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引用次数: 3
摘要
为了实现多pu (Primary User)多SU (Secondary User)认知无线网络(CRN)的最优动态频谱分配(DSA),有必要研究每个SU的综合行为。本文利用联盟博弈论(Coalition Game Theory, CGT)设计了一个数据库辅助的CRN,以增加最大数量的SU参与频谱感知和分配。在这个模型中,我们已经形成了考虑隐藏/移动/远程定位su的帕累托最优联盟。为了提高该CRN的频谱分配率,我们提出了一种采用奇偶信道分配方案的DSA技术。在该方案中,我们使用了一个综合函数来确定每个SU的收益。仿真结果表明,与之前的联盟博弈方案相比,所提出的信道分配方案丰富了每个SU的收益和CRN的频谱分配率。
Comprehensive Dynamic Spectrum Allocation in multi-PU multi-SU CRN using Coalition Game Theory
For optimal Dynamic Spectrum Allocation (DSA) in multi-PU (Primary User) multi-SU (Secondary User) Cognitive Radio Network (CRN), it is necessary to study the comprehensive behavior of each SU. In this paper, we have designed a database assisted CRN using Coalition Game Theory (CGT) to increase the involvement of the maximum number of SUs in the spectrum sensing and allocation. In this model, we have formed Pareto optimal coalitions considering hidden/mobile/remotely located SUs. To enlarge the spectrum allocation rate of this CRN, we have proposed a DSA technique using an even and odd channel allocation scheme. In this scheme, we have used a comprehensive function to determine the payoff of each SU. The simulation result shows that the proposed channel allocation scheme enriching in the payoff of each SU and spectrum allocation rate of the CRN compared with the former coalition game scheme.
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