Decentralized base station assignment in combination with downlink beamforming

2010 IEEE 11th International Workshop on Signal Processing Advances in Wireless Communications (SPAWC) Pub Date : 2010-06-20 DOI:10.1109/SPAWC.2010.5671011

Harri Pennanen, A. Tolli, M. Latva-aho

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引用次数: 7

Abstract

Decentralized base station (BS) assignment methods with limited backhaul information exchange are proposed to be combined with decentralized optimal multi-cell minimum power beamforming and Zero-Forcing (ZF) beamforming techniques. The aim of the combined BS assignment and downlink beamforming is to minimize sum power while guaranteeing a minimum SINR per user. A major finding is that a simple ZF beamforming with the optimal decentralized BS assignment, and with limited backhaul information exchange obtains near optimal performance near the cell edge when the user-specific SINR targets are high. Thus, only marginal gains are available from more complex BS assignment and beamforming approaches. However, in the case of low user-specific SINR targets, there is a significant gain available at the cell edge from the optimal beamforming and BS assignment. For example, a simple maximum channel norm selection based BS assignment method with the optimal minimum power beamforming can obtain much of this gain.

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与下行波束形成相结合的分散基站分配

将分散最优多小区最小功率波束形成技术和零强迫波束形成技术相结合，提出了具有有限回程信息交换的分散基站分配方法。结合BS分配和下行波束形成的目标是在保证每个用户最小信噪比的同时最小化总功率。一个主要的发现是，当用户特定的SINR目标很高时，具有最优分散BS分配和有限回程信息交换的简单ZF波束形成在小区边缘附近获得接近最优的性能。因此，从更复杂的BS分配和波束形成方法中只能获得边际增益。然而，在低用户特定SINR目标的情况下，从最佳波束形成和BS分配中可以在小区边缘获得显著的增益。例如，一种简单的基于最大信道范数选择的最优最小功率波束形成的BS分配方法可以获得很大的增益。

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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来源期刊

2010 IEEE 11th International Workshop on Signal Processing Advances in Wireless Communications (SPAWC)

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