Performance of CSMA in multi-channel wireless networks

被引:0
作者
Thomas Bonald
Mathieu Feuillet
机构
[1] Telecom ParisTech,
[2] INRIA Paris-Rocquencourt,undefined
来源
Queueing Systems | 2012年 / 72卷
关键词
Wireless network; Interference graph; CSMA; Flow-level dynamics; Time-scale separation; Stability; 68M20; 68M12; 60J28;
D O I
暂无
中图分类号
学科分类号
摘要
We analyze the performance of CSMA in multi-channel wireless networks, accounting for the random nature of traffic. Specifically, we assess the ability of CSMA to fully utilize the radio resources and in turn to stabilize the network in a dynamic setting with flow arrivals and departures. We prove that CSMA is optimal in the ad-hoc mode, when each flow goes through a unique dedicated wireless link from a transmitter to a receiver. It is generally suboptimal in infrastructure mode, when all data flows originate from or are destined to the same set of access points, due to the inherent bias of CSMA against downlink traffic. We propose a slight modification of CSMA that we refer to as flow-aware CSMA, which corrects this bias and makes the algorithm optimal in all cases. The analysis is based on some time-scale separation assumption which is proved valid in the limit of large flow sizes.
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页码:139 / 160
页数:21
相关论文
共 32 条
  • [1] Barakat C.(2003)Modeling internet backbone traffic at the flow level IEEE Trans. Signal Process. 51 2003-654
  • [2] Thiran P.(2000)Dimensioning bandwidth for elastic traffic in high-speed data networks IEEE/ACM Trans. Netw. 8 643-421
  • [3] Iannaccone G.(2007)Insensitive traffic models for communication networks Discret. Event. Dyn. Syst. 17 405-1229
  • [4] Diot C.(2010)On the stability of flow-aware CSMA Perform. Eval. 67 1219-77
  • [5] Owezarski P.(1995)On positive Harris recurrence of multiclass queueing networks: a unified approach via fluid limit models Ann. Appl. Probab. 5 49-6207
  • [6] Berger A.W.(2010)Distributed random access algorithm: scheduling and congestion control IEEE Trans. Inf. Theory 56 6182-327
  • [7] Kogan Y.(2005)Downlink and uplink resource allocation in IEEE 802.11 wireless LANs IEEE Trans. Veh. Technol. 54 320-201
  • [8] Bonald T.(2000)Bandwidth sharing and admission control for elastic traffic Telecommun. Syst. 15 185-957
  • [9] Bonald T.(1995)Transience of multiclass queueing networks via fluid limit models Ann. Appl. Probab. 5 946-38
  • [10] Feuillet M.(2006)Maximizing throughput in wireless networks via gossiping ACM SIGMETRICS Perform. Eval. Rev. 34 27-171
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