Self-restraint Admission Control for adhoc WLANs

Hushairi Zen, D. Habibi, I. Ahmad
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引用次数: 5

Abstract

Admission control is an important mechanism for sustaining throughput and supporting quality of service (QoS) for real-time traffic in a wireless local area network (WLAN). In an adhoc WLAN scenario where no access point (AP) is available, admission control has to be self-managed by each node. We propose a self-restraining admission control mechanism that works by monitoring the congestion level of the network in the adhoc WLAN. Wireless nodes can listen to all nodes within their range and be aware of the collision rates. A node wishing to join the network measures the current collision rate, and predicts the post-admission collision rate, on the basis of which the self-restraining mechanism in the node decides if it can join the network. We analyse the impact of key parameters, such as the collision threshold level, on the performance of the self-restraining mechanism and show that this mechanism works effectively in sustaining traffic in an adhoc WLAN.
自适应无线局域网的自我约束准入控制
在无线局域网(WLAN)中,准入控制是维持吞吐量和支持实时流量的服务质量(QoS)的重要机制。在没有接入点(AP)可用的临时WLAN场景中,每个节点必须自我管理准入控制。我们提出了一种自我约束的准入控制机制,该机制通过监测无线局域网中的网络拥塞水平来工作。无线节点可以监听其范围内的所有节点,并了解碰撞率。希望加入网络的节点测量当前的碰撞率,并预测进入后的碰撞率,节点中的自约束机制以此来决定它是否可以加入网络。我们分析了碰撞阈值等关键参数对自约束机制性能的影响,并表明该机制有效地维持了无线局域网的业务。
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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