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Digital signal processing : a computer-based approach / Sanjit K. Mitra.
LIBRA TK5102.9 .M57 2001
Available from offsite location
- Format:
- Book
- Author/Creator:
- Mitra, Sanjit Kumar
- Language:
- English
- Subjects (All):
- Signal processing--Digital techniques--Data processing.
- Signal processing.
- MATLAB.
- Physical Description:
- xviii, 866 pages : illustrations ; 24 cm
- Edition:
- Second edition.
- Place of Publication:
- Boston : McGraw-Hill/Irwin, 2001.
- Summary:
- -- More than any other resource, this example-packed, applications-driven text makes extensive use of MATLAB programs to illustrate theory and design of digital signal processing-- New to this edition: sections on Finite-Dimensional LTI Discrete-Time Systems; Correlation of Signals; Phase and Group Delays; and greater coverage of FIR filters and spectral analysis of random signals-- Features a concluding chapter on applications, which are easy to use and require no special knowledge of advanced courses
- Contents:
- 1 Signals and Signal Processing 1
- 1.1 Characterization and Classification of Signals 1
- 1.2 Typical Signal Processing Operations 3
- 1.3 Examples of Typical Signals 12
- 1.4 Typical Signal Processing Applications 22
- 1.5 Why Digital Signal Processing? 37
- 2 Discrete-Time Signals and Systems in the Time-Domain 41
- 2.1 Discrete-Time Signals 42
- 2.2 Typical Sequences and Sequence Representation 53
- 2.3 The Sampling Process 60
- 2.4 Discrete-Time Systems 63
- 2.5 Time-Domain Characterization of LTI Discrete-Time Systems 71
- 2.6 Finite-Dimensional LTI Discrete-Time Systems 80
- 2.7 Correlation of Signals 88
- 2.8 Random Signals 94
- 3 Discrete-Time Signals in the Transform-Domain 117
- 3.1 The Discrete-Time Fourier Transform 117
- 3.2 The Discrete Fourier Transform 131
- 3.3 Relation between the DTFT and the DFT, and Their Inverses 137
- 3.4 Discrete Fourier Transform Properties 140
- 3.5 Computation of the DFT of Real Sequences 146
- 3.6 Linear Convolution Using the DFT 149
- 3.7 The z-Transform 155
- 3.8 Region of Convergence of a Rational z-Transform 159
- 3.9 Inverse z-Transform 167
- 3.10 z-Transform Properties 173
- 3.11 Transform-Domain Representations of Random Signals 176
- 4 LTI Discrete-Time Systems in the Transform-Domain 203
- 4.1 Finite-Dimensional Discrete-Time Systems 203
- 4.2 The Frequency Response 204
- 4.3 The Transfer Function 215
- 4.4 Types of Transfer Functions 222
- 4.5 Simple Digital Filters 234
- 4.6 Allpass Transfer Function 243
- 4.7 Minimum-Phase and Maximum-Phase Transfer Functions 246
- 4.8 Complementary Transfer Functions 248
- 4.9 Inverse Systems 253
- 4.10 System Identification 256
- 4.11 Digital Two-Pairs 259
- 4.12 Algebraic Stability Test 261
- 4.13 Discrete-Time Processing of Random Signals 267
- 4.14 Matched Filter 272
- 5 Digital Processing of Continuous-Time Signals 299
- 5.2 Sampling of Continuous-Time Signals 300
- 5.3 Sampling of Bandpass Signals 310
- 5.4 Analog Lowpass Filter Design 313
- 5.5 Design of Analog Highpass, Bandpass, and Bandstop Filters 329
- 5.6 Anti-Aliasing Filter Design 335
- 5.7 Sample-and-Hold Circuit 337
- 5.8 Analog-to-Digital Converter 338
- 5.9 Digital-to-Analog Converter 344
- 5.10 Reconstruction Filter Design 348
- 5.11 Effect of Sample-and-Hold Operation 351
- 6 Digital Filter Structures 359
- 6.1 Block Diagram Representation 359
- 6.2 Equivalent Structures 363
- 6.3 Basic FIR Digital Filter Structures 364
- 6.4 Basic IIR Digital Filter Structures 368
- 6.5 Realization of Basic Structures Using Matlab 374
- 6.6 Allpass Filters 378
- 6.7 Tunable IIR Digital Filters 387
- 6.8 IIR Tapped Cascaded Lattice Structures 389
- 6.9 FIR Cascaded Lattice Structures 395
- 6.10 Parallel Allpass Realization of IIR Transfer Functions 401
- 6.11 Digital Sine-Cosine Generator 405
- 6.12 Computational Complexity of Digital Filter Structures 408
- 7 Digital Filter Design 423
- 7.1 Preliminary Considerations 423
- 7.2 Bilinear Transformation Method of IIR Filter Design 430
- 7.3 Design of Lowpass IIR Digital Filters 435
- 7.4 Design of Highpass, Bandpass, and Bandstop IIR Digital Filters 437
- 7.5 Spectral Transformations of IIR Filters 441
- 7.6 FIR Filter Design Based on Windowed Fourier Series 446
- 7.7 Computer-Aided Design of Digital Filters 460
- 7.8 Design of FIR Digital Filters with Least-Mean-Square Error 468
- 7.9 Constrained Least-Square Design of FIR Digital Filters 469
- 7.10 Digital Filter Design Using Matlab 472
- 7.13 Matlab Exercises 510
- 8 DSP Algorithm Implementation 515
- 8.1 Basic Issues 515
- 8.2 Structure Simulation and Verification Using Matlab 523
- 8.3 Computation of the Discrete Fourier Transform 535
- 8.4 Number Representation 552
- 8.5 Arithmetic Operations 556
- 8.6 Handling of Overflow 562
- 8.7 Tunable Digital Filters 562
- 8.8 Function Approximation 568
- 9 Analysis of Finite Wordlength Effects 583
- 9.1 The Quantization Process and Errors 584
- 9.2 Quantization of Fixed-Point Numbers 585
- 9.3 Quantization of Floating-Point Numbers 587
- 9.4 Analysis of Coefficient Quantization Effects 588
- 9.5 A/D Conversion Noise Analysis 600
- 9.6 Analysis of Arithmetic Round-Off Errors 611
- 9.7 Dynamic Range Scaling 614
- 9.8 Signal-to-Noise Ratio in Low-Order IIR Filters 625
- 9.9 Low-Sensitivity Digital Filters 629
- 9.10 Reduction of Product Round-Off Errors Using Error Feedback 635
- 9.11 Limit Cycles in IIR Digital Filters 639
- 9.12 Round-Off Errors in FFT Algorithms 646
- 10 Multirate Digital Signal Processing 659
- 10.1 The Basic Sample Rate Alteration Devices 660
- 10.2 Filters in Sampling Rate Alteration Systems 671
- 10.3 Multistage Design of Decimator and Interpolator 680
- 10.4 The Polyphase Decomposition 684
- 10.5 Arbitrary-Rate Sampling Rate Converter 690
- 10.6 Digital Filter Banks 696
- 10.7 Nyquist Filters 700
- 10.8 Two-Channel Quadrature-Mirror Filter Bank 705
- 10.9 Perfect Reconstruction Two-Channel FIR Filter Banks 714
- 10.10 L-Channel QMF Banks 722
- 10.11 Cosine-Modulated L-Channel Filter Banks 730
- 10.12 Multilevel Filter Banks 734
- 11 Applications of Digital Signal Processing 753
- 11.1 Dual-Tone Multifrequency Signal Detection 753
- 11.2 Spectral Analysis of Sinusoidal Signals 758
- 11.3 Spectral Analysis of Nonstationary Signals 764
- 11.4 Spectral Analysis of Random Signals 771
- 11.5 Musical Sound Processing 780
- 11.6 Digital FM Stereo Generation 790
- 11.7 Discrete-Time Analytic Signal Generation 794
- 11.8 Subband Coding of Speech and Audio Signals 800
- 11.9 Transmultiplexers 803
- 11.10 Discrete Multitone Transmission of Digital Data 807
- 11.11 Digital Audio Sampling Rate Conversion 811
- 11.12 Oversampling A/D Converter 813
- 11.13 Oversampling D/A Converter 822
- 11.14 Sparse Antenna Array Design 826.
- Notes:
- Includes bibliographical references (pages 837-854) and index.
- Local Notes:
- Acquired for the Penn Libraries with assistance from the Alumni and Friends Memorial Book Fund.
- ISBN:
- 0072321059
- OCLC:
- 44039427
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