Power allocation in interference relay channels based on non-cooperative game theory

2009 International Conference on Wireless Communications & Signal Processing Pub Date : 2009-12-31 DOI:10.1109/WCSP.2009.5371674

Dan Wu, Yueming Cai

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引用次数: 8

Abstract

In the paper, we consider the interference as a detriment to the performance of the relay enhanced cellular system. Then we build up the interference channel model based on amplify-and-forward protocol and decode-and-forward protocol, respectively. The interference comes not only from the adjacent cells, but also from the inner of the same cell. Moreover, proper power allocation can obtain a good tradeoff between the performance and the interference. Power allocation in interference relay channels based on non-cooperative game theory is proposed. Concretely, two stages constitute the game model, namely power allocation among the source nodes and among the relay nodes. The two utility functions are different from the different stations of the source nodes and relay nodes. But the two utility functions are designed to guarantee the target SINR. For the two-stage game, we prove the existence and uniqueness of Nash equilibriums, and the proposed distributed algorithm always converges to the unique Nash equilibrium from an arbitrary starting point. Meanwhile, simulation results show our allocation scheme has good convergence.

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基于非合作博弈理论的干扰中继信道功率分配

本文考虑了干扰对中继增强蜂窝系统性能的影响。然后分别建立了基于放大转发协议和解码转发协议的干扰信道模型。干扰不仅来自相邻的小区，而且也来自同一小区的内部。此外，适当的功率分配可以在性能和干扰之间取得良好的平衡。提出了一种基于非合作博弈论的干扰中继信道功率分配方法。具体来说，博弈模型分为两个阶段，即源节点之间的功率分配和中继节点之间的功率分配。这两种效用函数因源节点和中继节点的不同站位而不同。但这两个实用函数的设计是为了保证目标信噪比。对于两阶段对策，我们证明了纳什均衡的存在唯一性，所提出的分布式算法总是从任意起始点收敛到唯一纳什均衡。仿真结果表明，该分配方案具有良好的收敛性。

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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来源期刊

2009 International Conference on Wireless Communications & Signal Processing

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