Layered Weighted Blended Order-Independent Transparency
Our approach improves the accuracy of weighted blended order-independent transparency, while remaining efficient and easy to implement. We extend the original algorithm to a layer-based approach, where the content of each layer is blended independently before compositing them globally. Hereby, we achieve a partial ordering but avoid explicit sorting of all elements. To ensure smooth transitions across layers, we introduce a new weighting function. Additionally, we propose several optimizations and demonstrate the method’s effectiveness on various challenging scenes in terms of geometric- and depth complexity. We achieve an error reduction more than an order of magnitude on average compared to weighted blended order-independent transparency for our test scenes.
Author(s): | Fabian Friederichs, Elmar Eisemann, Martin Eisemann |
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Published: | May 2021 |
Type: | Article in conference proceedings |
Book: | Proc. Graphics Interface (GI) |
Presented at: | Graphics Interface 2021 |
@inproceedings{abbott2021layered, title = {Layered Weighted Blended Order-Independent Transparency}, author = {Friederichs, Fabian and Eisemann, Elmar and Eisemann, Martin}, booktitle = {Proc. Graphics Interface ({GI})}, pages = {1--6}, month = {May}, year = {2021} }
Authors
Fabian Friederichs
ResearcherElmar Eisemann
ExternalMartin Eisemann
Director