Imaging through dynamic scattering media is one of the most challenging yet fascinating problems in optics,with applications spanning from biological detection to remote sensing.In this study,we propose a comprehensiv...Imaging through dynamic scattering media is one of the most challenging yet fascinating problems in optics,with applications spanning from biological detection to remote sensing.In this study,we propose a comprehensive learning-based technique that facilitates real-time,non-invasive,incoherent imaging of real-world objects through dense and dynamic scattering media.We conduct extensive experiments,demonstrating the capability of our technique to see through turbid water and natural fog.The experimental results indicate that the proposed technique surpasses existing approaches in numerous aspects and holds significant potential for imaging applications across a broad spectrum of disciplines.展开更多
基金National Natural Science Foundation of China(62325508,61991452)Program of Shanghai Academic Research Leader(22XD1403900)+1 种基金Shanghai Municipal Science and Technology Major ProjectShanghai Yangfan Program(23YF1454200).
文摘Imaging through dynamic scattering media is one of the most challenging yet fascinating problems in optics,with applications spanning from biological detection to remote sensing.In this study,we propose a comprehensive learning-based technique that facilitates real-time,non-invasive,incoherent imaging of real-world objects through dense and dynamic scattering media.We conduct extensive experiments,demonstrating the capability of our technique to see through turbid water and natural fog.The experimental results indicate that the proposed technique surpasses existing approaches in numerous aspects and holds significant potential for imaging applications across a broad spectrum of disciplines.
