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ORCIDComputers & Mathematics with Applications, Volume 198
Volume 198, 2025
- Peixuan Wu, Yang Wang
:
Convergence analysis of a fast virtual element method for coupled Darcy flows in fractured porous media on general polygonal meshes. 1-23 - Minhwan Ji, Jaemin Shin:
Energy-stable linear convex splitting methods for the parabolic sine-Gordon equation. 24-37 - Daniele Moretto, Andrea Franceschini, Massimiliano Ferronato:
A novel mortar method integration using radial basis functions. 38-58 - Harpal Singh, Arbaz Khan:
Conforming/non-conforming mixed finite element methods for optimal control of velocity-vorticity-pressure formulation for the Oseen problem with variable viscosity. 59-92 - Manuel Colera, Mario Freire-Torres, Jaime Carpio:
Comparison of implicit enthalpy methods for Stefan problems. 93-105 - Van-Chinh Nguyen, Van-Ke Tran, Van-Vinh Pham:
Modified couple stress-based finite element model for analysis of partially supported 2D-FG sandwich microbeams with variable material length scale parameters. 106-130 - Ngatcha Ndengna Arno Roland:
A high order Path-Conservative Central-Upwind Arbitrary DERivative (PCCU-ADER) method for a generalized high order sediment transport model. 131-177 - Fuhao Liu, Wei Yang, Jichun Li, Yunqing Huang:
A time-domain finite element method for Kerr and Raman type nonlinear hyperbolic metamaterials with application for enhanced third-harmonic generation. 178-195 - Alessandra Aimi, Giulia Di Credico, Heiko Gimperlein, Chiara Guardasoni:
Adaptive time-domain boundary element methods for the wave equation with Neumann boundary conditions. 196-213 - Raziyeh Mirzahashemi, Mohammad Heydari:
Numerical solutions of multidimensional nonlinear hyperbolic partial integro-differential equations using a redefined cubic B-spline-based differential quadrature method. 214-238 - Kh. Khompysh, M. J. Huntul, M. Mukhambetkaliyev:
Time-dependent inverse source problems for a pseudoparabolic equation with memory. 239-254 - Wensheng Li, Hao Wang, Hanting Guan, Ruifeng Zhou, Chao Zhang, Dacheng Tao:
AdaPW: An adaptive point-weighting method for training physics-informed neural networks. 255-273
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