In this brief we review several approaches that provide super resolved imaging, overcoming the geometrical limitation of the detector as well as the diffraction effects set by the F number of the imaging lens. In order to obtain the super resolved enhancement, we use spatially non-uniform and/or random transmission structures to encode the image or the aperture planes. The desired resolution enhanced images are obtained by post-processing decoding of the captured data
In optoacoustic imaging, the resolution and image quality in a certain imaging position usually cann...
Described methods for simultaneously generating the super-resolved depth map and the image from LR o...
Because of the wave nature of light, image resolution is limited by the diffraction effects of the f...
In some super-resolution techniques, adjacent points are illuminated at different times. Thereby, th...
We demonstrate the feasibility of achieving superresolved images by using Fourier-plane phase masks ...
Progress in the emerging areas of science and technology, such as bio- and nano-technologies, depen...
It is usually believed that the low frequency part of a signal’s Fourier spectrum represents its pro...
International audienceA number of recent studies discuss the phenomenon of super resolution, thatis,...
Resolution plays a major role for interpretation and analysis of an image. Super Resolution is a tec...
A four-dimensional (4D) super-resolution imaging method (called PSF modulation method) was developed...
A novel single camera combined with Risley prisms is proposed to achieve a super-resolution (SR) ima...
Imaging through a multimode fiber (MMF) with a spatial-resolution beyond the diffraction limit has r...
Superoscillation is the phenomenon where a wave locally oscillates faster than its largest frequency...
Super-resolution of images, particularly the separation of point sources within the Rayleigh limit o...
A brief introduction to spatial-domain Super-Resolution methods, i.e. spatial resolution enhancement...
In optoacoustic imaging, the resolution and image quality in a certain imaging position usually cann...
Described methods for simultaneously generating the super-resolved depth map and the image from LR o...
Because of the wave nature of light, image resolution is limited by the diffraction effects of the f...
In some super-resolution techniques, adjacent points are illuminated at different times. Thereby, th...
We demonstrate the feasibility of achieving superresolved images by using Fourier-plane phase masks ...
Progress in the emerging areas of science and technology, such as bio- and nano-technologies, depen...
It is usually believed that the low frequency part of a signal’s Fourier spectrum represents its pro...
International audienceA number of recent studies discuss the phenomenon of super resolution, thatis,...
Resolution plays a major role for interpretation and analysis of an image. Super Resolution is a tec...
A four-dimensional (4D) super-resolution imaging method (called PSF modulation method) was developed...
A novel single camera combined with Risley prisms is proposed to achieve a super-resolution (SR) ima...
Imaging through a multimode fiber (MMF) with a spatial-resolution beyond the diffraction limit has r...
Superoscillation is the phenomenon where a wave locally oscillates faster than its largest frequency...
Super-resolution of images, particularly the separation of point sources within the Rayleigh limit o...
A brief introduction to spatial-domain Super-Resolution methods, i.e. spatial resolution enhancement...
In optoacoustic imaging, the resolution and image quality in a certain imaging position usually cann...
Described methods for simultaneously generating the super-resolved depth map and the image from LR o...
Because of the wave nature of light, image resolution is limited by the diffraction effects of the f...