Litcius/Paper detail

Imaging through scattering media via spatial–temporal encoded pattern illumination

Xingchen Zhao, Xiaoyu Nie, Zhenhuan Yi, Tao Peng, M. O. Scully

2022Photonics Research26 citationsDOIOpen Access PDF

Abstract

Optical imaging through scattering media has long been a challenge. Many approaches have been developed for focusing light or imaging objects through scattering media, but usually, they are either invasive, limited to stationary or slow-moving media, or require high-resolution cameras and complex algorithms to retrieve the images. By utilizing spatial–temporal encoded patterns (STEPs), we introduce a technique for the computation of imaging that overcomes these restrictions. With a single-pixel photodetector, we demonstrate non-invasive imaging through scattering media. This technique is insensitive to the motion of the media. Furthermore, we demonstrate that our image reconstruction algorithm is much more efficient than correlation-based algorithms for single-pixel imaging, which may allow fast imaging for applications with limited computing resources.

Topics & Concepts

OpticsScatteringLight scatteringSpatial frequencyImage resolutionPhysicsRandom lasers and scattering mediaAdvanced Optical Imaging TechnologiesComputer Graphics and Visualization Techniques