Joint scheduling and power allocation in Cognitive Radio systems

Raouia Masmoudi, E. Belmega, I. Fijalkow, N. Sellami
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引用次数: 5

Abstract

This paper investigates a joint spectrum scheduling and power allocation problem in Cognitive Radio (CR) network composed of several secondary (SU) and primary users (PU). The objective is to minimize the overall SU system power consumption (over several orthogonal frequency bands) under minimum Quality of Service (QoS) constraints, maximum peak and average interference to the PUs constraints. The main challenge lies in the non-convexity of the problem because of the discrete spectrum scheduling policies. We overcome this issue by considering a simpler and convex problem based on Lagrangian relaxation. It turns out that, this problem has discrete solutions which are the optimal solutions to our initial non-convex problem. We propose an iterative sub-gradient algorithm to compute the optimal solution, when it exists, assuming that the channels are drawn randomly. In the case of symmetric systems, this algorithm is not suitable. Therefore, we study such a case for which we give an analytical solution. Several numerical results that sustain and give insight into the resolution of this problem are also provided.
认知无线电系统中的联合调度与功率分配
研究了由多个辅助用户(SU)和主用户(PU)组成的认知无线电(CR)网络中的联合频谱调度和功率分配问题。目标是在最低服务质量(QoS)约束、对pu的最大峰值和平均干扰约束下最小化SU系统的总体功耗(在几个正交频带上)。由于频谱调度策略是离散的,所以问题的非凸性是主要的挑战。我们通过考虑一个基于拉格朗日松弛的更简单的凸问题来克服这个问题。结果是,这个问题有离散解它们是初始非凸问题的最优解。我们提出了一种迭代次梯度算法来计算最优解,当它存在时,假设通道是随机绘制的。在对称系统的情况下,该算法不适用。因此,我们研究了这样一个我们给出解析解的情况。文中还提供了几个数值结果,这些结果支持并提供了对解决这一问题的见解。
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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