Concatenated channel-and-network coding scheme for two-path successive relay network

Two-path successive relaying (TPSR) is an effective way to reduce the multiplex loss induced by the half-duplex operation of the relay node in a conventional relay network. One crucial issue in TPSR network is that the listening relay always suffers inevitable inter-relay interference (IRI), which d...

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Vydáno v:IET communications Ročník 7; číslo 1; s. 82 - 90
Hlavní autoři: Chen, Shaolei, Zhang, Zhaoyang, Yin, Rui, Chen, Xiaoming, Wang, Wei
Médium: Journal Article
Jazyk:angličtina
Vydáno: Stevenage The Institution of Engineering and Technology 01.01.2013
John Wiley & Sons, Inc
Témata:
channel coding
Channels
code symbols
Coding
Concatenated channel‐and‐network coding scheme
concatenated codes
data recovery
degree distribution
detection performance degradation
diversity reception
forwarding scheme
half‐duplex operation
information transfer analysis
Interference
inter‐relay interference
IRI
multiplex loss reduction
Multiplexing
network coding
network diversity
Networks
physical‐layer network coding
radiofrequency interference
rateless code
Relay
Relay networks
relay networks (telecommunication)
relay node
Relaying
retransmission reduction
system efficiency improvement
TPSR network
two‐path successive relay network
retransmission reduction
IRI
physical-layer network coding
inter-relay interference
channel coding
detection performance degradation
information transfer analysis
radiofrequency interference
relay node
data recovery
half-duplex operation
Concatenated channel-and-network coding scheme
relay networks (telecommunication)
rateless code
network coding
diversity reception
two-path successive relay network
TPSR network
network diversity
multiplex loss reduction
system efficiency improvement
concatenated codes
code symbols
forwarding scheme
multiplexing
degree distribution
ISSN:1751-8628, 1751-8636
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Popis
Shrnutí:Two-path successive relaying (TPSR) is an effective way to reduce the multiplex loss induced by the half-duplex operation of the relay node in a conventional relay network. One crucial issue in TPSR network is that the listening relay always suffers inevitable inter-relay interference (IRI), which degrades detection performance at the destination. In this study, a concatenated channel-and-network coding approach is proposed to solve the problem. In particular, a highly flexible channel code, namely, rateless code, is employed at the source to provide resilience to the residual IRI and reduce the retransmissions, which might break the system steady state of successive relaying. Then recognising the special interference structure, physical-layer network coding is incorporated into the forwarding scheme of the relay nodes to exploit network diversity and improve system efficiency. By extrinsic information transfer analysis, the minimum number of required code symbols for successful data recovery are calculated, and degree distribution of the rateless code is optimised.
Bibliografie:SourceType-Scholarly Journals-1
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ISSN:1751-8628
1751-8636
DOI:10.1049/iet-com.2012.0263