Michael Bußler scite author profile

Figure 1: Brake Lever dataset. Tensor field lines (a) are continuous but not quantitative. Superquadric glyphs (b) are quantitative but discrete. Von Mises stress rendering (c) is continuous but not showing orientation. Our virtual photoelasticity (d), which corresponds to experimental stress analysis with polariscopes, is continuous, quantitative, and conveys orientation. AbstractWe present a novel physically-based method to visualize stress tensor fields. By incorporating photoelasticity into traditional raycasting and extending it with reflection and refraction, taking into account polarization, we obtain the virtual counterpart to traditional experimental polariscopes. This allows us to provide photoelastic analysis of stress tensor fields in arbitrary domains. In our model, the optical material properties, such as stress-optic coefficient and refractive index, can either be chosen in compliance with the subject under investigation, or, in case of stress problems that do not model optical properties or that are not transparent, be chosen according to known or even new transparent materials. This enables direct application of established polariscope methodology together with respective interpretation. Using a GPU-based implementation, we compare our technique to experimental data, and demonstrate its utility with several simulated datasets.

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Alternative performance capturing

Bußler¹,

Spielmann²,

Rothermel³

et al. 2013

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In this talk we present a combination of well-known and proven HCI techniques to create a markerless performance capturing system based on low-cost consumer hardware for live performances with virtual characters. The use case for our approach was a theatrical play on the occasion of the celebration of the 60 th anniversary 1 of the federal state of Baden-Wuerttemberg, Germany, in which a virtual alter ego of the current prime minister interacted directly with the stage actors and musicians.

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Michael Bußler

Extraction of Fragments and Waves After Impact Damage in Particle-Based Simulations

Visualization of fracture progression in peridynamics

Photoelasticity Raycasting

Alternative performance capturing

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