Title :
Codage conjoint source-canal stochastique: Application au codage robuste de la parole a bas debit
Author :
Bouzid, Merouane ; Benkherouf, Hichem ; Benzadi, Khaled
Author_Institution :
Lab. Commun. Parlee et Traitement du Signal (LCPTS), Univ. USTHB, Algiers, Algeria
Abstract :
In this paper, we propose a stochastic joint source-channel scheme developed for robust encoding of spectral speech LSF parameters. The system, named LSF-SSCOVQ-CR encoder, is an LSF encoding scheme based on a Reduced Complexity Stochastic Channel Optimized Vector Quantization (SCOVQ-RC) scheme, modified according to the Split VQ (SVQ) concept. For transmissions over noisy channel, we will show first that the SCOVQ-RC encoder presents many advantages over the conventional COVQ. After that, we applied our LSF-SSCOVQ-CR encoder (with weighted distance) for the robust encoding of LSF parameters of the 2.4 Kbits/s MELP speech coder operating over a noisy channel. The simulation results will show that the proposed LSF encoder, incorporated in the MELP, ensure better performances than the original MELP MSVQ of 25 bits/frame; especially when the transmission channel is highly disturbed.
Keywords :
combined source-channel coding; vector quantisation; vocoders; LSF encoding; LSF-SSCOVQ-CR encoder; MELP speech coder; bit rate 2.4 kbit/s; line spectrum frequency; noisy channel; reduced complexity; robust encoding; spectral speech LSF parameters; split VQ concept; stochastic channel optimized vector quantization; stochastic joint source-channel coding; transmission channel; weighted distance; Gold; Irrigation; Robustness; Speech; Speech coding; Vector quantization; Codage source-canal; codage robuste parole; codeur MELP; parametres LSF;
Conference_Titel :
Electrical and Computer Engineering (CCECE), 2011 24th Canadian Conference on
Conference_Location :
Niagara Falls, ON
Print_ISBN :
978-1-4244-9788-1
Electronic_ISBN :
0840-7789
DOI :
10.1109/CCECE.2011.6030510
