802.15.4与802.11的分布式认知共存

2006 1st International Conference on Cognitive Radio Oriented Wireless Networks and Communications Pub Date : 2006-06-08 DOI:10.1109/CROWNCOM.2006.363456

S. Pollin, M. Ergen, M. Timmers, A. Dejonghe, L. Perre, F. Catthoor, I. Moerman, A. Bahai

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引用次数: 122

摘要

由于最近无线技术的进步，目前正在出现各种各样的标准。这些异构网络之间的互操作性和共存已成为关键问题，需要新的适应策略来避免有害干扰。本文主要研究802.11无线局域网和802.15.4传感器网络在ISM频段的共存问题。这些网络具有非常不同的传输特性，导致不对称干扰模式。针对802.15.4节点，提出了分布式适应策略，将802.11干扰的影响降至最低。这种干扰随时间、频率和空间的变化而变化，传感器节点通过随时间改变其频率通道选择来适应。提出了不同的分布式技术，一方面是基于扫描(功耗增加)，另一方面是基于通过学习增加认知。对这些技术的性能和能源成本都进行了评估。我们表明，与理想的频率分配相比，有可能实现分布式频率分配方法，仅导致延迟性能增加20%。此外，通过在系统中加入学习，可以节省两倍的能耗

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Distributed cognitive coexistence of 802.15.4 with 802.11

Thanks to recent advances in wireless technology, a broad range of standards are currently emerging. Interoperability and coexistence between these heterogeneous networks are becoming key issues, which require new adaptation strategies to avoid harmful interference. In this paper, we focus on the coexistence of 802.11 Wireless LAN and 802.15.4 sensor networks in the ISM band. Those networks have very different transmission characteristics that result in asymmetric interference patterns. We propose distributed adaptation strategies for 802.15.4 nodes, to minimize the impact of the 802.11 interference. This interference varies in time, frequency and space and the sensor nodes adapt by changing their frequency channel selection over time. Different distributed techniques are proposed, based on scanning (with increasing power cost) on the one hand, and based on increased cognition through learning on the other hand. These techniques are evaluated both for performance and energy cost. We show that it is possible to achieve distributed frequency allocation approaches that result only in an increase of 20% of the delay performance compared to ideal frequency allocation. Moreover, it is shown that a factor of two in energy consumption can be saved by adding learning to the system

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2006 1st International Conference on Cognitive Radio Oriented Wireless Networks and Communications

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