Издательство McGraw-Hill, 2006, -991 pp.
Классический учебник по цифровой обработке сигналов. Для студентов и аспирантов. Особенность изложения – отсутствие противопоставления обработки непрерывных и дискретных сигналов.
Introduction to Digital Signal Processing.
The Fourier Series and Fourier Transform.
The z Transform.
Discrete-Time Systems.
The Application of the z Transform.
The Sampling Process.
The Discrete Fourier Transform.
Realization of Digital Filters.
Design of Nonrecursive (FIR) Filters.
Approximations for Analog Filters.
Design of Recursive (IIR) Filters.
Recursive (IIR) Filters Satisfying Prescribed Specifications.
Random Signals.
Effects of FiniteWord Length in Digital Filters.
Design of Nonrecursive Filters Using Optimization Methods.
Design of Recursive Filters Using Optimization Methods.
Wave Digital Filters.
Digital Signal Processing Applications.
Appendix A. Complex Analysis.
Appendix B. Elliptic Functions.
Классический учебник по цифровой обработке сигналов. Для студентов и аспирантов. Особенность изложения – отсутствие противопоставления обработки непрерывных и дискретных сигналов.
Introduction to Digital Signal Processing.
The Fourier Series and Fourier Transform.
The z Transform.
Discrete-Time Systems.
The Application of the z Transform.
The Sampling Process.
The Discrete Fourier Transform.
Realization of Digital Filters.
Design of Nonrecursive (FIR) Filters.
Approximations for Analog Filters.
Design of Recursive (IIR) Filters.
Recursive (IIR) Filters Satisfying Prescribed Specifications.
Random Signals.
Effects of FiniteWord Length in Digital Filters.
Design of Nonrecursive Filters Using Optimization Methods.
Design of Recursive Filters Using Optimization Methods.
Wave Digital Filters.
Digital Signal Processing Applications.
Appendix A. Complex Analysis.
Appendix B. Elliptic Functions.