Asynchronous Slepian-Wolf code design
ISIT(2009)
摘要
We consider asynchronous Slepian-Wolf coding where the two encoders may not have completely accurate timing information to synchronize their individual block code boundaries, and propose LDPC code design in this scenario. A new information-theoretic coding scheme based on source splitting is provided, which can achieve the entire asynchronous Slepian-Wolf rate region. Unlike existing methods based on source splitting, the proposed scheme does not require common randomness at the encoder and the decoder, or constructing super-letter from several individual symbols. Furthermore, we show that linear codes are sufficient for each coding step of this scheme. We subsequently design LDPC codes based on this new scheme, by applying the recently discovered source-channel code correspondence. Experimental results validate the effectiveness of the proposed method.
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关键词
information-theoretic coding,new scheme,source splitting,block code boundaries,channel coding,block codes,ldpc code design,coding step,information theory,linear code,source-channel code correspondence,source coding,proposed scheme,entire asynchronous slepian-wolf rate,timing information,source-channel code,ldpc code,parity check codes,individual block code boundary,asynchronous slepian-wolf code design,asynchronous slepian-wolf code,face,error probability,encoding,decoding,data mining
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