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Fourier ptychographic microscopy with untrained deep neural network priors

Quan Chen, Duolan Huang, Rui Chen

2022Optics Express50 citationsDOIOpen Access PDF

Abstract

We propose a physics-assisted deep neural network scheme in Fourier ptychographic microscopy (FPM) using untrained deep neural network priors (FPMUP) to achieve a high-resolution image reconstruction from multiple low-resolution images. Unlike the traditional training type of deep neural network that requires a large labelled dataset, this proposed scheme does not require training and instead outputs the high-resolution image by optimizing the parameters of neural networks to fit the experimentally measured low-resolution images. Besides the amplitude and phase of the sample function, another two parallel neural networks that generate the general pupil function and illumination intensity factors are incorporated into the carefully designed neural networks, which effectively improves the image quality and robustness when both the aberration and illumination intensity fluctuation are present in FPM. Reconstructions using simulated and experimental datasets are demonstrated, showing that the FPMUP scheme has better image quality than the traditional iterative algorithms, especially for the phase recovery, but at the expense of increasing computational cost. Most importantly, it is found that the FPMUP scheme can predict the Fourier spectrum of the sample outside synthetic aperture of FPM and thus eliminate the ringing effect of the recovered images due to the spectral truncation. Inspired by deep image prior in the field of image processing, we may impute the expansion of Fourier spectrums to the deep prior rooted in the architecture of the careful designed four parallel deep neural networks. We envisage that the resolution of FPM will be further enhanced if the Fourier spectrum of the sample outside the synthetic aperture of FPM is accurately predicted.

Topics & Concepts

Computer scienceArtificial neural networkFourier transformArtificial intelligenceAlgorithmRobustness (evolution)Iterative reconstructionOpticsImage qualityPtychographyPhase retrievalImage processingPoint spread functionComputer visionImage (mathematics)PhysicsDiffractionChemistryBiochemistryGeneQuantum mechanicsAdvanced X-ray Imaging TechniquesDigital Holography and MicroscopyAdvanced Electron Microscopy Techniques and Applications