16. Numerical Analysis and Scientific Computing

Design of numerical algorithms and analysis of their accuracy, stability, and complexity. Numerical solution of algebraic, differential, and integral equations. Approximation theory. Mathematical aspects of scientific computation.

INVITED SPEAKERS


Zhiming Chen  
Chinese Academy of Sciences, Beijing, China
A posteriori error analysis and adaptive methods for partial differential equations
Saturday, August 26, 18:00-18:45

Ricardo Durán
Universidad de Buenos Aires, Buenos Aires, Argentina
Error estimates for anisotropic finite elements and applications
Saturday, August 26, 17:00-17:45

Nira Dyn    
Tel Aviv University, Tel Aviv, Israel
Linear subdivision schemes for the refinement of geometric objects
Friday, August 25, 15:00-15:45

Max Gunzburger  
Florida State University, Tallahassee, USA
Least-squares finite element methods
Wednesday, August 23, 15:00-15:45

Randall J. LeVeque      
University of Washington, Seattle, USA
Wave propagation software, computational science, and reproducible research
Friday, August 25, 16:00-16:45
 
Yvon Maday
Université Pierre et Marie Curie, Paris, France
Reduced basis method for the rapid and reliable solution of problems from fluid 
mechanics to quantum chemistry

Wednesday, August 23, 17:00-17:45

Endre Suli    
University of Oxford, Oxford, United Kingdom
Finite element algorithms for transport-diffusion problems: stability, adaptivity, tractability
Wednesday, August 23, 16:00-16:45