Computational Analysis Seminar

TBA
Research I Seminar Room (Room 120)

The Computational Analysis Seminar is a graduate research seminar covering topics from applied analysis, numerical analysis, algorithms, and applications.

Fall Semester 2016 Schedule

Date Time Speaker Title
Wednesday
Sep 21		 09:45 Cristina Urbani
University of Rome Tor Vergata 		Bilinear control of partial differential equations of evolution
Thursday
Sep 22		 09:45 David Dritschel
University of St. Andrews 		The Moist Particle-in-Cell (MPIC) method
Thursday
Sep 22		 11:15 Georg Gottwald
University of Sydney 		Beyond the limit of infinite time-scale separation: Edgeworth approximations and homogenisation
Wednesday
Sep 28		 09:45 Zymantas Darbenas
Jacobs University 		On the existence of solutions to a fractional integral equation
Wednesday
Oct 5		 09:45 Zymantas Darbenas
Jacobs University 		On uniqueness for the fast reaction limit of the Keller-Rubinow model (I)
Wednesday
Oct 12		 09:45 Zymantas Darbenas
Jacobs University 		On uniqueness for the fast reaction limit of the Keller-Rubinow model (II)
Thursday
Oct 20		 09:45 Stephan Juricke
Oxford University 		Stochastic parametrizations in climate models: Incorporation of uncertainty estimates and sub-grid scale variability
Wednesday
Oct 26		 09:45 Anton Kutsenko
Jacobs University 		Multidimensional integral operators and their applications
Wednesday
Nov 2		 09:45 Palina Salanevich
Jacobs University 		Signal processing and time-frequency analysis of graphs
Wednesday
Nov 9		 09:45 Zymantas Darbenas
Jacobs University 		On uniqueness for the fast reaction limit of the Keller-Rubinow model (III)
Wednesday
Nov 16		 09:45 Marcel Oliver
Jacobs University 		On the duality between sheer flows and dispersive waves in spectral space
Wednesday
Nov 23		 09:45 Haidar Mohamad
Jacobs University 		Optimal balance via adiabatic invariance of approximate slow manifolds
Wednesday
Nov 30		 09:45 Palina Salanevich
Jacobs University 		An uncertainty principle for signals defined on graphs
Tuesday
Dec 6		 11:15 Gökce Tuba Masur
Jacobs University 		An adaptive surface finite element method for the Laplace-Beltrami equation