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Fountain code design for data multicast with side information

Abstract:
Fountain codes are a robust solution for data multicasting to a large number of receivers which experience variable channel conditions and different packet loss rates. However, the standard fountain code design becomes inefficient if all receivers have access to some side information correlated with the source information. We focus our attention on the cases where the correlation of the source and side information can be modelled by a binary erasure channel (BEC) or by a binary input additive white Gaussian noise channel (BIAWGNC). We analyse the performance of fountain codes in data multicasting with side information for these cases, derive bounds on their performance and provide a fast and robust linear programming optimization framework for code parameters. We demonstrate that systematic Raptor code design can be employed as a possible solution to the problem at the cost of higher encoding/decoding complexity, as it reduces the side information scenario to a channel coding problem. However, our results also indicate that a simpler solution, non-systematic LT and Raptor codes, can be designed to perform close to the information theoretic bounds. © 2009 IEEE.

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Publisher copy:
10.1109/TWC.2009.081076

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Journal:
IEEE Transactions on Wireless Communications More from this journal
Volume:
8
Issue:
10
Pages:
5155-5165
Publication date:
2009-10-01
DOI:
ISSN:
1536-1276


Language:
English
Keywords:
Pubs id:
pubs:487764
UUID:
uuid:16198b5d-5a86-42bc-89d6-49add61363b9
Local pid:
pubs:487764
Source identifiers:
487764
Deposit date:
2014-11-11
ARK identifier:

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