Weiskopf, D. and Ertl, T.: Shadow Mapping Based on Dual Depth Layers[0]
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| Shadow mapping by using dual depth layers for a factory test scene |
Diepstraten, J. and Weiskopf, D. and Ertl, T.: Interactive Cutaway Illustrations[5]
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| Cutout example picture of a Lancia Delta 5 motorblock, using cool-warm shading and shadow mapping | Cutout example picture of a Lancia Delta 5 motorblock, using specular toon shading and shadow mapping | Breakout example picture of a tube with cool-warm shading |
Weiskopf, D. and Ertl, T.: Real-Time Depth-Cueing Beyond Fogging[12]
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| Terrain rendering without depth cueing. | Terrain rendering with intensity depth cueing. | Terrain rendering with saturation depth cueing. |
Rose, D. and Stegmaier, S. and Reina, G. and Weiskopf, D. and Ertl, T.: Non-invasive Adaptation of Black-box User Interfaces[17]
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| Non-invasively adapted GLUT menu on an iPAQ |
Stegmaier, S. and Schulz, M. and Ertl, T.: Resampling of Large Datasets for Industrial Flow Visualization[22]
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| Slice through the engine compartment of a BMW 528i (resampled dataset). Dataset courtesy of BMW AG. |
Reina, G. and Lange-Last, S. and Engel, K. and Ertl, T.: Guided Navigation in Task-Oriented 3D Graph Visualizations[27]
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| Example configuration overview | Processor detail view with selected partition |
Weiskopf, D. and Engel, K. and Ertl, T.: Interactive Clipping Techniques for Texture-Based Volume Visualization and Volume Shading[33]
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| Cylindrical clip object in a CT data set. | CT data set: volume shading in combination with clipping. | Engine data set: volume shading in combination with clipping. |
Hopf, M. and Ertl, T.: Hierarchical Splatting of Scattered Data[38]
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| Galaxy cluster simulation with 64 million particles. Courtesy of the VIRGO consortium. | Molecular dynamics simulation in a quasi crystal with one million atoms. | Reversible Apollonian packing of 6 million particles, rendered with sorted semi-transparent point sprites. | SPH and dark matter galaxy formation simulation rendered with sorted anti-aliased points. | Visualization of a Diesel injection shock front, simulated with SPH using 2.5 million points. | Dark matter and SPH simulation. Courtesy of the Texas Advanced Computing Center. | Galaxy cluster closeup n-body simulation with 16 million particles, rendered interactively. Courtesy of the VIRGO consortium. |
Klein, T. and Eissele, M. and Weiskopf, D. and Ertl, T.: Simulation, Modelling and Rendering of Incompressible Fluids in Real Time[49]
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| Comparison of rendering effects: reflections only, refractions only, Fresnel blending of reflections and refractions, all rendering effects including noise-based surface detail | Example scene of the fluid rendering. | Example scene of the fluid rendering. | Example scene of the fluid rendering. |
