples to Design Linear Phase Low-Pass FIR Filter 210
7.4 Examples to Design Other Types Linear Phase FIR Filter 215
7.5 Problems 220
7.6 Matlab Exercises 223
7.6.1 Applications 223
7.6.2 Examples 223
7.6.3 Exercises 224
Chapter 8 Infinite Impulse Response Filters 226
8.1 An Introduction to Infinite Impulse Response Filters 227
8.2 The Laplace Transform 229
8.2.1 Poles and Zeros on the s-Plane and Stability 234
8.3 Analog Low-Pass Filters 239
8.3.1 Introduction 240
8.3.2 Approximation of analog filter characteristics 240
8.3.3 Butterworth Approximation 242
8.3.4 Chebyshev Approximation 247
8.4 Impulse Invariance IIR Filter Design Method 253
8.4.1 Impulse Invariance Design Method 1 Example 258
8.4.2 Impulse Invariance Design Method 2 Example 260
8.5 Bilinear Transform IIR Filter Design Method 266
8.5.1 Bilinear Transform Design Example 271
8.6 Low-Pass IIR Filter Design 274
8.6.1 Example of Low-Pass IIR Digital Filter Design 274
8.6.2 a Brief Comparison of IIR and FIR Filters 277
8.7 Other Types IIR Filter Design 278
8.8 Problems 284
8.9 Matlab Exercises 286
8.9.1 Functions of IIR Design 286
8.9.2 Examples 287
8.9.3 Exercises 288
張建華 女,博士,北京郵電大學崗位特聘教授。2002年被選送到德國漢堡—哈堡科技大學深造半年,從2005年開始從事數字信號處理課程的雙語教學工作,2008年受國傢留學基金委支持前往韓國訪問學習半年。先後主持和參加瞭10餘個國傢自然科學基金、國傢863計劃重點項目、國傢科技
數字信號處理(第二版)(英文版) 9787121111259 下載 mobi pdf epub txt 電子書 格式 2024
數字信號處理(第二版)(英文版) 9787121111259 下載 mobi epub pdf 電子書數字信號處理(第二版)(英文版) 9787121111259 mobi epub pdf txt 電子書 格式下載 2024