Decoupling methods for multi-physics and multi-scale problems - Part IV of VII
For Part I, see MS-Tu-E-27
For Part II, see MS-We-D-27
For Part III, see MS-We-E-27
For Part V, see MS-Th-D-27
For Part VI, see MS-Th-E-27
For Part VII, see MS-Fr-D-27

Date: August 13
Time: 10:00--12:00
Room: 407

(Note: Click title to show the abstract.)

He, Xiaoming (Missouri Univ. of Sci. & Tech.)
Xu, Xuejun (Inst. of Computational Mathematics, AMSS, CAS)

Abstract: The inherent multi-physics and multi-scale features of many real world problems accentuate the importance to develop efficient and stable numerical methods for the relevant PDEs, especially the decoupling methods. Although great efforts have been made for solving these problems, many practical and analytical challenges remain to be solved. This mini-symposium intends to create a forum for junior and senior researchers from different fields to discuss recent advances on the decoupling methods for multi-physics and multi-scale problems with their applications.

Partitioned two-step second-order method for magnetohydrodynamics in Els\"{a}sser variables
Trenchea, Catalin (Univ. of Pittsburgh)

Multiscale Weak Galerkin Methods
Ye, Xiu (Univ. of Arkansas at Little Rock)

A surrogate Bayesian inference approach with application to large eddy simulation turbulence models
Webster, Clayton (Oak Ridge National Laboratory)
Tran, Hoang (Oak Ridge National Laboratory)
Zhang, Guannan (Oak Ridge National Laboratory)

A dual--mixed finite element method for the Brinkman problem
Neilan, Michael (Univ. of Pittsburgh)


Code: Type-Date-Time-Room No.
Type : IL=Invited Lecture, SL=Special Lectures, MS=Minisymposia, IM=Industrial Minisymposia, CP=Contributed Papers, PP=Posters
Date: Mo=Monday, Tu=Tuesday, We=Wednesday, Th=Thursday, Fr=Friday
Time : A=8:30-9:30, B=10:00-11:00, C=11:10-12:10, BC=10:00-12:10, D=13:30-15:30, E=16:00-18:00, F=19:00-20:00, G=12:10-13:30, H=15:30-16:00
Room No.: TBA