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Award
Created: May 28, 2018
The former RICAM PostDoc Peter Gangl will be awarded the Richard C. DiPrima Prize at the 2018 SIAM Annual Meeting in Portland, OR, in July. Congratulations!
Highlights of 2017 in the Journal "Inverse Problems"
Created: May 18, 2018
Project
Created: March 22, 2018
The project proposal by Stefan Takacs entitled 'Fast Solvers For Isogeometric Analysis' is funded by FWF.
Project
Created: March 20, 2018
The project proposal of Wilfried Meidl entitled 'Bent Functions and Generalizations and APN Functions' is funded by FWF.
Problem arising from Mathematical Biology solved
Created: March 13, 2018
The Paper "The full Keller-Segel model is well-posed on nonsmooth domains" by Dirk Horstmann (University of Cologne), Hannes Meinlschmidt (Johann Radon Institute Linz) and Joachim Rehberg (WIAS) has been published in Nonlinearity. The Keller-Segel Model describes the interaction of bacteria and their surrounding agents. It was established by Keller and Segel in 1970 and is probably the most analysed model in Mathematical Biology. Their work was citated severel hundreds of times and it became an initial point of various analytical and numerical studies. The model is of high relevance for the description of clinical phenomena. The (full) Keller-Segel Model consists of four strongly coupled differential equations. While each of these equations is parabolic itself, the same does not hold necessarily for the whole system. The equations are applied for a prescribed spatial or planar area (like a Petri dish) containing the bacteria culture. In most cases this system is considered to be isolated from the outside world. For areas with smooth geometries (e.g. round or ellipsoid) it has been known for quite a long time that for given initial values for bacteria density and chemical agents, a unique solution exists at least for a short time interval. However, in practice the considered areas are typically nonsmooth. In particular at geometrically singular areas like corners or edges, exceptional effects like extra high concentrations are supposed to occur. Now for the first time the three authors could prove the existence of a solution for the Keller-Segel Model also for a huge class of non-smooth geometries like arbitrary two- and three-dimensional polyhedral areas.
Project
Created: March 12, 2018
The project proposal by Kamran Sadiq entitled 'Weighted X-ray transform and applications' is funded by FWF.

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