A new method is presented which provides prediction of the spatially variant point spread function for the restoration of astronomical images, distorted by atmospheric turbulence when viewed using ground-based telescopes. Our approach uses reservoir computing to firstly learn the spatio-temporal evolution of aberrations caused by turbulence, and secondly, predicts the space-varying point spread function (PSF) for application of widely-used deconvolution algorithms, resulting in the restoration of astronomical images. In this article, a reservoir-based, recurrent neural network is used to predict modal aberrations that comprise the spatially variant PSF over a wide field-of-view using a time-series ensemble from multiple reference beacons
La résolution des images astronomiques est sévèrement dégradée par la turbulence atmosphérique. La r...
We present a two-step technique for estimating the point spread function (PSF) field from a single s...
Modern ground-based telescopes rely on Adaptive Optics (AO) systems, which compensate for atmospheri...
Abstract—A new method is presented which provides prediction of the spatially variant point spread f...
Over the last four decades there has been considerable research in the improvement of imaging exo-at...
Atmospheric turbulence corrupts astronomical images formed by ground-based telescopes. Adaptive opti...
Atmospheric turbulence corrupts astronomical images formed by ground-based telescopes. Adaptive opti...
Astronomical images, degraded by the effects of atmospheric turbulence, can be corrected in real-tim...
Accepted for publication in A&A; 6 pages, 3 figuresInternational audienceContext. The knowledge of t...
Astronomical images, degraded by the effects of atmospheric turbulence, can be corrected in real-tim...
Atmospheric turbulence corrupts astronomical images formed by ground-based telescopes. Adaptive opti...
Optical astronomical images are strongly affected by the point spread function (PSF) of the optical ...
International audienceContext. Adaptive optics (AO) systems greatly increase the resolution of large...
Context. Adaptive optics (AO) systems greatly increase the resolution of large telescopes, but produ...
Context.The knowledge of the point-spread function compensated by adaptive optics is of prime import...
La résolution des images astronomiques est sévèrement dégradée par la turbulence atmosphérique. La r...
We present a two-step technique for estimating the point spread function (PSF) field from a single s...
Modern ground-based telescopes rely on Adaptive Optics (AO) systems, which compensate for atmospheri...
Abstract—A new method is presented which provides prediction of the spatially variant point spread f...
Over the last four decades there has been considerable research in the improvement of imaging exo-at...
Atmospheric turbulence corrupts astronomical images formed by ground-based telescopes. Adaptive opti...
Atmospheric turbulence corrupts astronomical images formed by ground-based telescopes. Adaptive opti...
Astronomical images, degraded by the effects of atmospheric turbulence, can be corrected in real-tim...
Accepted for publication in A&A; 6 pages, 3 figuresInternational audienceContext. The knowledge of t...
Astronomical images, degraded by the effects of atmospheric turbulence, can be corrected in real-tim...
Atmospheric turbulence corrupts astronomical images formed by ground-based telescopes. Adaptive opti...
Optical astronomical images are strongly affected by the point spread function (PSF) of the optical ...
International audienceContext. Adaptive optics (AO) systems greatly increase the resolution of large...
Context. Adaptive optics (AO) systems greatly increase the resolution of large telescopes, but produ...
Context.The knowledge of the point-spread function compensated by adaptive optics is of prime import...
La résolution des images astronomiques est sévèrement dégradée par la turbulence atmosphérique. La r...
We present a two-step technique for estimating the point spread function (PSF) field from a single s...
Modern ground-based telescopes rely on Adaptive Optics (AO) systems, which compensate for atmospheri...