BlueCoDE:密集环境下的蓝牙协调,更好的共存

Weiping Sun, Jonghoe Koo, Seongho Byeon, Woojin Park, Sangsoon Lim, Daehyun Ban, Sunghyun Choi
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引用次数: 14

摘要

密集Wi-Fi和蓝牙(BT)环境日益普遍,Wi-Fi和BT共存问题亟待解决。在本文中,我们提出了一种针对多个相邻BT微网的协调方案BlueCoDE,使它们无碰撞,对Wi-Fi的危害更小。BlueCoDE重用了BT现有的PHY和MAC设计,从而使其具有实际可行性。我们在Ubertooth One平台上实现了BlueCoDE的原型,并通过分析、NS-3模拟和基于原型的实验验证了性能增益。我们的实验结果表明,仅使用10个传统BT piconet,邻近的Wi-Fi网络在1 Mb/s以下的吞吐量下变得无用,而BlueCoDE使Wi-Fi吞吐量始终保持在12 Mb/s以上。我们期待BlueCoDE成为在密集Wi-Fi和BT环境中共存的突破性解决方案。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
BlueCoDE: Bluetooth coordination in dense environment for better coexistence
Dense Wi-Fi and Bluetooth (BT) environments become increasingly common so that the coexistence issue between Wi-Fi and BT is imperative to solve. In this paper, we propose BlueCoDE, a coordination scheme for multiple neighboring BT piconets, to make them collision-free and less harmful to Wi-Fi. BlueCoDE reuses BT's existing PHY and MAC design, thus making it practically feasible. We implement a prototype of BlueCoDE on Ubertooth One platform and corroborate the performance gain via analysis, NS-3 simulations, and prototype-based experiments. Our experimental results show that with merely 10 legacy BT piconets, neighboring Wi-Fi network becomes useless achieving under 1 Mb/s throughput, while BlueCoDE enables the Wi-Fi throughput always remain above 12 Mb/s. We expect BlueCoDE to be a breakthrough solution for coexistence in dense Wi-Fi and BT environments.
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