分布式电源控制的收敛性

Qianxi Lu, Tao Peng, Wenbo Wang, C. Hu
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引用次数: 0

摘要

本文分析了高斯干扰信道中非合作分布式功率控制的收敛性。首先,根据迭代步骤将现有的分布式电力控制方案分为梯度投影型和非线性型两种。然后为每种类型提供了统一的数学公式。将目标从迭代充水博弈中研究较多的速率最大化扩展到更一般的效用函数形式。在此基础上,导出了每一类方案的一组充分条件,保证了不动点的唯一性和完全异步的全局收敛。根据效用函数的具体形式,这些收敛要求可以被解释为不同程度的分离。为了进一步说明所导出的收敛条件,最后给出了一些数值结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Convergence of Distributed Power Control
The convergence of non-cooperative distributed power control in Gaussian interference channel is analyzed in this paper. Firstly, the existing distributed power control schemes are categorized as two types: gradient projection type and non-linear type, according to the iterative steps. A unified mathematical formulation is then provided for each type. The objective is extended from rate maximization, which has been studied a lot in iterative water-filling game, to more general form of utility function. Based on it, a set of sufficient conditions are derived for each type of the schemes, guaranteeing the uniqueness of the fixed point and the global convergence in a totally asynchronous manner. These convergence requirements can be interpreted as different degree of separation, according to the concrete form of utility function. To get insight into the derived convergence conditions, some numerical results are presented in the end.
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