Title :
Spectral envelope quantization with noise robustness
Author :
Kim, Moo Young ; Kim, Hong Kook ; Cho, Yong Duk ; Kim, Sang Ryong
Author_Institution :
Human & Comput. Interaction Lab., Samsung Adv. Inst. of Sci. & Technol., Kyungki, South Korea
Abstract :
To represent the spectral envelope, the LSF (line spectrum frequencies) can be used for its good properties in quantization. The interframe correlation of the LSF improves the performance of static quantization, but it is sensitive to channel errors. The proposed quantizer, noise robust-switched prediction-linked split vector quantizer (NR-SP-LSVQ), combines switched prediction with three static and a predictive quantizers. It limits the propagation of channel errors in a few frames by switching to the static ones. Moreover, each of the static ones is designed for the robustness against background noise, while the predictive one is for the steady region of speech. It increases the performance in noise corrupted as well as clean speech
Keywords :
coding errors; correlation methods; noise; prediction theory; spectral analysis; speech coding; speech processing; vector quantisation; LSF; NR-SP-LSVQ; background noise; channel errors; clean speech; interframe correlation; line spectrum frequencies; linked split vector quantizer; noise corrupted speech; noise robust-switched prediction quantizer; noise robustness; spectral envelope quantization; static quantization; steady region; Background noise; Cities and towns; Frequency; Humans; Linear predictive coding; Noise robustness; Predictive coding; Predictive models; Quantization; Speech enhancement;
Conference_Titel :
Speech Coding For Telecommunications Proceeding, 1997, 1997 IEEE Workshop on
Conference_Location :
Pocono Manor, PA
Print_ISBN :
0-7803-4073-6
DOI :
10.1109/SCFT.1997.623904
