A SINR Guaranteed Power and Spectrum Allocation Algorithm for Cognitive Networks

2012 Third FTRA International Conference on Mobile, Ubiquitous, and Intelligent Computing Pub Date : 2012-06-26 DOI:10.1109/MUSIC.2012.37

Hu Gang, Liu Lixia, Xu Ming

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Abstract

Cognitive network is now regarded as a promising approach to solve the spectrum underutilization problem. To protect the primary user, interference temperature has been promoted as a threshold under which the secondary user must control its transmitting power. As the traditional contention graph based model can't actually depict this interference character, we proposed a geometric SINR model which can jointly solve the interference temperature requirement and optimal spectrum assignment problem. Differing from other research works, this paper considers both primary and secondary users' SINR requirement. As finding the optimal results of power control and spectrum allocation is proved to be NP complete, we proposed a novel heuristic power and spectrum allocation algorithm (HPSA) to solve this problem efficiently. Based on the HPSA algorithm's result, an intensive iterative power and spectrum allocation (IPSA) algorithm is designed to find a more excellent result. By detailed simulation, the results demonstrated that this algorithm can quickly be converged within 10 iterations. IPSA also has the average performance improvement about 60% comparing to the maximum coloring scheme.

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认知网络中一种保证SINR的功率和频谱分配算法

目前，认知网络被认为是解决频谱利用不足问题的一种很有前途的方法。为了保护主用户，干扰温度被提升为从用户必须控制其发射功率的阈值。针对传统的基于争用图的模型不能真实描述这种干扰特性的问题，提出了一种能同时解决干扰温度要求和最优频谱分配问题的几何信噪比模型。与其他研究工作不同的是，本文同时考虑了主要用户和次要用户的信噪比需求。由于功率控制和频谱分配的最优结果被证明是NP完全的，我们提出了一种新的启发式功率和频谱分配算法(HPSA)来有效地解决这一问题。基于HPSA算法的结果，设计了一种密集迭代功率和频谱分配(IPSA)算法，以获得更优的结果。仿真结果表明，该算法可以在10次迭代内快速收敛。与最大着色方案相比，IPSA的平均性能也提高了约60%。

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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2012 Third FTRA International Conference on Mobile, Ubiquitous, and Intelligent Computing

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