Doghonay Arjmand
Senior Lecturer/Associate Professor at Department of Information Technology; Division of Scientific Computing
- E-mail:
- doghonay.arjmand@it.uu.se
- Visiting address:
- Hus 10, Regementsvägen 10
- Postal address:
- Box 337
751 05 UPPSALA
Publications
Recent publications
Part of Advances in Computational Mathematics, 2025
Efficient low rank approximations for parabolic control problems with unknown heat source
Part of Journal of Computational and Applied Mathematics, 2024
- DOI for Efficient low rank approximations for parabolic control problems with unknown heat source
- Download full text (pdf) of Efficient low rank approximations for parabolic control problems with unknown heat source
AN ELLIPTIC LOCAL PROBLEM WITH EXPONENTIAL DECAY OF THE RESONANCE ERROR FOR NUMERICAL HOMOGENIZATION
Part of Multiscale Modeling & simulation, p. 513-541, 2023
A parabolic local problem with exponential decay of the resonance error for numerical homogenization
Part of Mathematical Models and Methods in Applied Sciences, p. 2733-2772, 2021
Modelling long-range interactions in multiscale simulations of ferromagnetic materials
Part of Advances in Computational Mathematics, 2020
All publications
Articles in journal
Part of Advances in Computational Mathematics, 2025
Efficient low rank approximations for parabolic control problems with unknown heat source
Part of Journal of Computational and Applied Mathematics, 2024
- DOI for Efficient low rank approximations for parabolic control problems with unknown heat source
- Download full text (pdf) of Efficient low rank approximations for parabolic control problems with unknown heat source
AN ELLIPTIC LOCAL PROBLEM WITH EXPONENTIAL DECAY OF THE RESONANCE ERROR FOR NUMERICAL HOMOGENIZATION
Part of Multiscale Modeling & simulation, p. 513-541, 2023
A parabolic local problem with exponential decay of the resonance error for numerical homogenization
Part of Mathematical Models and Methods in Applied Sciences, p. 2733-2772, 2021
Modelling long-range interactions in multiscale simulations of ferromagnetic materials
Part of Advances in Computational Mathematics, 2020
Part of Comptes rendus. Mathematique, p. 545-551, 2019
Temporal upscaling in micromagnetism via heterogeneous multiscale methods
Part of Journal of Computational and Applied Mathematics, p. 99-113, 2019
An equation-free approach for second order multiscale hyperbolic problems in non-divergence form
Part of Communications in Mathematical Sciences, p. 2317-2343, 2018
Atomistic-continuum multiscale modelling of magnetisation dynamics at non-zero temperature
Part of Advances in Computational Mathematics, p. 1119-1151, 2018
Part of Multiscale Modeling & simulation, p. 948-976, 2017
A finite element heterogeneous multiscale method with improved control over the modeling error
Part of Communications in Mathematical Sciences, p. 463-487, 2016
A time dependent approach for removing the cell boundary error in elliptic homogenization problems
Part of Journal of Computational Physics, p. 206-227, 2016
Analysis of heterogeneous multiscale methods for long time wave propagation problems
Part of Multiscale Modeling and Simulation, p. 1135-1166, 2014
Taylor's decomposition on four points for solving third-order linear time-varying systems
Part of Journal of the Franklin Institute, p. 651-662, 2009
A note on the Taylor's decomposition on four points for a third-order differential equation
Part of Applied Mathematics and Computation, p. 1483-1490, 2007