Penalized-likelihood image reconstruction for digital holography.
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TLDR
A new numerical reconstruction approach using a statistical technique that reconstructs the complex field of the object from the real-valued hologram intensity data and derives an optimization transfer algorithm that monotonically decreases the cost function at each iteration.Abstract:
Conventional numerical reconstruction for digital holography using a filter applied in the spatial-frequency domain to extract the primary image may yield suboptimal image quality because of the loss in high-frequency components and interference from other undesirable terms of a hologram. We propose a new numerical reconstruction approach using a statistical technique. This approach reconstructs the complex field of the object from the real-valued hologram intensity data. Because holographic image reconstruction is an ill-posed problem, our statistical technique is based on penalized-likelihood estimation. We develop a Poisson statistical model for this problem and derive an optimization transfer algorithm that monotonically decreases the cost function at each iteration. Simulation results show that our statistical technique has the potential to improve image quality in digital holography relative to conventional reconstruction techniques.read more
Citations
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Journal ArticleDOI
Accurate unsupervised estimation of aberrations in digital holographic microscopy for improved quantitative reconstruction.
TL;DR: In this article , an unsupervised methodology to estimate the aberrations of an optical microscopy system from a single hologram is described. But the method is based on the Inverse Problems Approach reconstructions of holograms of spherical objects.
Journal ArticleDOI
Improved SNR and super-resolution reconstruction of multi-scale digital holography based on deep learning
TL;DR: In this paper , a method based on deep learning is used to improve the hologram quality and fringe signal-to-noise ratio, and then high-quality reconstructed phase diagrams are obtained as data sets to realize end-toend superresolution reconstruction.
Proceedings ArticleDOI
Hologram encoding strategies for non-Bayesian noise suppression in digital holography reconstructions and optical display
TL;DR: A fast, one-shot, non-Bayesian method which performs a numerical synthesis of a moving aperture in order to reduce the noise in Digital Holography without prior information on its statistics is proposed and a novel encoding formula is shown allowing for denoised holograms to be optically displayed by SLMs.
Robust autofocus for digital-holographic microscopy
Corinne Fournier,Dylan Brault,Thomas Olivier,Nicolas Faure,Sophie Dixneuf,Louis Thibon,Loïc Méès,Loïc Denis +7 more
TL;DR: In this article, a new method to achieve autofocus in digital holography is proposed based on the insertion of calibrated objects in the sample and the use of a robust algorithm to locate these objects.
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Surface profile measurement using nonlinear optimization approach in diffraction phase microscopy
TL;DR: In this paper , a nonlinear optimization based phase retrieval approach was proposed for diffraction phase microscopy for nanoscale surface profile measurement, which relies on minimizing an objective function derived from the interferogram signal and the application of total variation regularization.
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