How bad is interference in IEEE 802.16e systems?

2010 European Wireless Conference (EW) Pub Date : 2010-04-12 DOI:10.1109/EW.2010.5483384

Farshad Naghibi, J. Gross

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引用次数: 13

Abstract

This paper presents a performance model for dynamic resource allocation in cellular deployments of IEEE 802.16e-like systems. More specifically, we derive a framework which allows to quantify the number of VoIP calls that can be supported in downlink of such systems purely based on the average SINR per terminal. The major difficulty to overcome is to predict the impact of dynamic resource allocations on the system performance in the presence of interference. We show that dynamic resource allocations perform a transformation of subcarrier SINR PDFs and derive an approximate, closed-form representation of these SINR PDFs. Based on these derivations, we derive rate PMFs which predicts system performance up to a gap of about 25% compared to optimal system performance. Furthermore, the model allows for detailed investigation of dynamic resource allocation in interference-limited scenarios. We show that the average SINR is not a valid metric to predict system performance from, but instead the received power of the signal of interest is much more important (together with the received interference power). To the best of our knowledge, such performance models are novel while the presented insights have significant consequences for network design and network self-optimization.

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IEEE 802.16e系统中的干扰有多严重?

本文提出了IEEE 802.16类系统蜂窝部署中动态资源分配的性能模型。更具体地说，我们推导了一个框架，该框架允许基于每个终端的平均SINR来量化此类系统下行链路中可以支持的VoIP呼叫数量。要克服的主要困难是在存在干扰的情况下预测动态资源分配对系统性能的影响。我们展示了动态资源分配执行子载波SINR pdf的转换，并推导出这些SINR pdf的近似，封闭形式表示。基于这些推导，我们推导出率pmf，它预测系统性能与最优系统性能的差距高达25%。此外，该模型允许在干扰有限的情况下详细调查动态资源分配。我们表明，平均信噪比不是预测系统性能的有效指标，相反，感兴趣的信号的接收功率更重要(连同接收的干扰功率)。据我们所知，这种性能模型是新颖的，而所提出的见解对网络设计和网络自优化具有重要的影响。

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 European Wireless Conference (EW)

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