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Article Dans Une Revue Sensors Année : 2023

A physics-inspired deep learning framework for an efficient fourier ptychographic microscopy reconstruction under low overlap conditions

Résumé

Two-dimensional observation of biological samples at hundreds of nanometers resolution or even below is of high interest for many sensitive medical applications. Recent advances have been obtained over the last ten years with computational imaging. Among them, Fourier Ptychographic Microscopy is of particular interest because of its important super-resolution factor. In complement to traditional intensity images, phase images are also produced. A large set of raw images (with typically = 225) is, however, required because of the reconstruction process that is involved. In this paper, we address the problem of FPM image reconstruction using a few raw images only (here, = 37) as is highly desirable to increase microscope throughput. In contrast to previous approaches, we develop an algorithmic approach based on a physics-informed optimization deep neural network and statistical reconstruction learning. We demonstrate its efficiency with the help of simulations. The forward microscope image formation model is explicitly introduced in the deep neural network model to optimize its weights starting from an initialization that is based on statistical learning. The simulation results that are presented demonstrate the conceptual benefits of the approach. We show that high-quality images are effectively reconstructed without any appreciable resolution degradation. The learning step is also shown to be mandatory.
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Dates et versions

hal-04397977 , version 1 (16-01-2024)

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Lyes Bouchama, Bernadette Dorizzi, Yaneck Gottesman, Jacques Klossa. A physics-inspired deep learning framework for an efficient fourier ptychographic microscopy reconstruction under low overlap conditions. Sensors, 2023, 23 (15), pp.6829. ⟨10.3390/s23156829⟩. ⟨hal-04397977⟩
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