On compressive self-calibration with structural constraints via alternating minimization

IF 3.4 2区工程技术 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC

Signal Processing Pub Date : 2024-11-04 DOI:10.1016/j.sigpro.2024.109757

Ziyi Wang, Heng Qiao

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引用次数: 0

Abstract

This paper considers the compressive bilinear self-calibration problem with explicit low-dimensional structural constraints. The celebrated proximal alternating linearized minimization (PALM) framework is adapted to simultaneously allow general sub-sampling schemes and structure-promoting regularizers. For the first time in literature, we refine the conditional convergence guarantees of PALM and show that the parameter commonly adopted to remove the scaling ambiguity as well as the structural penalties can ensure the unconditional convergence independent of strict assumptions on the statistical properties of the measurements, subspaces, number of snapshots, or initial iterates. In particular, we impose sparse and small total variation structures on the target signals and provide detailed numerical procedures for efficient computations. The extension to the complex-valued case is also made, and extensive numerical experiments are carried out to corroborate the theoretical claims. Different choices of sub-sampling schemes and compression rates are simulated to support the effectiveness of the proposed algorithm under various settings. We also make comparisons with the state-of-art competing methods, and the superiority of our proposed algorithm is empirically verified.

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通过交替最小化实现具有结构约束的压缩自校准

本文研究了具有明确低维结构约束的压缩双线性自校准问题。我们对著名的近端交替线性化最小化（PALM）框架进行了调整，以同时允许一般的子采样方案和结构促进正则。在文献中，我们首次完善了 PALM 的条件收敛保证，并表明通常用于消除缩放模糊性的参数以及结构惩罚可以确保无条件收敛，而与测量、子空间、快照数量或初始迭代的统计属性的严格假设无关。特别是，我们对目标信号施加了稀疏和较小的总变化结构，并提供了详细的数值计算程序，以实现高效计算。我们还对复值情况进行了扩展，并进行了大量的数值实验来证实理论依据。我们模拟了子采样方案和压缩率的不同选择，以支持所提算法在各种设置下的有效性。我们还与最先进的竞争方法进行了比较，并通过经验验证了我们提出的算法的优越性。

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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来源期刊

Signal Processing 工程技术-工程：电子与电气

CiteScore

9.20

自引率

9.10%

发文量

309

审稿时长

41 days

期刊介绍： Signal Processing incorporates all aspects of the theory and practice of signal processing. It features original research work, tutorial and review articles, and accounts of practical developments. It is intended for a rapid dissemination of knowledge and experience to engineers and scientists working in the research, development or practical application of signal processing. Subject areas covered by the journal include: Signal Theory; Stochastic Processes; Detection and Estimation; Spectral Analysis; Filtering; Signal Processing Systems; Software Developments; Image Processing; Pattern Recognition; Optical Signal Processing; Digital Signal Processing; Multi-dimensional Signal Processing; Communication Signal Processing; Biomedical Signal Processing; Geophysical and Astrophysical Signal Processing; Earth Resources Signal Processing; Acoustic and Vibration Signal Processing; Data Processing; Remote Sensing; Signal Processing Technology; Radar Signal Processing; Sonar Signal Processing; Industrial Applications; New Applications.