Skip to search formSkip to main content
You are currently offline. Some features of the site may not work correctly.

Volumetric path tracing

Volumetric path tracing is a method for rendering images in computer graphics which was first introduced by Lafortune and Willems. This method… Expand
Wikipedia

Papers overview

Semantic Scholar uses AI to extract papers important to this topic.
2019
2019
Monte‐Carlo path tracing techniques can generate stunning visualizations of medical volumetric data. In a clinical context, such… Expand
2019
2019
Fig. 1. (Top) We propose the Taichi programming language, which exposes a high-level interface for developing and processing… Expand
  • figure 1
  • figure 2
  • figure 3
  • figure 4
  • figure 5
2018
2018
Path tracing has become a de facto standard for photo-realistic rendering due to its conceptual and algorithmic simplicity. Over… Expand
  • figure 2
  • figure 3
  • figure 4
  • table 1
  • figure 5
2017
2017
Abstract Volumetric path tracing relies on importance sampling to stochastically construct light transport paths from an emitter… Expand
  • figure 1
  • table 1
  • figure 2
  • figure 3
  • figure 4
2016
2016
We address the challenge of efficiently rendering massive assemblies of grains within a forward path-tracing framework. Previous… Expand
  • figure 2
  • table 1
  • figure 3
  • figure 4
  • figure 5
2016
2016
Subsurface scattering is ubiquitous in digital worlds created for films. While diffusion-based approximations are still widely… Expand
  • figure 1
2015
2015
With the development of modern GPUs, the computational power they provide have become more accessible and versatile. This has… Expand
  • figure 1
  • figure 2
  • figure 3
  • figure 4
  • figure 5
2015
2015
We address the problem of modeling and rendering granular materials---such as large structures made of sand, snow, or sugar… Expand
  • figure 1
  • figure 2
2014
2014
For the rendering of multiple scattering effects in participating media, methods based on the diffusion approximation are an… Expand