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Wagner Group

Discrete and Computational Geometry and Topology

How and when can a geometric shape be embedded in n-dimensional space without self-intersections? What restrictions does it place on the shape? These and other questions in combinatorial and computational geometry and topology are central to the Wagner group’s research program.

A simplicial complex is a description of how to represent a geometric shape by gluing together points, edges, triangles, and their n-dimensional counterparts in a “nice” way. Simplicial complexes are a natural way to represent shapes for the purposes of computation and algorithm design, and the Wagner group explores both their topological properties, such as embeddability, as well as what can be proved about their combinatorics – e.g. bounds on the number of simplices – given a particular geometric or topological constraint. More generally, they take classically topological questions and consider them from a combinatorial point of view, and conversely, they use techniques and ideas from topology to approach questions in combinatorics. They are moreover interested in the computational aspects of such problems, in particular questions of decidability (does an algorithm exist?) and complexity (if so, what are the costs in terms of time or space?).




Team


Current Projects

Embeddings of simplicial complexes | Topological Tverbergtype problems and multiple self-intersections of maps | Discrete isoperimetric inequalities and higher-dimensional expanders


Publications

Lipiński M, Mischaikow K, Mrozek M. 2024. Morse predecomposition of an invariant set. Qualitative Theory of Dynamical Systems. 24, 5. View

De Nooijer P, Terziadis S, Weinberger A, Masárová Z, Mchedlidze T, Löffler M, Rote G. 2024. Removing popular faces in curve arrangements. Journal of Graph Algorithms and Applications. 28(2), 47–82. View

Brunck FR, Kwan MA. 2024. Books, Hallways, and social butterflies: A note on sliding block puzzles. Mathematical Intelligencer. View

Beďatš D. 2024. Separation of variables for scalar-valued polynomials in the non-stable range. Journal of Algebra. 651, 281–304. View

Lopushanski M, Ivanov G. 2024. A constructive algorithm for building rectifiable curves in weakly convex sets. AIP Conference Proceedings. ICCMSE: International Conference of Computational Methods in Sciences and Engiineering vol. 3030, 080002. View

View All Publications

ReX-Link: Uli Wagner


Career

Since 2018 Professor, Institute of Science and Technology Austria (ISTA)
2013 – 2018 Assistant Professor, Institute of Science and Technology Austria (ISTA)
2012 – 2013 SNSF Research Assistant Professor, Institut de Mathématiques de Géométrie et Applications, EPFL, Lausanne, Switzerland
2008 – 2012 Senior Research Associate, Institute of Theoretical Computer Science, ETH Zurich, Switzerland
2006 – 2008 Postdoctoral Researcher, Institute of Theoretical Computer Science, ETH Zurich, Switzerland
2004 – 2006 Postdoc, Einstein Institute for Mathematics, The Hebrew University of Jerusalem, Israel
2004 Postdoc, Univerzita Karlova, Prague, Czech Republic
2003 Postdoc, Mathematical Sciences Research Institute, Berkeley, USA
2004 PhD, ETH Zurich, Switzerland


Selected Distinctions

2018 Best Paper Award at the Symposium on Computational Geometry (SoCG)
2014 Best Paper Award at the Symposium on Computational Geometry (SoCG)
2012 Research Assistant Professorship Grant of Swiss National Science Foundation (SNSF)
2012 Best Paper Award at Symposium of Discrete Algorithms (SODA)
2004 Richard Rado Prize


Additional Information

Download CV
Mathematics at ISTA



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