TY - JOUR
T1 - Improving wireless link throughput via interleaved FEC
AU - Chen, Ling Jyh
AU - Sun, Tony
AU - Sanadidi, M. Y.
AU - Gerla, Mario
PY - 2004
Y1 - 2004
N2 - Wireless communication is inherently vulnerable to errors from the dynamic wireless environment. Link layer packets discarded due to these errors impose a serious limitation on the maximum achievable throughput in the wireless channel. To enhance the overall throughput of wireless communication, it is necessary to have a link layer transmission scheme that is robust to the errors intrinsic to the wireless channel. To this end, we present Interleaved-Forward Error Correction (I-FEC), a clever link layer coding scheme that protects link layer data against random and busty errors. We examine the level of data protection provided by I-FEC against other popular schemes. We also simulate I-FEC in Bluetooth, and compare the TCP throughput result with Bluetooth's integrated FEC coding feature. We show that I-FEC consistently and significantly outperforms other link layer coding schemes by providing an impressive amount of protection against heavy channel burst errors.
AB - Wireless communication is inherently vulnerable to errors from the dynamic wireless environment. Link layer packets discarded due to these errors impose a serious limitation on the maximum achievable throughput in the wireless channel. To enhance the overall throughput of wireless communication, it is necessary to have a link layer transmission scheme that is robust to the errors intrinsic to the wireless channel. To this end, we present Interleaved-Forward Error Correction (I-FEC), a clever link layer coding scheme that protects link layer data against random and busty errors. We examine the level of data protection provided by I-FEC against other popular schemes. We also simulate I-FEC in Bluetooth, and compare the TCP throughput result with Bluetooth's integrated FEC coding feature. We show that I-FEC consistently and significantly outperforms other link layer coding schemes by providing an impressive amount of protection against heavy channel burst errors.
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M3 - Conference article
AN - SCOPUS:10844279164
SN - 1530-1346
VL - 1
SP - 539
EP - 544
JO - Proceedings - International Symposium on Computers and Communications
JF - Proceedings - International Symposium on Computers and Communications
T2 - Proceedings - ISCC 2004, Ninth International Symposium on Computers and Communications
Y2 - 28 June 2004 through 1 July 2004
ER -