Admission and power control for cognitive radio networks by sequential geometric programming

2011 17th International Conference on Digital Signal Processing (DSP) Pub Date : 2011-07-06 DOI:10.1109/ICDSP.2011.6005012

E. Dall’Anese, Seung-Jun Kim, G. Giannakis

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引用次数: 2

Abstract

In cognitive radio (CR) networks, power control is an effective means to limit the interference caused by the CRs upon the incumbent primary users (PUs) to ensure cohabitation of the two systems. When all CR links can not be active at the same time due to excessive interference, an admission control mechanism is necessary to schedule the CR links. Key to both tasks is accurate knowledge of the CR-to-PU channel gains. However, CRs generally face difficulties in estimating the channel gains very accurately, often due to lack of explicit support from the PU systems. In this work, admission and power control algorithms are developed to account for channel uncertainty through probabilistic interference constraints. Both log-normal shadowing and small-scale fading effects are considered through suitable approximations. The resulting problems can be solved via sequential geometric programming. The admission control is based on solving feasibility problems, whereby CR links violating the interference constraints the most are dropped progressively. The feasible point thus found to initialize the power control iterative solver.

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基于顺序几何规划的认知无线网络准入与功率控制

在认知无线电(CR)网络中，功率控制是限制认知无线电对现有主用户(pu)的干扰以保证两个系统共存的有效手段。当所有的CR链路由于过多的干扰而不能同时处于活动状态时，需要一种准入控制机制来调度CR链路。这两项任务的关键是准确了解cr - pu通道增益。然而，cr通常在非常准确地估计信道增益方面面临困难，这通常是由于缺乏PU系统的明确支持。在这项工作中，开发了通过概率干扰约束来考虑信道不确定性的接纳和功率控制算法。通过适当的近似考虑对数正态阴影和小尺度衰落效应。由此产生的问题可以通过顺序几何规划来解决。接纳控制以解决可行性问题为基础，逐步放弃违反干扰约束最多的CR链路。从而找到初始化功率控制迭代求解器的可行点。

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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2011 17th International Conference on Digital Signal Processing (DSP)

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