Add to ORKGImaging through perturbed multimode fibres based on deep learning has been widely researched. However, existing methods mainly use target-speckle pairs in different configurations. It is challenging to reconstruct targets without trained networks. In this paper, we propose a physics-assisted, unsupervised, learning-based fibre imaging scheme. The role of the physical prior is to simplify the mapping relationship between the speckle pattern and the target image, thereby reducing the computational complexity. The unsupervised network learns target features according to the optimized direction provided by the physical prior. Therefore, the reconstruction process of the online learning only requires a few speckle patterns and unpaired targets. ...
We demonstrate the use of deep learning for fast spectral deconstruction of speckle patterns. The ar...
We propose a deep learning based method to estimate high-resolution images from multiple fiber bundl...
International audienceSpeckle-correlation imaging techniques are widely used for noninvasive imaging...
Image transmission through a multi-mode fiber is a difficult task given the complex interference of ...
A multimode fiber represents the ultimate limit in miniaturization of imaging endoscopes. Here we pr...
Multimode fibers (MMF) are remarkable high-capacity information channels. However, the MMF transmiss...
Multimode fibers (MMFs) are an example of a highly scattering medium, which scramble the coherent li...
International audienceFluorescence imaging through ultrathin fibers is a promising approach to obtai...
Fiber bundle imaging systems use a bundle of single coherent fiber cores as imaging probe to capture...
In recent years, the technology of multi-mode fiber (MMF) output speckle recognition has been widely...
We propose a data -driven approach for light transmission control inside multimode fibers (MMFs). Sp...
Fiber Specklegram Sensors (FSSs) are highly sensitive to external perturbations, however, trying to ...
Image delivery through multimode fibers (MMFs) suffers from modal scrambling which results in a spec...
Multimode fibres offer an extremely promising alternative to single mode fibre bundles in use as hi...
Multimode fibers (MMFs) have the potential to carry complex images for endoscopy and related applica...
We demonstrate the use of deep learning for fast spectral deconstruction of speckle patterns. The ar...
We propose a deep learning based method to estimate high-resolution images from multiple fiber bundl...
International audienceSpeckle-correlation imaging techniques are widely used for noninvasive imaging...
Image transmission through a multi-mode fiber is a difficult task given the complex interference of ...
A multimode fiber represents the ultimate limit in miniaturization of imaging endoscopes. Here we pr...
Multimode fibers (MMF) are remarkable high-capacity information channels. However, the MMF transmiss...
Multimode fibers (MMFs) are an example of a highly scattering medium, which scramble the coherent li...
International audienceFluorescence imaging through ultrathin fibers is a promising approach to obtai...
Fiber bundle imaging systems use a bundle of single coherent fiber cores as imaging probe to capture...
In recent years, the technology of multi-mode fiber (MMF) output speckle recognition has been widely...
We propose a data -driven approach for light transmission control inside multimode fibers (MMFs). Sp...
Fiber Specklegram Sensors (FSSs) are highly sensitive to external perturbations, however, trying to ...
Image delivery through multimode fibers (MMFs) suffers from modal scrambling which results in a spec...
Multimode fibres offer an extremely promising alternative to single mode fibre bundles in use as hi...
Multimode fibers (MMFs) have the potential to carry complex images for endoscopy and related applica...
We demonstrate the use of deep learning for fast spectral deconstruction of speckle patterns. The ar...
We propose a deep learning based method to estimate high-resolution images from multiple fiber bundl...
International audienceSpeckle-correlation imaging techniques are widely used for noninvasive imaging...