促进WiFi和4G无线网络不共存

37th Annual IEEE Conference on Local Computer Networks Pub Date : 2012-10-22 DOI:10.1109/LCN.2012.6423607

P. Rathod, A. Karandikar, A. Sahoo

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引用次数: 4

摘要

在本文中，我们讨论了WiFi和4G技术(如WiMAX和LTE)由于相邻信道干扰而不能共存的问题。现有文献对多无线电平台上的共享信道共存和相邻信道共存问题有很多解决方案和方案。无线中相邻信道非并置共存的结果仍然非常分散和稀少。运行在宽带无线接入(BWA) 4G无线技术上的无线电设备，如IEEE 802.16 (WiMAX)和LTE-A，需要非常低的本底噪声。2.3 GHz和2.5GHz的BWA频谱分配使得这些网络非常接近WiFi使用的2.4 GHz ISM频段。我们通过测试平台和现有结果的测量表明，WiFi设备上的低成本滤波器在控制带外发射以满足4G低噪声底要求方面不是很有效。我们提出了一种方案，通过在IEEE 802.11和IEEE 802.16侧保护分组接收，通过跨技术的分时机制来减轻相邻信道干扰问题。我们证明了我们的方案的有效性，以保护WiMAX数据包，确保一个受控的沉默区在WiFi网络使用测试平台。我们还表明，由于使用我们的方案，对相邻信道中运行的非并置WiFi网络的系统吞吐量的不利影响非常有限。

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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Facilitating Non-collocated coexistence for WiFi and 4G wireless networks

In this paper, we discuss the problem of non-collocated coexistence of WiFi and 4G technologies such as WiMAX and LTE due to adjacent channel interference. The existing literature has many solutions and schemes to address the problem of shared channel coexistence and adjacent channel coexistence on multi-radio platforms. Results for Non-collocated coexistence in adjacent channels in wireless remain very scattered and few. Radio devices operating on Broadband Wireless Access (BWA) 4G wireless technologies like IEEE 802.16 (WiMAX) and LTE-A require very low noise floor. BWA spectrum allocations in 2.3 GHz and 2.5GHz have resulted in these networks to be very close to 2.4 GHz ISM band used by WiFi. We show, with measurements on our test-bed and from existing results, that the low-cost filters on WiFi devices are not very effective in controlling the out-of-band emissions to satisfy the low noise floor requirements of 4G. We propose schemes to mitigate the problem of adjacent channel interference by a time sharing mechanism across technologies by protecting packet receptions on both IEEE 802.11 and the IEEE 802.16 side. We demonstrate the effectiveness of our scheme to protect WiMAX packets by ensuring a controlled silence zone in the WiFi network using a test-bed. We also show that there is very limited adverse impact, due to the use of our scheme, on the system throughput of the non-collocated WiFi network operating in the adjacent channel.

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37th Annual IEEE Conference on Local Computer Networks

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