鲁棒波束形成问题的仿射近似

1st IEEE International Workshop on Computational Advances in Multi-Sensor Adaptive Processing, 2005. Pub Date : 2005-12-01 DOI:10.1109/CAMAP.2005.1574198

S. Farahmand, Z. Luo, G. Giannakis, R. D’Andrea

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引用次数: 0

摘要

标准的鲁棒波束形成方法试图在有界范数的信号转向矢量失真连续体上优化最坏情况下的性能。当失真的范数边界很大，并且有估计的失真向量可用时，这种方法可能过于保守。在本文中，我们提出了一个新的鲁棒公式，它通过包含估计畸变向量的侧信息(当可用时)的仿射映射来近似鲁棒解。在此公式中，传统的鲁棒波束形成器可以看作是失真矢量侧信息不可用情况下鲁棒解的常数近似。本文提出了鲁棒仿射波束形成问题的两种重构形式，即半定规划(SDP)，可以用内点法有效地求解。一旦计算出来，当有新的畸变向量信息可用时，可以重复使用仿射映射来生成低复杂度的最优波束形成解的鲁棒近似

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An affine approximation to the robust beamforming problem

The standard robust beamforming approach tries to optimize the worst case performance over a continuum of signal steering vector distortions with a bounded norm. This approach can be too conservative when the norm bound on distortions is large and if an estimated distortion vector is available. In this paper, we propose a new robust formulation, which approximates the robust solution by an affine mapping incorporating the side information of an estimated distortion vector (when available). Within this formulation, the conventional robust beamformer can be viewed as a constant approximation of the robust solution for the case when the side information of distortion vector is unavailable. We present two reformulations of the robust affine beamforming problem as a semi-definite program (SDP) that can be efficiently solved using the interior point methods. Once computed, the affine mapping can be used repeatedly to generate low-complexity robust approximations to the optimum beamforming solution whenever new information on distortion vector is available

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1st IEEE International Workshop on Computational Advances in Multi-Sensor Adaptive Processing, 2005.

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