DGD gallery. Discretization in Geometry and Dynamics, SFB Transregio 109. The central goal of the SFB/Transregio is to pursue research on the discretization of differential geometry and dynamics. In both fields of mathematics, the objects under investigation are usually governed by differential equations. Generally, the term ”discretization” refers to any procedure that turns a differential equation into difference equations involving only finitely many variables, whose solutions approximate those of the differential equation. The common idea of our research in geometry and dynamics is to find and investigate discrete models that exhibit properties and structures characteristic of the corresponding smooth geometric objects and dynamical processes. If we refine the discrete models by decreasing the mesh size they will of course converge in the limit to the conventional description via differential equations. But in addition, the important characteristic qualitative features should be captured even at the discrete level, independent of the continuous limit. The resulting discretizations constitutes a fundamental mathematical theory, which incorporates the classical analog in the continuous limit. The SFB/Transregio brings together scientists from the fields of geometry and dynamics, to join forces in tackling the numerous problems raised by the challenge of discretizing their respective disciplines.
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References in zbMATH (referenced in 6 articles )
Showing results 1 to 6 of 6.
- Bobenko, Alexander I.; Bücking, Ulrike; Sechelmann, Stefan: Discrete minimal surfaces of Koebe type (2017)
- Toth, Csaba D. (ed.); Goodman, Jacob E. (ed.); O’Rourke, Joseph (ed.): Handbook of discrete and computational geometry (2017)
- Bobenko, Alexander I.; Sechelmann, Stefan; Springborn, Boris: Discrete conformal maps: boundary value problems, circle domains, Fuchsian and Schottky uniformization (2016)
- Gawrilow, Ewgenij; Hampe, Simon; Joswig, Michael: The \textbfpolymakeXML file format (2016)
- Joswig, Michael; Mehner, Milan; Sechelmann, Stefan; Techter, Jan; Bobenko, Alexander I.: DGD Gallery: storage, sharing, and publication of digital research data (2016)
- von Gagern, Martin; Kortenkamp, Ulrich; Richter-Gebert, Jürgen; Strobel, Michael: CindyJS -- mathematical visualization on modern devices (2016)