Capacity and power scaling laws for finite antenna amplify-and-forward relay networks

D. Simmons, J. Coon, N. Warsi
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引用次数: 4

Abstract

A novel framework is presented that can be used to study the capacity and power scaling of linear multiple-input multiple-output (MIMO) d×d antenna amplify-and-forward (AF) relay networks. In particular, we model these networks as random dynamical systems (RDS) and calculate their d Lyapunov exponents. Our framework can be applied to systems with any per-hop channel fading distribution provided the expected logarithm of the channel matrices' norms are finite; in this contribution all of our results relate specifically to Rayleigh fading. Our main results are twofold: 1) the total transmit power at the nth node will follow a deterministic trajectory through the network governed by the network's maximum Lyapunov exponent, 2) the capacity of the ith eigenchannel at the nth node will follow a deterministic trajectory through the network governed by the network's ith Lyapunov exponent. Before concluding, we present some numerical examples to highlight the theory.
有限天线放大转发中继网络的容量和功率比例规律
提出了一种新的框架,可用于研究线性多输入多输出(MIMO) d×d天线放大前向(AF)中继网络的容量和功率缩放。特别地,我们将这些网络建模为随机动力系统(RDS),并计算它们的d李雅普诺夫指数。我们的框架可以应用于任何每跳信道衰落分布的系统,只要信道矩阵范数的期望对数是有限的;在这个贡献中,我们所有的结果都与瑞利衰落有关。我们的主要结果是双重的:1)第n个节点的总发射功率将遵循由网络最大李雅普诺夫指数控制的网络的确定性轨迹,2)第n个节点的第i个特征信道的容量将遵循由网络第i李雅普诺夫指数控制的网络的确定性轨迹。在结束之前,我们给出了一些数值例子来突出这一理论。
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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