Wavelet-based adaptive optics

Abstract: Adaptive systems are useful when the signals or images are changing with time. For example, with adaptive wavelets, different filters are used for different parts of the signal: the signal itself should indicate whether a high or low order filter should be used. With adaptive optics, rapidly varying atmospheric wavefront distortions in a medium changing with time is reduced using optics: i.e. in astronomical adaptive optical systems, a system of control-driven deformable mirrors eliminates distortion produced … Show more

“…Here we propose a novel method to measure aberrations that is based on multi-scale wavelet analysis [ 12 ]. Wavelets have been employed in the past to solve denoising problems in microscopy [ 13 , 14 ] and in sensor-based adaptive optics systems [ 15 ]. Nonetheless, to the best of our knowledge, the use of wavelets to measure aberrations in fluorescence microscopy has not been previously reported.…”

Multi-scale sensorless adaptive optics: application to stimulated emission depletion microscopy

“…Here we propose a novel method to measure aberrations that is based on multi-scale wavelet analysis [ 12 ]. Wavelets have been employed in the past to solve denoising problems in microscopy [ 13 , 14 ] and in sensor-based adaptive optics systems [ 15 ]. Nonetheless, to the best of our knowledge, the use of wavelets to measure aberrations in fluorescence microscopy has not been previously reported.…”

Multi-scale sensorless adaptive optics: application to stimulated emission depletion microscopy

Wavelet-based wavefront control