Linear beamforming for the spatially correlated MISO broadcast channel

2010 IEEE International Symposium on Information Theory Pub Date : 2010-06-13 DOI:10.1109/ISIT.2010.5513553

V. Raghavan, V. Veeravalli, S. Hanly

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引用次数: 5

Abstract

A spatially correlated broadcast setting with M antennas at the base station and M users (each with a single antenna) is considered. We assume that the users have perfect channel information about their links and the base station has only statistical information about each user's link. The base station employs a linear beamforming strategy with one spatial eigen-mode allocated to each user. The goal of this work is to understand the structure of the beamforming vectors that maximize the ergodic sum-rate achieved by treating interference as noise. In the M = 2 case, we first fix the beamforming vectors and compute the ergodic sum-rate in closed-form as a function of the channel statistics. We then show that the optimal beamforming vectors are the dominant generalized eigenvectors of the covariance matrices of the two links. It is difficult to obtain intuition on the structure of the optimal beamforming vectors for M > 2 due to the complicated nature of the sum-rate expression. Nevertheless, in the case of asymptotic M, we show that the optimal beamforming vectors have to satisfy a set of fixed-point equations.

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空间相关MISO广播信道的线性波束形成

考虑了一个空间相关广播设置，其中基站有M个天线，M个用户(每个用户有一个天线)。我们假设用户拥有关于其链路的完整信道信息，而基站只有关于每个用户链路的统计信息。该基站采用线性波束形成策略，为每个用户分配一个空间本征模式。这项工作的目标是了解波束形成矢量的结构，通过将干扰视为噪声来实现遍历和速率的最大化。在M = 2的情况下，我们首先固定波束形成矢量，并以信道统计量的函数计算遍历和率。然后，我们证明了最优波束形成向量是两个链路的协方差矩阵的主导广义特征向量。由于和速率表达式的复杂性，很难直观地得到M > 2时最优波束形成矢量的结构。然而，在渐近M的情况下，我们证明了最优波束形成向量必须满足一组不动点方程。

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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2010 IEEE International Symposium on Information Theory

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