M. Bastidas; C. Bringedal; I.S. Pop:
A two-scale iterative scheme for a phase-field model for precipitation and dissolution in porous media. Applied Mathematics and Computations. doi.org/10.1016/j.amc.2020.125933.
S. Sharmin; M. Bastidas; C. Bringedal; I.S. Pop.:
Upscaling a Navier-Stokes-Cahn-Hilliard model for two-phase porous-media flow with solute-dependent surface tension effects. Applicable Analysis, 101(12), 4171-4193.
Bastidas, M.; Bringedal, C.; Pop, I. S.; Radu, F. A.:
Numerical homogenization of non-linear parabolic problems on adaptive meshes. Journal of Computational Physics, 425, 109903.
Hajibeygi, H.; Bastidas, M.; HosseiniMehr, M.; Pop, I. S.; & Wheeler, M. F:
A benchmark study of the multiscale and homogenization methods for fully implicit multiphase flow simulations with adaptive dynamic mesh (ADM). Advances in Water Resources, 141, 103674.
C Uriarte; M Bastidas; D Pardo; JM Taylor; S Rojas:
Optimizing Variational Physics-Informed Neural Networks Using Least Squares. arXiv preprint arXiv:2407.20417
JM Taylor; M Bastidas; VM Calo; D Pardo:
Adaptive Deep Fourier Residual method via overlapping domain decomposition. Computer Methods in Applied Mechanics and Engineering 427, 116997
C Cancès; J Droniou; C Guichard; G Manzini; MB Olivares; IS Pop:
Error estimates for the gradient discretisation method on degenerate parabolic equations of porous medium type. Polyhedral methods in geosciences, 37-72
