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Conference Paper

A Ray Tracing based Framework for High-Quality Virtual Reality in Industrial Design Applications

MPS-Authors
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Wald,  Ingo
Computer Graphics, MPI for Informatics, Max Planck Society;

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Benthin,  Carsten
Computer Graphics, MPI for Informatics, Max Planck Society;

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Efremov,  Alexander
Computer Graphics, MPI for Informatics, Max Planck Society;

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Günther,  Johannes
Computer Graphics, MPI for Informatics, Max Planck Society;

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Havran,  Vlastimil
Computer Graphics, MPI for Informatics, Max Planck Society;

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Seidel,  Hans-Peter       
Computer Graphics, MPI for Informatics, Max Planck Society;

/persons/resource/persons45688

Wald,  Ingo
Computer Graphics, MPI for Informatics, Max Planck Society;

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Citation

Wald, I., Dietrich, A., Benthin, C., Efremov, A., Dahmen, T., Günther, J., et al. (2006). A Ray Tracing based Framework for High-Quality Virtual Reality in Industrial Design Applications. In Proceedings of the 2006 IEEE Symposium on Interactive Ray Tracing (pp. 177-185). Piscataway, USA: IEEE.


Cite as: https://hdl.handle.net/11858/00-001M-0000-000F-221C-D
Abstract
Computer aided design (CAD) and virtual reality (VR) are becoming increasingly important tools for industrial design applications. Unfortunately, there is a huge and growing gap between what data CAD engineers are working on, what rendering quality is needed by designers and executives to faithfully judge a design variant, and what rendering capabilities are offered by commonly available VR frameworks. In particular, existing VR systems cannot currently cope with the accuracy demanded by CAD engineers, nor can they deliver the photo-realistic rendering quality and reliability required by designers and decision makers. In this paper, we describe a ray tracing based virtual reality framework that closes these gaps. In particular, the proposed system supports direct ray tracing of trimmed freeform surfaces even for complex models of thousands of patches, allows for accurately simulating reflections and refraction for glass and car paint effects, offers support for direct integration of measured materials via bidirectional texture functions, and even allows for soft environmental lighting from high dynamic range environment maps. All of these effects can be delivered interactively, and are demonstrated on a real-world industrial model, a complete Mercedes C-Class car.