在密集IEEE 802.11ax部署中利用DSC和BSS颜色的捕获效应

Proceedings of the 2017 Workshop on ns-3 Pub Date : 2017-06-13 DOI:10.1145/3067665.3067672

Ioannis Selinis, K. Katsaros, S. Vahid, R. Tafazolli

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引用次数: 13

摘要

未来的无线局域网(wlan)有望在不同的环境中为成千上万的用户提供服务。为了解决无线局域网将面临的新挑战，并克服以前IEEE标准引入的限制，新的IEEE 802.11修正案正在开发中。IEEE 802.11ax旨在提高密集部署中的频谱效率;因此提高了系统吞吐量。动态灵敏度控制(DSC)和BSS颜色是IEEE 802.11ax中用于提高频谱效率的主要方案。本文对物理层捕获(PLC)建模时的DSC和BSS颜色方案进行了评估。PLC是指当发生碰撞时，接收端成功解码较强帧的情况。结果表明，PLC在特定情况下可能会导致公平性问题和更高的吞吐量。我们在小型和大型场景下研究了PLC，并表明PLC在特定场景下也可以提高公平性。

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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Exploiting the Capture Effect on DSC and BSS Color in Dense IEEE 802.11ax Deployments

Future wireless local area networks (WLANs) are expected to serve thousands of users in diverse environments. To address the new challenges that WLANs will face, and to overcome the limitations that previous IEEE standards introduced, a new IEEE 802.11 amendment is under development. IEEE 802.11ax aims to enhance spectrum efficiency in a dense deployment; hence system throughput improves. Dynamic Sensitivity Control (DSC) and BSS Color are the main schemes under consideration in IEEE 802.11ax for improving spectrum efficiency In this paper, we evaluate DSC and BSS Color schemes when physical layer capture (PLC) is modelled. PLC refers to the case that a receiver successfully decodes the stronger frame when collision occurs. It is shown, that PLC could potentially lead to fairness issues and higher throughput in specific cases. We study PLC in a small and large scale scenario, and show that PLC could also improve fairness in specific scenarios.

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Proceedings of the 2017 Workshop on ns-3

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