Title :
Vector quantization of speech line spectrum pair parameters and reflection coefficients
Author :
Pan, Jianping ; Fischer, Thomas R.
Author_Institution :
CommQuest Technol. Inc., Encinitas, CA, USA
fDate :
3/1/1998 12:00:00 AM
Abstract :
Methods are presented for intraframe encoding of line spectrum pairs. A two-stage vector quantizer-lattice vector quantizer (VQ-LVQ) has a 2-3 b/vector performance advantage over the split vector quantizer, and can save 1-3 b/vector, compared to multistage vector quantization, depending on the number of stages and the number of survivors retained at each stage. The vector quantizer-lattice vector quantizer has a moderate computational complexity. Among three trellis codes considered, trellis-coded vector quantization with nonlinear prediction provides line spectrum pair encoding performance similar to the split vector quantizer. Hybrid transformations are developed for encoding the reflection coefficients using vector quantization, and offer a small encoding advantage over the commonly used arcsine transformation and log area ratios
Keywords :
computational complexity; lattice theory; linear predictive coding; spectral analysis; speech coding; trellis codes; vector quantisation; computational complexity; hybrid transformations; intraframe encoding; line spectrum pair encoding; line spectrum pairs; nonlinear prediction; performance; reflection coefficients; speech line spectrum pair parameters; survivor numbers; trellis codes; two-stage vector quantizer-lattice vector quantizer; Acoustic distortion; Bandwidth; Distortion measurement; Encoding; Frequency measurement; Linear predictive coding; Polynomials; Reflection; Speech coding; Vector quantization;
Journal_Title :
Speech and Audio Processing, IEEE Transactions on
