Queuing-theoretical multi-user dynamic spectrum allocation & sharing mechanism in multi-channel cognitive radio networks

Long Zhang, Liusheng Huang, Hongli Xu
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引用次数: 5

Abstract

Recently, cognitive radio has been proposed to improved the spectrum resource utilization efficiency. The secondary users (SUs) are allowed to sense, detect and access the frequency bands that are not currently being in use by primary users (PUs). In fact, SUs always have no knowledge about PUs' exact communication mechanism. In order to guarantee PUs' communication quality of service (QoS) and satisfy SUs' demand of using spectrum resource, it is a challenging task to find the spectrum sensing and access mechanism. When there are multiple SUs and multiple channels, the spectrum allocation and spectrum sharing must be considered. In this paper, we propose a multi-user spectrum allocation and multi-channel spectrum sharing mechanism for the SUs confronting with unknown primary behavior and study the interference to PUs caused by their dynamic access. The interference caused by SUs was analysis utilizing the Renewal Theory. Under the constraints of the interference to PUs and the secondary network's stability, the queuing theory is utilized to obtain the maximum average data rate of SUs. Through lots of simulations, we verify the effectiveness of our analysis.
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多信道认知无线电网络中排队理论多用户动态频谱分配与共享机制
近年来,为了提高频谱资源利用效率,提出了认知无线电技术。辅助用户(secondary user)可以感知、检测和访问当前未被主用户(primary user)使用的频段。事实上,su始终不知道pu的确切通信机制。为了保证pu的通信服务质量(QoS)和满足su对频谱资源的使用需求,寻找频谱感知和接入机制是一项具有挑战性的任务。当有多个单单元和多个通道时,必须考虑频谱分配和频谱共享。本文提出了一种多用户频谱分配和多信道频谱共享机制,并研究了单元动态接入对单元的干扰。利用更新理论对SUs的干扰进行分析。在对节点的干扰和二级网络稳定性的约束下,利用排队论获得节点的最大平均数据速率。通过大量的仿真,验证了分析的有效性。
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