Litcius/Paper detail

NeuWS: Neural wavefront shaping for guidestar-free imaging through static and dynamic scattering media

Brandon Y. Feng, Haiyun Guo, Mingyang Xie, Vivek Boominathan, Manoj Kumar Sharma, Ashok Veeraraghavan, Christopher A. Metzler

2023Science Advances71 citationsDOIOpen Access PDF

Abstract

Diffraction-limited optical imaging through scattering media has the potential to transform many applications such as airborne and space-based imaging (through the atmosphere), bioimaging (through skin and human tissue), and fiber-based imaging (through fiber bundles). Existing wavefront shaping methods can image through scattering media and other obscurants by optically correcting wavefront aberrations using high-resolution spatial light modulators-but these methods generally require (i) guidestars, (ii) controlled illumination, (iii) point scanning, and/or (iv) statics scenes and aberrations. We propose neural wavefront shaping (NeuWS), a scanning-free wavefront shaping technique that integrates maximum likelihood estimation, measurement modulation, and neural signal representations to reconstruct diffraction-limited images through strong static and dynamic scattering media without guidestars, sparse targets, controlled illumination, nor specialized image sensors. We experimentally demonstrate guidestar-free, wide field-of-view, high-resolution, diffraction-limited imaging of extended, nonsparse, and static/dynamic scenes captured through static/dynamic aberrations.

Topics & Concepts

WavefrontOpticsComputer scienceScatteringAdaptive opticsSpatial light modulatorDiffractionPhysicsComputer visionRandom lasers and scattering mediaDigital Holography and MicroscopyAdvanced Optical Imaging Technologies