Performance Analysis of V-BLAST with Optimum Power Allocation

IEEE GLOBECOM 2007 - IEEE Global Telecommunications Conference Pub Date : 2007-12-26 DOI:10.1109/GLOCOM.2007.290

V. Kostina, S. Loyka

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Abstract

Comprehensive performance analysis of the unordered V-BLAST algorithm with various power allocation strategies is presented, which makes use of analytical tools and resorts to Monte-Carlo simulations for validation purposes only. High-SNR approximations for the optimized average block and total error rates are given. The SNR gain of optimization is rigorously defined and studied using analytical tools, including lower and upper bounds, high and low SNR approximations. The gain is upper bounded by the number of transmitters, for any modulation format and any type of fading This upper bound is achieved at high SNR by the considered optimization strategies. While the average optimization is less complex than the instantaneous one, its performance is almost as good at high SNR. A measure of robustness of the optimized algorithm is introduced and evaluated, including compact closed-form approximations. The optimized algorithm is shown to be robust to perturbations in individual and total transmit powers. Based on the algorithm robustness, a pre-set power allocation is suggested as a low-complexity alternative to the other optimization strategies, which exhibits only a minor loss in performance over the practical SNR range.

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优化功率分配的V-BLAST性能分析

对不同功率分配策略下的无序V-BLAST算法进行了综合性能分析，并利用分析工具和蒙特卡罗仿真进行验证。给出了优化后的平均块错误率和总错误率的高信噪比近似。使用分析工具对优化的信噪比增益进行了严格定义和研究，包括下界和上界，高信噪比近似和低信噪比近似。对于任何调制格式和任何类型的衰落，增益的上界由发射机数量决定，该上界通过所考虑的优化策略在高信噪比下实现。虽然平均优化不如瞬时优化复杂，但在高信噪比下，其性能几乎一样好。介绍并评估了优化算法的鲁棒性度量，包括紧致闭型近似。优化后的算法对个体和总发射功率的扰动具有较强的鲁棒性。基于算法的鲁棒性，建议采用预设功率分配作为其他优化策略的低复杂度替代方案，在实际信噪比范围内仅表现出较小的性能损失。

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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IEEE GLOBECOM 2007 - IEEE Global Telecommunications Conference

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