Raptor Code-Enabled Reliable Data Transmission for In-Vehicle Power Line Communication Systems With Impulsive Noise

With the rapid development of in-vehicle data transmission systems, the power line communication (PLC) technology is considered as a good alternative due to the reduction of cable harness. However, PLC suffers from severe impulse noise, which hinders the correct reception of data packets, and hence,...

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Published in:IEEE communications letters 2017-10, Vol.21 (10), p.2154-2157
Main Authors: Xu, Zhaopeng, Yang, Chuanchuan, Tan, Zhongwei, Sheng, Zhengguo
Format: Article
Language:English
Subjects:
Data communication
Decoding
Delays
Encoding
impulsive noise
In-vehicle power line communication (PLC)
raptor code
Reliability
Safety
Systematics
traffic class
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description With the rapid development of in-vehicle data transmission systems, the power line communication (PLC) technology is considered as a good alternative due to the reduction of cable harness. However, PLC suffers from severe impulse noise, which hinders the correct reception of data packets, and hence, leads to a poor transmission performance. In this letter, we propose a raptor code-enabled data transmission scheme for different traffic classes in in-vehicle PLC systems. Simulation results show that the proposed scheme is suitable for in-vehicle data transmission and can provide good protection against the impulsive noise, while a considerable reception overhead is needed.
doi_str_mv 10.1109/LCOMM.2017.2712181
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subjects Data communication
Decoding
Delays
Encoding
impulsive noise
In-vehicle power line communication (PLC)
raptor code
Reliability
Safety
Systematics
traffic class
title Raptor Code-Enabled Reliable Data Transmission for In-Vehicle Power Line Communication Systems With Impulsive Noise
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