Interference Mitigation Based on Femtocells Grouping in Low Duty Operation

2010 IEEE 72nd Vehicular Technology Conference - Fall Pub Date : 2010-10-04 DOI:10.1109/VETECF.2010.5594576

Helena Widiarti, Sung-Yeop Pyun, D. Cho

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引用次数: 32

Abstract

Since a large number of femtocells may coexist in one macrocell area, interference management becomes a major issue in the deployment of femtocells, and therefore has been researched actively. In the IEEE 802.16m, one way to mitigate interference is Low Duty Operation (LDO) Mode for femtocells. Femtocell in the LDO mode changes alternately between available interval and unavailable interval. During available interval, femtocell may become active on air interface by transmitting control messages, while during unavailable interval, femtocell becomes inactive on air interface. However, the operation of femtocell in the LDO mode is not efficient, since it still has available intervals even though there are no MSs will access the femtocell in anytime soon. In this case, the available intervals may not be necessary and can further cause interference to neighbor cells. In this paper, we propose an interference mitigation scheme based on the grouping of femtocells in one neighborhood area. The unnecessary available intervals in LDO can be decreased by the proposed scheme and results in decreasing interference to neighbor cells. The analysis and simulation results show that the proposed scheme has superior advantages compared to the conventional LDO scheme in IEEE 802.16m, in terms of interference reduction and energy saving aspects.

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基于飞基站分组的低占空工作干扰抑制

由于在一个宏基站区域内可能存在大量的飞基站，干扰管理成为飞基站部署中的一个重要问题，因此得到了人们的积极研究。在IEEE 802.16m中，缓解干扰的一种方法是针对飞蜂窝的低占空工作(LDO)模式。在LDO模式下，Femtocell在可用间隔和不可用间隔之间交替变化。在可用间隔期间，飞蜂窝通过发送控制报文在空中接口上激活，而在不可用间隔期间，飞蜂窝在空中接口上不激活。然而，在LDO模式下的femtocell的操作效率不高，因为即使没有MSs将很快访问femtocell，它仍然有可用的间隔。在这种情况下，可用的间隔可能不是必需的，并且可能进一步引起对相邻单元的干扰。本文提出了一种基于相邻区域内飞基站分组的干扰抑制方案。该方案减少了LDO中不必要的可用间隔，减少了对相邻小区的干扰。分析和仿真结果表明，与IEEE 802.16m标准下的传统LDO方案相比，该方案在减少干扰和节能方面具有优势。

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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2010 IEEE 72nd Vehicular Technology Conference - Fall

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