Christian Freude, Hiroyuki Sakai, Karoly Zsolnai-FehérORCID iD, Michael WimmerORCID iD
Sampling-Distribution-Based Evaluation for Monte Carlo Rendering
In Proceedings of the 18th International Joint Conference on Computer Vision, Imaging and Computer Graphics Theory and Applications, pages 119-130. 2023.
[image] [paper]

Elias Brugger, Christian Freude, Michael WimmerORCID iD
Test Scene Design for Physically Based Rendering

[paper] [arXiv]

Christian Freude, Hiroyuki Sakai, Karoly Zsolnai-FehérORCID iD, Michael WimmerORCID iD
R-Score: A Novel Approach to Compare Monte Carlo Renderings
TR-193-02-2020-4, August 2020 [technical-report]

Elias Brugger
Test Scene Design for Physically Based Rendering
[thesis]

Andreas Wiesinger
An Open Database for Physically Based Rendering
[thesis]

Adam Celarek, Wenzel Jakob, Michael WimmerORCID iD, Jaakko Lehtinen
Quantifying the Error of Light Transport Algorithms
Computer Graphics Forum, 38(4):111-121, July 2019. [paper_preprint] [Git repository]

Adam Celarek
Quantifying the Convergence of Light-Transport Algorithms
[poster] [thesis]