Title :
Optimal quantization of LSP parameters
Author :
Soong, Frank K. ; Juang, Biing-hwang
Author_Institution :
AT&T Bell Lab., Murray Hill, NJ, USA
fDate :
1/1/1993 12:00:00 AM
Abstract :
Two nonuniform aspects of the line spectrum pair (LSP) linear predictive coding (LPC) parameters are investigated, including nonuniform statistical distributions and spectral sensitivities of adjacent LSP frequency differences. Based upon these two nonuniform properties, a globally optimal scalar quantizer is designed for each differential LSP frequency. The design algorithm is dynamic programming based and minimization of a nontrivial data dependent spectral distortion is adopted as the optimality criterion. At 32 bits/frame, the new LSP quantizer achieves a 1-dB average log spectral distortion, a commonly accepted level for reproducing perceptually transparent spectral information. The quantization performance has also been shown to be robust across different speakers and databases
Keywords :
linear predictive coding; optimisation; speech coding; vector quantisation; 32 bit; LPC parameters; LSP frequency differences; LSP parameters; LSP quantizer; average log spectral distortion; data dependent spectral distortion; databases; design algorithm; dynamic programming; globally optimal scalar quantizer; line spectrum pair; linear predictive coding; minimization; nonuniform properties; nonuniform statistical distributions; optimal quantisation; quantization performance; speakers; spectral sensitivities; Algorithm design and analysis; Databases; Dynamic programming; Frequency; Heuristic algorithms; Linear predictive coding; Minimization methods; Quantization; Robustness; Statistical distributions;
Journal_Title :
Speech and Audio Processing, IEEE Transactions on
