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清华版双语教学用书 数字信号处理 基于计算机的方法 第3版PDF|Epub|txt|kindle电子书版本网盘下载
- 米特拉(SanjitK.Mitra)著 著
- 出版社: 北京:清华大学出版社
- ISBN:9787302138549
- 出版时间:2006
- 标注页数:607页
- 文件大小:320MB
- 文件页数:627页
- 主题词:数字信号-信号处理-高等学校-教材-英文
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图书目录
1 Signals and Signal Processing1
1.1 Characterization and Classification of Signals1
1.2 Typical Signal Processing Operations3
1.3 Examples of Typical Signals12
1.4 Typical Signal Processing Applications21
1.5 Why Digital Signal Processing?36
2 Discrete-Time Signals and Systems41
2.1 Discrete-Time Signals42
2.2 Typical Sequences and Sequence Representation56
2.3 The Sampling Process64
2.4 Discrete-Time Systems67
2.5 Time-Domain Characterization of LTI Discrete-Time Systems78
2.6 Simple Interconnection Schemes87
2.7 Finite-Dimensional LTI Discrete-Time Systems90
2.8 Classification of LTI Discrete-Time Systems100
2.9 Correlation of Signals102
2.10 Random Signals106
2.11 Summary107
2.12 Problems107
2.13 MATLAB Exercises115
3 Discrete-Time Fourier Transform117
3.1 The Continuous-Time Fourier Transform117
3.2 The Discrete-Time Fourier Transform122
3.3 Discrete-Time Fourier Transform Theorems136
3.4 Energy Density Spectrum of a Discrete-Time Sequence141
3.5 Band-Limited Discrete-Time Signals143
3.6 DTFT Computation Using MATLAB143
3.7 The Unwrapped Phase Function145
3.8 The Frequency Response of an LTI Discrete-Time System146
3.9 Phase and Group Delays156
3.10 Summary160
3.11 Problems160
3.12 MATLAB Exercises170
4 Digital Processing of Continuous-Time Signals171
4.1 Introduction171
4.2 Sampling of Continuous-Time Signals172
4.3 Sampling of Bandpass Signals184
4.4 Analog Lowpass Filter Design187
4.5 Design of Analog Highpass,Bandpass,and Bandstop Filters202
4.6 Anti-Aliasing Filter Design209
4.7 Sample-and-Hold Circuit211
4.8 Analog-to-Digital Converter212
4.9 Digital-to-Analog Converter217
4.10 Reconstruction Filter Design221
4.11 Effect of Sample-and-Hold Operation224
4.12 Summary226
4.13 Problems226
4.14 MATLAB Exercises231
5 Finite-Length Discrete Transforms233
5.1 Orthogonal Transforms233
5.2 The Discrete Fourier Transform234
5.3 Relation Between the Fourier Transform and the DFT,and Their Inverses240
5.4 Operations on Finite-Length Sequences244
5.5 Classifications of Finite-Length Sequences251
5.6 DFT Symmetry Relations256
5.7 Discrete Fourier Transform Theorems259
5.8 Fourier-Domain Filtering264
5.9 Computation of the DFT of Real Sequences266
5.10 Linear Convolution using the DFT268
5.11 Discrete Cosine Transform274
5.12 The Haar Transform283
5.13 Energy Compaction Properties286
5.14 Summary288
5.15 Problems289
5.16 MATLAB Exercises298
6 z-Transform301
6.1 Definition and Properties301
6.2 Rational z-Transforms305
6.3 Region of Convergence of a Rational z-Transform307
6.4 The Inverse z-Transform312
6.5 z-Transform Properties320
6.6 Computation of the Convolution Sum of Finite-Length Sequences329
6.7 The Transfer Function332
6.8 Summary343
6.9 Problems343
6.10 MATLAB Exercises351
7 LTI Discrete-Time Systems in the Transform Domain353
7.1 Transfer Function Classification Based on Magnitude Characteristics353
7.2 Transfer Function Classification Based on Phase Characteristics361
7.3 Types of linear-Phase Transfer Functions368
7.4 Simple Digital Filters378
7.5 Complementary Transfer Functions391
7.6 Inverse Systems396
7.7 System Identification401
7.8 Digital Two-Pairs403
7.9 Algebraic Stability Test406
7.10 Summary411
7.11 Problems411
7.12 MATLAB Exercises424
8 Digital Filter Structures427
8.1 Block Diagram Representation427
8.2 Equivalent Structures430
8.3 Basic FIR Digital Filter Structures432
8.4 Basic IIR Digital Filter Structures437
8.5 Realization of Basic Structures Using MATLAB443
8.6 Allpass Filters445
8.7 Tunable IIR Digital Filters454
8.8 IIR Tapped Cascaded Lattice Structures456
8.9 FIR Cascaded Lattice Structures461
8.10 Parallel Allpass Realization of IIR Transfer Functions467
8.11 Digital Sine-Cosine Generator473
8.12 Computational Complexity of Digital Filter Structures475
8.13 Summary477
8.14 Problems477
8.15 MATLAB Exercises487
9 IIR Digital Filter Design489
9.1 Preliminary Considerations489
9.2 Bilinear Transformation Method of IIR Filter Design494
9.3 Design ofLowpass IIR Digital Filters499
9.4 Design of Highpass,Bandpass,and Bandstop IIR Digital Filters500
9.5 Spectral Transformations of IIR Filters505
9.6 IIR Digital Filter Design Using MATLAB511
9.7 Computer-Aided Design of IIR Digital Filters514
9.8 Summary516
9.9 Problems516
9.10 MATLAB Exercises521
10 FIR Digital Filter Design523
10.1 Preliminary Considerations523
10.2 FIR Filter Design Based on Windowed Fourier Series527
10.3 Computer-Aided Design of Equiripple Linear-Phase FIR Filters541
10.4 Design of Minimum-Phase FIR Filters549
10.5 FIR Digital Filter Design Using MATLAB551
10.6 Design of Computationally Efficient FIR Digital Filters566
10.7 Summary576
10.8 Problems578
10.9 MATLAB Exercises584
Bibliography589