Coherent Scattering and Memory Effect in Imaging Through Scattering Layers

Explore the fascinating world of coherent scattering and memory effect in this 52-minute webinar presented by Prof. Anat Levin for the IEEE Signal Processing Society SPACE Webinar Series. Delve into applications and related work, examining Monte Carlo simulation of speckle and comparing wave solutions to Monte Carlo intensity. Investigate speckle covariance and cross-illumination statistics before diving into Monte Carlo Rendering 101 and covariance rendering. Validate findings by comparing wave equation covariances to N-rendering speckles and evaluating the memory effect. Discover techniques for seeing through scattering layers and explore real-world challenges in near-field see-through applications. Gain valuable insights into this complex field of signal processing and optical phenomena.

Intro
Coherent Scattering and Memory Effect
Applications and Related Work
Monte Carlo (MC) Simulation of Speckle
Wave solution v.s. Monte Carlo intensit
Speckle covariance
Cross-illumination statistics
Monte Carlo Rendering 101
Covariance rendering
Validation: Wave Equation Covariances v.s. N
Rendering Speckles
Evaluating the Memory Effect
Seeing Through Scattering Layers kart
Seeing through scattering: real challenge
Near-field see-through?
Summary