High Capacity VoIP Services in 802.11 Networks

2007 2nd International Symposium on Wireless Pervasive Computing Pub Date : 2007-04-16 DOI:10.1109/ISWPC.2007.342623

Manjari Chhawchharia, Atanu Guchhait

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引用次数: 5

Abstract

IEEE 802.11 employs distributed coordination function (DCF) channel access mechanism which is based on carrier sense multiple access with collision avoidance (CSMA/CA). This standard was primarily designed to support best-effort traffic. Moreover, due to the contention-based approach, the bandwidth utilization is inherently inefficient. Therefore, the number of voice over IP (VoIP) calls which can be supported is severely limited. For example, the G.711 speech codec supports only 8 calls in an 802.11b network. We present a new method to increase VoIP capacity in Wi-Fi networks. This methodology requires no change to the existing DCF. It relies on contention-free channel access to improve the efficiency of bandwidth utilization without requiring the support of standard-based point co-ordination function (PCF). The access point (AP) uses packet aggregation in the downlink and scheduling in the uplink to enhance the throughput. Through mathematical analysis, we find that the proposed mechanism results in about 300% improvement over the baseline model. Using this, the G.711 codec supports 27 calls in 802.11b network

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802.11网络下的大容量VoIP业务

IEEE 802.11采用分布式协调功能(DCF)信道接入机制，该机制基于载波感知多址防碰撞(CSMA/CA)。该标准主要是为了支持尽力而为的流量而设计的。此外，由于基于争用的方法，带宽利用率本身就很低。因此，可以支持的VoIP呼叫数量受到严重限制。例如，G.711语音编解码器在802.11b网络中只支持8个呼叫。提出了一种提高Wi-Fi网络VoIP容量的新方法。这种方法不需要改变现有的现金流。它依靠无争用信道访问来提高带宽利用效率，而不需要支持基于标准的点协调功能(PCF)。AP (access point)通过下行链路的分组聚合和上行链路的调度来提高吞吐量。通过数学分析，我们发现所提出的机制比基线模型改进了约300%。使用它，G.711编解码器在802.11b网络中支持27个呼叫

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2007 2nd International Symposium on Wireless Pervasive Computing

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