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Address model mismatch and defocus in FZA lensless imaging via model-driven CycleGAN.

作者信息

Ni Cong, Yang Chen, Zhang Xinye, Li Yusen, Zhang Wenwen, Zhai Yusheng, He Weiji, Chen Qian

出版信息

Opt Lett. 2024 Aug 1;49(15):4170-4173. doi: 10.1364/OL.528502.

DOI:10.1364/OL.528502
PMID:39090886
Abstract

Mask-based lensless imaging systems suffer from model mismatch and defocus. In this Letter, we propose a model-driven CycleGAN, MDGAN, to reconstruct objects within a long distance. MDGAN includes two translation cycles for objects and measurements respectively, each consisting of a forward propagation and a backward reconstruction module. The backward module resembles the Wiener-U-Net, and the forward module consists of the estimated image formation model of a Fresnel zone aperture camera (FZACam), followed by CNN to compensate for the model mismatch. By imposing cycle consistency, the backward module can adaptively match the actual depth-varying imaging process. We demonstrate that MDGAN based on either a simulated or calibrated imaging model produces a higher-quality image compared to existing methods. Thus, it can be applied to other mask-based systems.

摘要

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