Special Session 30: Recent Development in Advanced Numerical Methods for Partial Differential Equations
Organizer(s): Yanping Chen , Jian Huang , Liwei Xu
Parallel Session 3 :: Monday, 12/16, 14:45-16:45 Conference Hall B (D)
14:45-15:15
Wenjun Ying
(Shanghai Jiao Tong University, Peoples Rep of China)
An Alternating Direction Implicit Method for Mean Curvature Flows
15:15-15:45
Hui Liang
(Harbin Institute of Technology, Shenzhen, Peoples Rep of China)
A general collocation analysis for weakly singular Volterra integral equations with variable exponent
15:45-16:15
Xiaobo Yin
(Central China Normal University, Peoples Rep of China)
Error estimates of finite element methods for nonlocal problems with exact or approximated interaction neighborhoods
16:15-16:45
Yin Yang
(Xiangtan University, Peoples Rep of China)
Multiscale Model Reduction for Heterogeneous Perforated Domains based on CEM-GMsFEM
Parallel Session 4 :: Monday, 12/16, 17:00-19:30 Conference Hall B (D)
17:00-17:30
Zhen Zhang
(Southern University of Science and Technology, Peoples Rep of China)
An operator/direction splitting approach to a class of dissipative systems
17:30-18:00
Meng Li
(Zhengzhou University, Peoples Rep of China)
Parametric finite element methods for anisotropic axisymmetric flows
18:00-18:30
Chaoyu Quan
(The Chinese University of Hong Kong (Shenzhen), Peoples Rep of China)
Maximum bound principle and original energy dissipation of arbitrarily high-order rescaled exponential time differencing Runge--Kutta schemes for Allen--Cahn equations
18:30-19:00
Xiangcheng Zheng
(Shandong University, Peoples Rep of China)
Addressing complex boundary conditions of miscible flow and transport with application to optimal control
19:00-19:30
Jian Huang
(Xiangtan University, CHINA, Peoples Rep of China)
Characteristic block-centered finite difference methods for Darcy-Forchheimer compressible miscible displacement problem
19:00-19:30
Nuo Lei
(Academy of Mathematics and Systems Science, CAS, Peoples Rep of China)
High order conservative arbitrary Lagrangian-Eulerian schemes for two-dimensional radiation hydrodynamics equations
