Computational Electromagnetism and Its Engineering Applications - Part III of IV
For Part I, see MS-Th-D-24
For Part II, see MS-Th-E-24
For Part IV, see MS-Fr-E-24

Date: August 14
Time: 13:30--15:30
Room: 211

(Note: Click title to show the abstract.)

Duan, Huoyuan (Collaborative Innovation Centre of Mathematics, School of Mathematics & Statistics, Wuhan Univ., Wuhan 430072, China)
Zheng, Weiying (Chinese Acad. of Sci.)

Abstract: In recent years, there arises a surge of numerical studies for electromagnetic problems in complex engineering systems, such as large power transformers, electrical machinery, magnetic fusion, etc. The mathematical models turn out to be nonlinear, multiscale, strongly singular, and coupled with multiple physical fields. It brings new challenges to researchers from both mathematical and engineering communities in developing practical mathematical models and effective and efficient numerical methods and solvers.
This mini-symposium seeks to bring together researchers in both computational mathematics and electromagnetic engineering that involve the mathematical modeling, analysis, computation, and experimental validation for electromagnetic problems. The main theme will be focused on new efficient numerical methods and fast solvers for MaxwellˇŻs equations and magnetohydrodynamic equations and will address their extensive applications to engineering problems. It will promote exchange of ideas and recent developments on mathematical modeling, numerical discretization, solvers and engineering practices of computational electromagnetism.

Material Property Modeling under Extreme Excitations and Validation of Large-Scale Numerical Computation in Industry Applications
Cheng, Zhiguang (R & D Center, Baoding Tianwei Group)

Analysis for an Exactly Divergence-Free Method for the Magnetic Induction Equations
Li, Fengyan (Rensselaer Polytechnic Inst.)

Two-level additive preconditioners for edge element discretizations of time-harmonic Maxwell equations
Zhong, Liuqiang (South China Normal Univ.)
Shu, Shi (Xiangtan Univ.)

Fully discrete A-¦µ finite element method for Maxwell's equations with nonlinear conductivity
Tong, Kang (Communication Univ. of China)


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