Speech Coding Algorithms
Foundation and Evolution of Standardized Coders
1. Edition May 2003
592 Pages, Hardcover
Wiley & Sons Ltd
Short Description
Speech coding has evolved into a highly matured branch of signal processing, utilized in such products as cellular phones, answering machines, communication devices, and more recently, voice over internet protocol (VoIP). This book collects many of the techniques used in speech coding and presents them in an accessible fashion including coding algorithms and the important details that distinguish one technique from the other.
* Speech coding is a highly mature branch of signal processing deployed in products such as cellular phones, communication devices, and more recently, voice over internet protocol
* This book collects many of the techniques used in speech coding and presents them in an accessible fashion
* Emphasizes the foundation and evolution of standardized speech coders, covering standards from 1984 to the present
* The theory behind the applications is thoroughly analyzed and proved
Acronyms.
Notation.
Introduction.
Signal Processing Techniques.
Stochastic Processes and Models.
Linear Prediction.
Scalar Quantization.
Pulse Code Modulation and Its Variants.
Vector Quantization.
Scalar Quantization of Linear Prediction Coefficient.
Linear Prediction Coding.
Regular-Pulse Excitation Coders.
Code-Excited Linear Prediction.
The Federal Standard Version of CELP.
Vector Sum Excited Linear Prediction.
Low-Delay CELP.
Vector Quantization of Linear Prediction Coefficient.
Algebraic CELP.
Mixed Excitation Linear Prediction.
Source-Controlled Variable Bit-Rate CELP.
Speech Quality Assessment.
Appendix A: Minimum-Phase Property of the Forward Prediction-Error Filter.
Appendix B: Some Properties of Line Spectral Frequency.
Appendix C: Research Directions in Speech Coding.
Appendix D: Linear Combiner for Pattern Classification.
Appendix E: CELP: Optimal Long-Term Predictor to Minimize the Weighted Difference.
Appendix F: Review of Linear Algebra: Orthogonality, Basis, Linear Independence, and the Gram-Schmidt Algorithm.
Bibliography.
Index.