Fiber-based endoscopic compressive imaging is a promising field for minimal invasive, in vivo imaging below the diffraction limit and enhanced acquisition time. Here, we analyse and present the theoretical limits of speckle-based compressive imaging
Acquiring high-contrast optical images deep inside biological tissues is still a challenging problem...
Different from imaging an object through a multimode optical fiber (MMF) directly, it is much more c...
An optical fiber is a promising tool for remote imaging [1]. A multimode fiber (MMF) offers multiple...
Fiber-based endoscopic compressive imaging is a promising field for minimal invasive, in vivo imagin...
We propose and experimentally demonstrate a new concept of endo-microscopy: compressive multimode (M...
Endoscopy is a key technology for minimally-invasive optical access to deep tissues in humans and li...
International audienceFluorescence imaging through ultrathin fibers is a promising approach to obtai...
Far-field optical microscopy typically suffers from limited resolution, speed and imaging depth. End...
Far-field optical microscopy typically suffers from limited resolution, speed and imaging depth. End...
Compressed sensing (CS) is a signal processing technique that provides a theoretical framework for a...
Glass fibers are miniature optical components that serve as ultra-narrow endoscopy probes. Ideally, ...
Lensless endoscopy (LE) with multicore fibers (MCF) enables fluorescent imaging of biological sample...
Compressed sensing applied to optical microscopy enables imaging with a number of measurements below...
Currently, endoscopic surgery uses single-mode fiber-bundles to obtain in vivo image information ins...
The lensless endoscope is a promising device designed to image tissues in vivo at the cellular scale...
Acquiring high-contrast optical images deep inside biological tissues is still a challenging problem...
Different from imaging an object through a multimode optical fiber (MMF) directly, it is much more c...
An optical fiber is a promising tool for remote imaging [1]. A multimode fiber (MMF) offers multiple...
Fiber-based endoscopic compressive imaging is a promising field for minimal invasive, in vivo imagin...
We propose and experimentally demonstrate a new concept of endo-microscopy: compressive multimode (M...
Endoscopy is a key technology for minimally-invasive optical access to deep tissues in humans and li...
International audienceFluorescence imaging through ultrathin fibers is a promising approach to obtai...
Far-field optical microscopy typically suffers from limited resolution, speed and imaging depth. End...
Far-field optical microscopy typically suffers from limited resolution, speed and imaging depth. End...
Compressed sensing (CS) is a signal processing technique that provides a theoretical framework for a...
Glass fibers are miniature optical components that serve as ultra-narrow endoscopy probes. Ideally, ...
Lensless endoscopy (LE) with multicore fibers (MCF) enables fluorescent imaging of biological sample...
Compressed sensing applied to optical microscopy enables imaging with a number of measurements below...
Currently, endoscopic surgery uses single-mode fiber-bundles to obtain in vivo image information ins...
The lensless endoscope is a promising device designed to image tissues in vivo at the cellular scale...
Acquiring high-contrast optical images deep inside biological tissues is still a challenging problem...
Different from imaging an object through a multimode optical fiber (MMF) directly, it is much more c...
An optical fiber is a promising tool for remote imaging [1]. A multimode fiber (MMF) offers multiple...
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