Title :
Switched prediction and quantization of LSP frequencies
Author :
Zarrinkoub, H. ; Mermelstein, Paul
Author_Institution :
INRS-Telecommun., Quebec Univ., Nuns´´ Island, Que., Canada
Abstract :
We present new results on switched prediction and quantization of the line spectral frequencies applicable to high-quality coding of speech at rates below 8 kb/s. The predictor-quantizer exploits both the temporal inter-frame correlations among the line-spectral frequency vectors of successive frames as well as the spatial within-frame correlations. Best results are obtained by separately training two split vector quantizers, one on predictable frames and one on non-predictable frames. Line-frequency differences are found to yield the lowest quantization error for both the high and low order quantizers for the non-predictable condition, as well as the low order quantizer of the predictable condition. With 10 ms frame separation, 18 bit split VQs, one for each mode, with 1-bit mode indication yield a mean spectral distortion near 1 dB. With 20 ms frame separation, 20 bit quantizers are required
Keywords :
correlation methods; filtering theory; linear predictive coding; spectral analysis; speech coding; vector quantisation; 10 ms; 18 bit; 20 bit; 20 ms; LPC filter; LSP frequencies; frame separation; high order quantizers; line frequency differences; line spectral frequencies; line spectral frequency vectors; low order quantizers; mean spectral distortion; nonpredictable frames; predictable frames; predictor-quantizer; quantization error; spatial within frame correlations; speech coding; split vector quantizers; switched quantization; temporal interframe correlations; Business; Decoding; Frequency; Linear predictive coding; Nonlinear filters; Resonance; Speech coding; Stability; Vector quantization;
Conference_Titel :
Acoustics, Speech, and Signal Processing, 1996. ICASSP-96. Conference Proceedings., 1996 IEEE International Conference on
Print_ISBN :
0-7803-3192-3
DOI :
10.1109/ICASSP.1996.543231
