Cluster Size Optimization in Cooperative Spectrum Sensing

2011 Ninth Annual Communication Networks and Services Research Conference Pub Date : 2011-05-02 DOI:10.1109/CNSR.2011.11

E. Karami, A. Banihashemi

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引用次数: 10

Abstract

In this paper, we study and optimize the cooperation cluster size in cooperative spectrum sensing to maximize the throughput of secondary users (SUs). To calculate the effective throughput, we assume each SU spends just 1 symbol to negotiate with the other SUs in its transmission range. This is the minimum overhead required for each SU to broadcast its sensing decision to the other members of the cluster. When the number of SUs is large, the throughput spent for the negotiation is noticeable and therefore increasing the cooperation cluster size does not improve the effective throughput anymore. In this paper, we calculate the effective throughput as a function of the cooperation cluster size, and then we maximize the throughput by finding the optimal cluster size. Various numerical results show that when decisions are combined by the OR-rule, the optimum cooperation cluster size is less than when the AND-rule is used. On the other hand, the optimum cluster size monotonically decreases with the increase in the average SNR of the SUs. Another interesting result is that when the cluster size is optimized the OR-rule always outperforms the AND-rule.

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协同频谱感知中的聚类大小优化

本文研究并优化协同频谱感知中的协同簇大小，以最大限度地提高辅助用户的吞吐量。为了计算有效吞吐量，我们假设每个SU只花费1个符号与其传输范围内的其他SU进行协商。这是每个SU向集群的其他成员广播其感知决策所需的最小开销。当su数量较大时，用于协商的吞吐量明显增加，因此增加协作集群的大小不再提高有效吞吐量。本文将有效吞吐量作为合作集群大小的函数进行计算，并通过寻找最优集群大小来实现吞吐量的最大化。各种数值结果表明，使用or规则组合决策时，最优合作簇大小小于使用and规则组合决策时。另一方面，最优簇大小随着单元平均信噪比的增加而单调减小。另一个有趣的结果是，当优化集群大小时，“或”规则的性能总是优于“与”规则。

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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2011 Ninth Annual Communication Networks and Services Research Conference

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