多信道接入认知无线网络随机接入策略的最优吞吐量分析

Proceedings of the 11th International Conference on Queueing Theory and Network Applications Pub Date : 2016-12-13 DOI:10.1145/3016032.3016035

Sangdon Park, G. Hwang, J. Choi

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引用次数: 2

摘要

本文考虑了一个有N个无线信道和M个辅助用户的时隙认知无线电网络。我们关注随机访问策略，其中每个SU根据给定的访问概率(AP)随机决定是否访问空闲通道，如果可能的话，该访问概率(AP)与通道状态信息(CSI)相适应。AP在随机访问策略中起着重要的作用，因为它可以简单地控制可以访问空闲通道的单元的数量，从而减少单元之间的报文冲突。我们假设在任何可能的情况下，每个SU最多可以在一个时隙同时访问L个空闲通道。我们考虑两种极端情况——a)所有的su都有完整的CSI, b)所有的su都没有CSI。我们分析了两种极端情况下任意SU的吞吐量，并严格推导了两种极端情况下使任意SU的吞吐量最大化的最优AP值的封闭表达式。在分析中，我们还展示了多通道访问和CSI获取对吞吐量性能的影响。

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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Optimal Throughput Analysis of Random Access Policies for Cognitive Radio Networks with Multiple Channel Access

In this paper we consider a time slotted cognitive radio (CR) network with N wireless channels and M secondary users (SUs). We focus on a random access policy where each SU stochastically decides whether to access idle channels or not based on the given access probability (AP) that is adapted to the channel state information (CSI), if possible. The AP plays an important role in the random access policy because it can control the number of SUs who can access idle channels in a simple manner and hence alleviate packet collisions among SUs. We assume that each SU can access at most L idle channels simultaneously at a time slot whenever possible. We consider two extreme cases - a) where all SUs have full CSI and b) where all SUs have no CSI. We analyze the throughput of an arbitrary SU for the two extreme cases, and rigorously derive a closed-form expression of the optimal AP values that maximize the throughput of an arbitrary SU for the two extreme cases. In the analysis, we also show the impact of multiple channel access and the acquisition of CSI on throughput performance.

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Proceedings of the 11th International Conference on Queueing Theory and Network Applications

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