Path-Space Differentiable Rendering Physics-based Differentiable Rendering Physics-based differentiable rendering, the estimation of derivatives of radiometric measures with respect to arbitrary scene parameters, has a diverse array of applications from solving...
High Resolution DOT Diffuse Optical Tomography Diffuse optical tomography (DOT) is an approach to recover subsurface structures beneath the skin by measuring light propagation beneath the surface. The method is based on optimizing the difference between the images...
A Differential Theory of Radiative Transfer The Need for Differentiable Rendering Physics-based differentiable rendering is the task of estimating the derivatives of radiometric measures with respect to scene parameters. The ability to compute these derivatives is...
Surface Optimization for NLOS Imaging Surface vs Volumetric Representation of NLOS Object Non-line-of-sight (NLOS) imaging is the problem of reconstructing properties of scenes occluded from a sensor, using measurements of light that indirectly travels from the...
Monte Carlo for Rendering Speckle Statistics Physically Accurate Rendering of Speckle We present a Monte Carlo rendering framework for the physically-accurate simulation of speckle patterns arising from the volumetric scattering of coherent waves. These noise-like...
