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Deep Volumetric Ambient Occlusion

Dominik Engel, Timo Ropinski

2020IEEE Transactions on Visualization and Computer Graphics25 citationsDOIOpen Access PDF

Abstract

We present a novel deep learning based technique for volumetric ambient occlusion in the context of direct volume rendering. Our proposed Deep Volumetric Ambient Occlusion (DVAO) approach can predict per-voxel ambient occlusion in volumetric data sets, while considering global information provided through the transfer function. The proposed neural network only needs to be executed upon change of this global information, and thus supports real-time volume interaction. Accordingly, we demonstrate DVAO's ability to predict volumetric ambient occlusion, such that it can be applied interactively within direct volume rendering. To achieve the best possible results, we propose and analyze a variety of transfer function representations and injection strategies for deep neural networks. Based on the obtained results we also give recommendations applicable in similar volume learning scenarios. Lastly, we show that DVAO generalizes to a variety of modalities, despite being trained on computed tomography data only.

Topics & Concepts

Volume renderingComputer scienceRendering (computer graphics)Artificial intelligenceOcclusionVoxelArtificial neural networkDeep learningComputer visionVolume (thermodynamics)Context (archaeology)Transfer of learningMedicineQuantum mechanicsPaleontologyPhysicsCardiologyBiologyComputer Graphics and Visualization TechniquesAdvanced Vision and ImagingImage and Video Quality Assessment