International audienceConventional microscopy systems have limited depth of field, which often necessitates depth scanning techniques hindered by light scattering. Various techniques have been developed to address this challenge, but they have limited extended depth of field (EDOF) capabilities. To overcome this challenge, this study proposes an end-to-end optimization framework for building a computational EDOF microscope that combines a 4f microscopy optical setup incorporating a learned optics at the Fourier plane and a post-processing deblurring neural network. Utilizing the end-to-end differentiable model, we present a systematic design methodology for computational EDOF microscopy based on the specific visualization requirements of th...
Due to the limited depth of field of brightfield microscopes, it is usually impossible to image thic...
We present a novel deep learning approach to reconstruct confocal microscopy stacks from single ligh...
A nonintrusive far-field optical microscopy resolving structures at the nanometer scale would revolu...
Conventional microscopy systems have limited depth of field, which often necessitates depth scanning...
Depth of field is an important factor of imaging systems that highly affects the quality of the acqu...
Abstract A computational imaging platform utilizing a physics-incorporated, deep-learned design of b...
International audienceThis paper addresses the problem of capturing a light field using a single tra...
We present a learning-based optimization framework for depth of field extension, combining rigorous ...
We use deep learning to optimize the end-to-end design of computational microscopes, jointly designi...
Conventional 3D imaging techniques such as laser scanning, focus-stacking and confocal microscopy ei...
Depth of field (DOF), the range of scene depths that appear sharp in a photograph, poses a fundament...
In this study, we evaluated a point-spread function (PSF) engineered using wave front encoding (WFE)...
An inverse relationship exists in optical systems between the depth of field (DOF) and the minimum r...
We propose to use deep convolutional neural networks (DCNNs) to perform 2D and 3D computational imag...
Ever since the first microscope by Zacharias Janssen in the late 16th century, scientists have been ...
Due to the limited depth of field of brightfield microscopes, it is usually impossible to image thic...
We present a novel deep learning approach to reconstruct confocal microscopy stacks from single ligh...
A nonintrusive far-field optical microscopy resolving structures at the nanometer scale would revolu...
Conventional microscopy systems have limited depth of field, which often necessitates depth scanning...
Depth of field is an important factor of imaging systems that highly affects the quality of the acqu...
Abstract A computational imaging platform utilizing a physics-incorporated, deep-learned design of b...
International audienceThis paper addresses the problem of capturing a light field using a single tra...
We present a learning-based optimization framework for depth of field extension, combining rigorous ...
We use deep learning to optimize the end-to-end design of computational microscopes, jointly designi...
Conventional 3D imaging techniques such as laser scanning, focus-stacking and confocal microscopy ei...
Depth of field (DOF), the range of scene depths that appear sharp in a photograph, poses a fundament...
In this study, we evaluated a point-spread function (PSF) engineered using wave front encoding (WFE)...
An inverse relationship exists in optical systems between the depth of field (DOF) and the minimum r...
We propose to use deep convolutional neural networks (DCNNs) to perform 2D and 3D computational imag...
Ever since the first microscope by Zacharias Janssen in the late 16th century, scientists have been ...
Due to the limited depth of field of brightfield microscopes, it is usually impossible to image thic...
We present a novel deep learning approach to reconstruct confocal microscopy stacks from single ligh...
A nonintrusive far-field optical microscopy resolving structures at the nanometer scale would revolu...