An Interactive Information Visualization Approach to Physically-Based Rendering
In this work, we present a novel information visualization tool to gain insight into the light transport in a physically-based rendering setting. The tool consists of a sampling-based data reduction technique, an extended interactive parallel coordinates plot providing an overview of the attributes linked to each light sample, 2D and 3D heat maps to represent different aspects of the rendering process, as well as a three-dimensional view to display and animate the light path transportation throughout the scene. We show several applications including differential light transport visualization for scene analysis, lighting and material optimization, reduction of rendering artifacts, and user-guided importance sampling.
Author(s): | Gerard Simons, Marco Ament, Sebastian Herholz, Carsten Dachsbacher, Martin Eisemann, Elmar Eisemann |
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Published: | October 2016 |
Type: | Article in conference proceedings |
Book: | Proc. Vision, Modeling and Visualization (VMV) |
DOI: | 10.2312/vmv.20161356 |
Presented at: | Vision, Modeling and Visualization (VMV) 2016 |
Note: | VMV'16 Best Paper Award |
@inproceedings{simons2020an, title = {An Interactive Information Visualization Approach to Physically-Based Rendering}, author = {Simons, Gerard and Ament, Marco and Herholz, Sebastian and Dachsbacher, Carsten and Eisemann, Martin and Eisemann, Elmar}, booktitle = {Proc. Vision, Modeling and Visualization ({VMV})}, organization = {Eurographics}, doi = {10.2312/vmv.20161356}, note = {{VMV}'16 Best Paper Award}, pages = {1--9}, month = {Oct}, year = {2016} }
Authors
Gerard Simons
ExternalMarco Ament
ExternalSebastian Herholz
ExternalCarsten Dachsbacher
ExternalMartin Eisemann
DirectorElmar Eisemann
External