Achievable Throughput for Dual-Mode Limited-Feedback Transmit Beamforming over Temporally Correlated Wireless Channels

2010 IEEE 71st Vehicular Technology Conference Pub Date : 2010-05-16 DOI:10.1109/VETECS.2010.5493750

Yi-Chieh Chang, Jwo-Yuh Wu, Ta-Sung Lee

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Abstract

Achieving high system throughput for limited- feedback communications against the time-varying channel effect is rather crucial in modern mobile system designs. Within the beamforming setup, this paper derives analytic throughput results for both the "more feedback less often" and "less feedback more often" scenarios. More specifically, under the assumptions that (i) the channels over two consecutive time slots follow the first-order Markov model and (ii) in each time slot, reliable feedback of a fixed amount of bits is allowed, the achievable system throughput over two consecutive time slots in both scenarios are characterized. In particular, while the exact throughput is in an integral form, we derive the associated closed-form approximate formulae which facilitate throughput evaluation without resorting to numerical integration. The analytic results also lead to a very low-complexity throughput-based mode selection scheme. Simulation study shows that: (1) the derived closed-form approximation is quite accurate; (2) with the aid of the proposed mode selection method, the throughput performance is robust against the channel temporal variation.

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时间相关无线信道上双模有限反馈发射波束形成的可实现吞吐量

在现代移动系统设计中，克服时变信道效应，实现有限反馈通信的高系统吞吐量是非常重要的。在波束形成设置中，本文导出了“多反馈少”和“少反馈多”两种情况下的吞吐量分析结果。更具体地说，在假设(i)两个连续时隙的信道遵循一阶马尔可夫模型，(ii)每个时隙允许固定数量的可靠反馈的情况下，表征了两种情况下两个连续时隙的可实现系统吞吐量。特别是，当精确的吞吐量是积分形式时，我们推导出相关的闭形式近似公式，方便了吞吐量的评估，而不需要诉诸数值积分。分析结果还得出了一个非常低复杂度的基于吞吐量的模式选择方案。仿真研究表明:(1)推导出的闭型近似具有较高的精度;(2)利用所提出的模式选择方法，对信道时间变化具有鲁棒性。

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 71st Vehicular Technology Conference

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