A framework for optimal decentralized power control with partial CSI

2015 5th International Conference on Communications and Networking (COMNET) Pub Date : 2015-10-30 DOI:10.1109/COMNET.2015.7566628

Achal Agrawal, S. Lasaulce, Olivier Beaude, R. Visoz

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引用次数: 3

Abstract

In this paper, we use a recent information theoretical result to develop a general framework for finding optimal power control policies in the case of interference channels. The aforementioned result characterizes the achievable payoffs for an N-Agent (transmitters in our application) coordination problem with a certain information structure. We then provide an algorithm which exploits the characterization of achievable payoffs by conditional probability distributions to find optimal decision functions for the transmitters. Due to its general nature, the developed framework is conducive for applications to diverse scenarios in wireless communications. In this article, we restrict our attention to the case of decentralized power control in interference channels for different utility functions namely sum-rate, sum-energy and sum-goodput. Our approach has the following salient features: 1) The method proposes optimal power control functions for any given utility function as opposed to ad-hoc solutions for different utilities proposed in the literature, and 2) Noise in the channel estimation is taken into account, thus providing robust optimal solutions.

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具有部分CSI的最优分散功率控制框架

在本文中，我们使用最新的信息理论结果来开发一个在干扰信道情况下寻找最优功率控制策略的一般框架。上述结果表征了具有特定信息结构的N-Agent(我们应用程序中的发射器)协调问题的可实现收益。然后，我们提供了一种算法，该算法利用条件概率分布对可实现收益的表征来找到发射机的最优决策函数。由于其通用性，所开发的框架有利于无线通信中各种场景的应用。在本文中，我们将注意力集中在不同效用函数即和速率、和能量和和good - put的干扰信道中的分散功率控制情况。我们的方法具有以下显著特点:1)该方法为任何给定的效用函数提供最优功率控制函数，而不是针对文献中提出的不同效用的特设解决方案;2)考虑了信道估计中的噪声，从而提供了鲁棒的最优解。

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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2015 5th International Conference on Communications and Networking (COMNET)

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