Modeling of streaming and elastic flow integration in OFDMA-based IEEE802.16 WiMAX

Chadi Tarhini; Tijani Chahed

doi:10.1016/j.comcom.2007.07.008

Modeling of streaming and elastic flow integration in OFDMA-based IEEE802.16 WiMAX

Chadi Tarhini
, Tijani Chahed

CNRS UMR 5157 SAMOVAR

Research output: Contribution to journal › Article › peer-review

Abstract

We study in this paper the capacity of the downlink of OFDMA-based IEEE802.16 WiMAX system in the presence of two types of traffic, streaming and elastic. We focus in particular on the impact of Adaptive Modulation and Coding (AMC) as well as inter-cell interference resulting from different frequency reuse schemes. Several performance measures, namely blocking rates, mean transfer time and the mean number of collisions between two OFDMA WiMAX cells, are then derived and quantified. We show that reuse partitioning results in a higher blocking rate at the appreciable gain in terms of lower mean transfer time for users close to the base station as well as a lower number of collisions which implies a higher throughput.

Original language	English
Pages (from-to)	3644-3651
Number of pages	8
Journal	Computer Communications
Volume	30
Issue number	18
DOIs	https://doi.org/10.1016/j.comcom.2007.07.008
Publication status	Published - 10 Dec 2007

Keywords

AMC
Capacity
IEEE802.16
OFDMA
Reuse partitioning
WiMAX

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10.1016/j.comcom.2007.07.008

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abstract = "We study in this paper the capacity of the downlink of OFDMA-based IEEE802.16 WiMAX system in the presence of two types of traffic, streaming and elastic. We focus in particular on the impact of Adaptive Modulation and Coding (AMC) as well as inter-cell interference resulting from different frequency reuse schemes. Several performance measures, namely blocking rates, mean transfer time and the mean number of collisions between two OFDMA WiMAX cells, are then derived and quantified. We show that reuse partitioning results in a higher blocking rate at the appreciable gain in terms of lower mean transfer time for users close to the base station as well as a lower number of collisions which implies a higher throughput.",

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N2 - We study in this paper the capacity of the downlink of OFDMA-based IEEE802.16 WiMAX system in the presence of two types of traffic, streaming and elastic. We focus in particular on the impact of Adaptive Modulation and Coding (AMC) as well as inter-cell interference resulting from different frequency reuse schemes. Several performance measures, namely blocking rates, mean transfer time and the mean number of collisions between two OFDMA WiMAX cells, are then derived and quantified. We show that reuse partitioning results in a higher blocking rate at the appreciable gain in terms of lower mean transfer time for users close to the base station as well as a lower number of collisions which implies a higher throughput.

AB - We study in this paper the capacity of the downlink of OFDMA-based IEEE802.16 WiMAX system in the presence of two types of traffic, streaming and elastic. We focus in particular on the impact of Adaptive Modulation and Coding (AMC) as well as inter-cell interference resulting from different frequency reuse schemes. Several performance measures, namely blocking rates, mean transfer time and the mean number of collisions between two OFDMA WiMAX cells, are then derived and quantified. We show that reuse partitioning results in a higher blocking rate at the appreciable gain in terms of lower mean transfer time for users close to the base station as well as a lower number of collisions which implies a higher throughput.

KW - AMC

KW - Capacity

KW - IEEE802.16

KW - OFDMA

KW - Reuse partitioning

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SP - 3644

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JO - Computer Communications

JF - Computer Communications

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ER -

Modeling of streaming and elastic flow integration in OFDMA-based IEEE802.16 WiMAX

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Keywords

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