A New Beamforming Design for MIMO AF Relaying Systems With Direct Link

IF 8.3 2区计算机科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE Transactions on Communications Pub Date : 2014-03-30 DOI:10.1109/TCOMM.2014.2326881

Han-Bae Kong;Changick Song;Haewook Park;Inkyu Lee

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引用次数: 27

Abstract

In this paper, we propose a new beamforming technique that maximizes the end-to-end signal-to-noise ratio (SNR) for amplify-and-forward multiple-input-multiple-output cooperative relaying systems with direct link between thesource and the destination. Instead of conventional schemes resorting to an iterative method, such as a gradient ascentalgorithm, our scheme provides a simple closed-form solution for source-relay joint beamformer designs. To this end, wefirst derive a new expression of the end-to-end SNR for the cooperative relaying systems and its lower bound, which isgiven as the harmonic mean of two individual SNRs. Then, a new beamforming scheme, which adaptively optimizes one of the two SNRs depending on the channel condition, is proposed. In addition, we perform a diversity order analysis of the proposed scheme and show that our scheme achieves a full diversity order of relaying systems with direct link. It is confirmed by simulation results that the proposed technique obtains almost identical performance to the gradient ascent algorithm with much reduced complexity, and our analytical work accurately predicts the numerical results.

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一种新的直接链路MIMO AF中继系统波束成形设计

在本文中，我们提出了一种新的波束成形技术，该技术可以最大化端到端信噪比（SNR），用于放大和转发源和目的地之间具有直接链路的多输入多输出协同中继系统。我们的方案为源-中继联合波束形成器设计提供了一个简单的闭合形式解决方案，而不是采用迭代方法（如梯度上升算法）的传统方案。为此，我们首先推导了协作中继系统端到端信噪比的新表达式及其下界，该表达式是两个单独SNR的谐波平均值。然后，提出了一种新的波束成形方案，该方案根据信道条件自适应地优化两个SNR中的一个。此外，我们对所提出的方案进行了分集阶数分析，并表明我们的方案实现了具有直接链路的中继系统的全分集阶数。仿真结果证实，所提出的技术获得了与梯度上升算法几乎相同的性能，大大降低了复杂性，并且我们的分析工作准确地预测了数值结果。

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

IEEE Transactions on Communications 工程技术-电信学

CiteScore

16.10

自引率

8.40%

发文量

528

审稿时长

4.1 months

期刊介绍： The IEEE Transactions on Communications is dedicated to publishing high-quality manuscripts that showcase advancements in the state-of-the-art of telecommunications. Our scope encompasses all aspects of telecommunications, including telephone, telegraphy, facsimile, and television, facilitated by electromagnetic propagation methods such as radio, wire, aerial, underground, coaxial, and submarine cables, as well as waveguides, communication satellites, and lasers. We cover telecommunications in various settings, including marine, aeronautical, space, and fixed station services, addressing topics such as repeaters, radio relaying, signal storage, regeneration, error detection and correction, multiplexing, carrier techniques, communication switching systems, data communications, and communication theory. Join us in advancing the field of telecommunications through groundbreaking research and innovation.