Variable Splitting and Fusing for Image Phase Retrieval.

IF 2.7 Q3 IMAGING SCIENCE & PHOTOGRAPHIC TECHNOLOGY Journal of Imaging Pub Date : 2024-10-12 DOI:10.3390/jimaging10100249

Petros Nyfantis, Pablo Ruiz Mataran, Hector Nistazakis, George Tombras, Aggelos K Katsaggelos

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Abstract

Phase Retrieval is defined as the recovery of a signal when only the intensity of its Fourier Transform is known. It is a non-linear and non-convex optimization problem with a multitude of applications including X-ray crystallography, microscopy and blind deconvolution. In this study, we address the problem of Phase Retrieval from the perspective of variable splitting and alternating minimization for real signals and seek to develop algorithms with improved convergence properties. An exploration of the underlying geometric relations led to the conceptualization of an algorithmic step aiming to refine the estimate at each iteration via recombination of the separated variables. Following this, a theoretical analysis to study the convergence properties of the proposed method and justify the inclusion of the recombination step was developed. Our experiments showed that the proposed method converges substantially faster compared to other state-of-the-art analytical methods while demonstrating equivalent or superior performance in terms of quality of reconstruction and ability to converge under various setups.

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图像相位检索的变量分割与融合

相位检索是指在只知道信号傅里叶变换强度的情况下恢复信号。它是一个非线性、非凸优化问题，应用广泛，包括 X 射线晶体学、显微镜和盲解卷。在本研究中，我们从实际信号的变量分割和交替最小化的角度来解决相位检索问题，并寻求开发具有更好收敛特性的算法。通过对基本几何关系的探索，我们构思出了一个算法步骤，旨在通过重新组合分离的变量，在每次迭代时完善估计值。随后，我们进行了理论分析，研究了所提方法的收敛特性，并证明了加入重组步骤的合理性。我们的实验表明，与其他最先进的分析方法相比，拟议方法的收敛速度要快得多，同时在重构质量和各种设置下的收敛能力方面表现出同等或更优的性能。

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