Title :
Optimal code design for lossless and near lossless source coding in multiple access networks
Author :
Zhao, Qian ; Effros, Michelle
Author_Institution :
Dept. of Electr. Eng., California Inst. of Technol., Pasadena, CA, USA
Abstract :
A multiple access source code (MASC) is a source code designed for the following network configuration: a pair of correlated information sequences {Xi}i=1∞ and {Yi }i=1∞ is drawn i.i.d. according to the joint probability mass function (p.m.f.) p(x,y); the encoder for each source operates without knowledge of the other source; the decoder jointly decodes the encoded bit streams from both sources. The work of Slepian and Wolf (1973) describes all rates achievable by MASCs with arbitrarily small but non-zero error probabilities but does not address truly lossless coding or code design. We consider practical code design for lossless and near lossless MASCs. We generalize the Huffman and arithmetic code design algorithms to attain the corresponding optimal MASC codes for arbitrary p.m.f. p(x,y). Experimental results comparing the optimal achievable rate region to the Slepian-Wolf region are included
Keywords :
Huffman codes; arithmetic codes; multi-access systems; optimisation; probability; source coding; telecommunication networks; Huffman code design algorithms; Slepian-Wolf region; arithmetic code design algorithms; code design; correlated information sequences; decoder; encoded bit streams; joint probability mass function; lossless source coding; matched code design; multiple access networks; multiple access source code; near lossless source coding; network configuration; optimal achievable rate region; optimal code design; Algorithm design and analysis; Arithmetic; Central Processing Unit; Decoding; Error probability; Intelligent networks; Sensor systems; Source coding; Transmitters;
Conference_Titel :
Data Compression Conference, 2001. Proceedings. DCC 2001.
Conference_Location :
Snowbird, UT
Print_ISBN :
0-7695-1031-0
DOI :
10.1109/DCC.2001.917157
