Joint fragment size and transmission rate optimization for basic access mechanism of IEEE 802.11b distributed coordination function

In this paper we theoretically perform joint fragment size and transmission rate optimization for basic access mechanism of IEEE 802.11b distributed coordination function considering both collisions due to system load and frame errors due to non-ideal channel conditions. We have chosen system throug...

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Main Authors: Filin, S.A., Garmonov, A.V., Savinkov, A.Y., Manelis, V.B., Moiseev, S.N., Kondakov, M.S., Seok Ho Cheon, Do Hyon Yim, Ki Tae Han, Yun Sang Park
Format: Conference Proceeding
Language:English
Subjects:
Access protocols
Analytical models
Bit error rate
Media Access Protocol
Optimized production technology
Physical layer
Research and development
System performance
Throughput
Wireless LAN
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creator Filin, S.A.
Garmonov, A.V.
Savinkov, A.Y.
Manelis, V.B.
Moiseev, S.N.
Kondakov, M.S.
Seok Ho Cheon
Do Hyon Yim
Ki Tae Han
Yun Sang Park
description In this paper we theoretically perform joint fragment size and transmission rate optimization for basic access mechanism of IEEE 802.11b distributed coordination function considering both collisions due to system load and frame errors due to non-ideal channel conditions. We have chosen system throughput maximization as the optimization criteria
doi_str_mv 10.1109/ECWT.2005.1617737
format conference_proceeding
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source IEEE Electronic Library (IEL) Conference Proceedings
subjects Access protocols
Analytical models
Bit error rate
Media Access Protocol
Optimized production technology
Physical layer
Research and development
System performance
Throughput
Wireless LAN
title Joint fragment size and transmission rate optimization for basic access mechanism of IEEE 802.11b distributed coordination function
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