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High-Resolution Mathematical and Numerical Analysis of Involution-Constrained PDEs

dc.date.accessioned2019-10-24T14:46:16Z
dc.date.available2019-10-24T14:46:16Z
dc.date.issued2013
dc.identifier.urihttp://publications.mfo.de/handle/mfo/3378
dc.description.abstractPartial differential equations constrained by involutions provide the highest fidelity mathematical models for a large number of complex physical systems of fundamental interest in critical scientific and technological disciplines. The applications described by these models include electromagnetics, continuum dynamics of solid media, and general relativity. This workshop brought together pure and applied mathematicians to discuss current research that cuts across these various disciplines’ boundaries. The presented material illuminated fundamental issues as well as evolving theoretical and algorithmic approaches for PDEs with involutions. The scope of the material covered was broad, and the discussions conducted during the workshop were lively and far-reaching.
dc.titleHigh-Resolution Mathematical and Numerical Analysis of Involution-Constrained PDEs
dc.identifier.doi10.14760/OWR-2013-47
local.series.idOWR-2013-47
local.subject.msc74
local.subject.msc58
local.subject.msc78
local.subject.msc65
local.sortindex818
local.date-range15 Sep - 21 Sep 2013
local.workshopcode1338b
local.workshoptitleHigh-Resolution Mathematical and Numerical Analysis of Involution-Constrained PDEs
local.organizersBruno Despres, Paris; Michael Dumbser, Trento; James Kamm, Albuquerque; Manuel Torrilhon, Aachen
local.report-nameWorkshop Report 2013,47
local.opc-photo-id1338b
local.publishers-doi10.4171/OWR/2013/47
local.ems-referenceDesprés Bruno, Dumbser Michael, Kamm James, Torrilhon Manuel: High-Resolution Mathematical and Numerical Analysis of Involution-Constrained PDEs. Oberwolfach Rep. 10 (2013), 2691-2747. doi: 10.4171/OWR/2013/47


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