Title: 基於低密度奇偶查核碼的分散式訊源編碼機制
A Study of Low-Density Parity Check Code for Distributed Source Coding
Authors: 王韋超
Wang, Wei-Chao
Chang, Wen-Whei
Keywords: 低密度奇偶查核碼;分散式訊源編碼;Gilbert 通道;疊代訊源通道解碼;low-density parity check (LDPC);distributed source coding (DSC);iterative source-channel decoding (ISCD)
Issue Date: 2012
Abstract: 本論文針對二位元相關訊源,利用低密度奇偶查核碼具體實現Slepian-Wolf理論在分散式訊源編碼的應用。訊源相關模型以兩種虛擬通道模型表示,分別是二位元對稱通道與Gilbert通道。針對訊源編碼輸出的校驗子經由雜訊通道傳輸的問題,我們提出基於渦輪碼原則推導的疊代訊源通道解碼。我們將考慮兩種通道碼,低密度奇偶查核碼應用在分散式訊源編碼的校驗子生成以達到資料壓縮效果,而迴旋碼則用於提昇壓縮資料對抗通道雜訊的能力。模擬結果顯示基於低密度奇偶查核碼的分散式訊源編碼機制,配合疊代訊源通道解碼演算法,可同時兼顧高壓縮率及強健性能。
In this thesis, we study the use of low-density parity check (LDPC) codes for distributed source coding (DSC) of correlated binary sources. The Slepian-Wolf theorem states that there is no less in rate to compress two correlated sources using separate encoding, provided that the decoding is done jointly and the source correlation is available to both the encoder and decoder. Source correlation is modeled by two types of virtual channels: binary symmetric channel (BSC) and Gilbert channel. Also proposed is an iterative source-channel decoding (ISCD) algorithm for dealing with the Slepian-Wolf problem over noisy channel. An outer LDPC code is used to perform DSC, and an inner convolution code is used for enhancing the error protecting capability of the compressed data. Simulation results indicate the combined use of ISCD and LDPC-based DSC can provide error robustness as well as channel efficiency.
Appears in Collections:Thesis

Files in This Item:

  1. 358001.pdf
  2. 358002.pdf