Lorentz-Positive Maps and Quadratic Matrix Inequalities With Applications to Robust MISO Transmit Beamforming

Yongwei Huang; Palomar D.P.; Shuzhong Zhang

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Lorentz-Positive Maps and Quadratic Matrix Inequalities With Applications to Robust MISO Transmit Beamforming

机译：洛伦兹正图和二次矩阵不等式及其在鲁棒的MISO发射波束成形中的应用

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摘要

Consider a unicast downlink beamforming optimization problem with robust signal-to-interference-plus-noise ratio constraints to account for imperfect channel state information at the base station in a multiple-input single-output (MISO) communication system. The convexity of this robust beamforming problem remains unknown. A slightly conservative version of the robust beamforming problem is thus studied herein as a compromise. It is in the form of a semi-infinite second-order cone program (SOCP) and, more importantly, it possesses an equivalent and explicit convex reformulation, due to a linear matrix inequality (LMI) description of the cone of Lorentz-positive maps. Hence, the conservative robust beamforming problem can be efficiently solved by an optimization solver. Additional robust shaping constraints can also be easily handled to control the amount of interference generated on other co-existing users such as in cognitive radio systems.

机译：考虑具有健壮的信噪比加噪声比约束的单播下行链路波束成形优化问题，以解决多输入单输出（MISO）通信系统中基站处的不完美信道状态信息。这个鲁棒的波束成形问题的凸性仍然未知。因此，作为折衷方案，本文研究了稳健的波束成形问题的稍微保守的版本。它采用半无限二阶锥规划（SOCP）的形式，更重要的是，由于对Lorentz正图锥的线性矩阵不等式（LMI）的描述，它具有等价且显式的凸重构。因此，可以通过优化求解器有效地解决保守鲁棒波束成形问题。还可以轻松处理其他鲁棒的成形约束，以控制在其他共存用户（例如认知无线电系统）中产生的干扰量。

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来源
《Signal Processing, IEEE Transactions on 》 |2013年第5期| p.1121-1130| 共10页
作者
Yongwei Huang; Palomar D.P.; Shuzhong Zhang;
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作者单位

Department of Mathematics, Hong Kong Baptist University, Kowloon Tong, Kowloon, Hong Kong;

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正文语种 eng
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关键词
MIMO communication; array signal processing; convex programming; linear matrix inequalities; LMI description; Lorentz-positive maps; MISO transmit beamforming; SOCP; base station; cognitive radio systems; conservative robust beamforming problem; equivalent convex reformulation; explicit convex reformulation; imperfect channel state information; linear matrix inequality description; multiple-input single-output communication system; quadratic matrix inequalities; robust shaping constraints; semi-infinite second-order cone program; signal-to-interference-plus-noise ratio constraints; unicast downlink beamforming optimization problem; Array signal processing; Downlink; Interference; Optimization; Robustness; Signal to noise ratio; Vectors; Lorentz-positive map; SDP; quadratic matrix inequality; robust MISO downlink beamforming; semi-infinite SOCP;

机译：MIMO通信;阵列信号处理;凸编程线性矩阵不等式LMI描述;洛伦兹正图;MISO发送波束成形;SOCP;基站;认知无线电系统;保守鲁棒波束成形问题;等效凸重构凸显式不完善的信道状态信息;线性矩阵不等式描述;多输入单输出通信系统;二次矩阵不等式;强大的成型约束;半无限二阶锥程序;信号干扰加噪声比约束;单播下行波束成形优化问题;阵列信号处理;下行;干扰;优化;坚固性信噪比;向量;洛伦兹正图;SDP;二次矩阵不等式强大的MISO下行链路波束成形;半无限SOCP;

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2. Matrix Approximation with Constraints .of Matrix Inequalities and Applications in Robust Control [J] . MAN Xiao-Hong, YANG Ying, HUANG Lin Acta Automatica Sinica . 2005 ,第3期

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3. Corrections To "robust Stabilization Of A Class Of Uncertain Nonlinear Systems Via Fuzzy Control: Quadratic Stabilizability, H Control Theory, And Linear Matrix Inequalities" [Correspondence] [J] . Tanaka K., Ikeda T. IEEE Transactions on Fuzzy Systems . 1997 ,第2期

机译：对“通过模糊控制对不确定的非线性系统进行鲁棒镇定：二次镇定，H控制理论和线性矩阵不等式”的更正[对应]
4. Lorentz-positive mapswith applications to robust MISO downlink beamforming [C] . Huang, Yongwei IEEE International Conference on Acoustics, Speech and Signal Processing;ICASSP . 2012

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5. Linear matrix inequalities for robust control: Theory, algorithms, and applications. [D] . Lind, Richard Charles, Jr. 1995

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7. Multiple Peer-To-Peer Relay Network Robust Beamforming Based on Lorentz-Positive Matrices [O] . Jianhua Li, Yunshan Hou 2016

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Lorentz-Positive Maps and Quadratic Matrix Inequalities With Applications to Robust MISO Transmit Beamforming

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