Title :
VRML scene graphs on an interactive ray tracing engine
Author :
Dietrich, Andreas ; Wald, Ingo ; Wagner, Markus ; Slusallek, Philipp
Author_Institution :
Comput. Graphics Group, Saarland Univ., Saarbriicken, Germany
Abstract :
With the recent advances in ray tracing technology, high-quality image generation at interactive rates has finally become a reality. As a consequence ray tracing likely plays a larger role in visualization systems, enabling the conception and creation of completely new interactive graphics applications. In this paper, we describe the design and development of a ray tracing-based VRML browser and editor as a case study of such an application. It exploits all advantages of ray tracing, including physically-correct plug and play shading and support for large models. In particular we demonstrate how to overcome the limitations that result from existing scene graph libraries and data exchange formats still being targeted towards rasterization technology. Also we show how to extend the VRML lighting model and to optimize scene graph handling for ray tracing.
Keywords :
data visualisation; interactive systems; ray tracing; realistic images; software libraries; virtual reality; VRML browser; VRML editor; VRML scene graphs; consequence ray tracing; data exchange; high-quality image generation; interactive graphics; interactive ray tracing engine; lighting model; physically-correct plug-and-play shading; rasterization technology; scene graph handling; scene graph libraries; visualization systems; Design optimization; Engines; Hardware; Layout; Libraries; Manufacturing industries; Process design; Ray tracing; Virtual reality; Visualization;
Conference_Titel :
Virtual Reality, 2004. Proceedings. IEEE
Print_ISBN :
0-7803-8415-6
DOI :
10.1109/VR.2004.1310063
