Robust Distributed Phase Retrieval for Multi-View Compressive Networked Sensing With Outliers

• Published in: IEEE wireless communications letters p. 1
• Main Author: Yang, Ming-Hsun
• Format: Journal Article
• Language: English
• Published: IEEE 2025
• Subjects: Collaboration; Distributed compressive phase retrieval; Indexes; multi-view sensing; Noise; outliers; Phase measurement; Sensors; Servers; Sparse matrices; Training; Vectors; Wireless sensor networks
• ISSN: 2162-2337; 2162-2345
• DOI: 10.1109/LWC.2025.3579645

This work examines the multi-view compressive phase retrieval problem in a distributed sensor network, where each sensor device, limited by storage and sensing capabilities, can access only intensity measurements from an unknown part of the global sparse vector. The goal is to enable each sensor to recover its observable sparse signal when measurements are corrupted by outliers. To achieve reliable local signal recovery with limited data access, we propose a distributed reconstruction algorithm that enables collaboration among sensor devices without the need to share individual raw data. The proposed scheme employs a two-stage approach that first recovers the amplitude of the global signal (at a central server) and subsequently estimates the observable nonzero signal entries (at each local device). Our analytic results show that perfect global signal amplitude recovery can be achieved under mild conditions on the support size of sparse outliers and the view blockage level. In addition, the exact reconstruction of locally observed signal components is shown to be attainable in the noise-free case by solving a binary optimization problem, subject to a mild requirement on the structure of the sensing matrix. Computer simulations are provided to illustrate the effectiveness of the proposed scheme.