Piotr Bartman-Szwarc

Research

Alma Mater ORCID Google Scholar

Peer-reviewed papers:

11. Piotr Bartman-Szwarc, Adil M. Bagirov, Anna Ochal (2025)
ICCS 2025 Workshops. Lecture Notes in Computer Science, vol 15908, 392–405.
(doi) Hybrid Subgradient and Simulated Annealing Method for Hemivariational Inequalities

10. Piotr Bartman-Szwarc, Anna Ochal, Mircea Sofonea, Domingo Tarzia (2025)
Discrete and Continuous Dynamical Systems – B, 30(11): 4206-4225.
(doi) A new penalty method for elliptic variational inequalities

9. Piotr Bartman-Szwarc, Anna Ochal, Mircea Sofonea (2024)
Communications in Nonlinear Science and Numerical Simulation vol. 128, 107581.
(doi) Duality Arguments in the Analysis of a Viscoelastic Contact Problem

8. Emily K. de Jong et al. (2023)
The Journal of Open Source Software vol. 8(84), 4968
(doi) New developments in PySDM and PySDM-examples v2: collisional breakup, immersion freezing, dry aerosol initialization, and adaptive time-stepping

7. Piotr Bartman, Krzysztof Bartosz, Michal Jureczka, Pawel Szafraniec (2023)
Nonlinear Analysis: Real World Applications vol. 73
(doi) Numerical analysis of a non-clamped dynamic thermoviscoelastic contact problem

6. Michal Jureczka, Anna Ochal, Piotr Bartman (2023)
Nonlinear Analysis: Real World Applications vol. 73
(doi) A nonsmooth optimization approach for time-dependent hemivariational inequalities

5. Piotr Bartman et al. (2022)
The Journal of Open Source Software vol. 7(77)
(doi) PyMPDATA v1: Numba-accelerated implementation of MPDATA with examples in Python, Julia and Matlab

4. Michael Olesik et al. (2022) 
Geoscientific Model Development 3879–3899
(doi) On numerical broadening of particle size spectra: a condensational growth study using PyMPDATA

3. Anna Ochal, Michal Jureczka, Piotr Bartman (2022)
Communications in Nonlinear Science and Numerical Simulation vol. 114
(doi) A survey of numerical methods for hemivariational inequalities with applications to Contact Mechanics

2. Piotr Bartman et al. (2022)
The Journal of Open Source Software vol. 7(72), 3219
(doi) PySDM v1: particle- based cloud modelling package for warm-rain microphysics and aqueous chemistry

1. Piotr Bartman, Sylwester Arabas (2021)
ICCS vol. 12743, 16-30
(doi) On the design of Monte-Carlo particle coagulation solver interface: a CPU/GPU Super-Droplet Method case study with PySDM

Visits:

  • Oakland University, Rochester, MI, USA:
    • IV 2024 – V 2024 (4 weeks): Department of Mathematics and Statistics
  • Federation University Australia, Ballarat, Vic, Australia:
    • II 2024 – III 2024 (6 weeks): Institute of Innovation, Science and Sustainability
    • II 2023 – III 2023 (7 weeks): Institute of Innovation, Science and Sustainability
  • Austral University, Rosario, Argentina:
    • IX 2023 – X 2023 (4 weeks): Department of Mathematics, Faculty of Business Sciences
    • XI 2022 – XII 2022 (5 weeks): Department of Mathematics, Faculty of Business Sciences
  • Michigan Technological University, Houghton, MI, USA:
    • IX 2019 (3 days): Department of Physics
  • The University of Iowa, Iowa City, IA, USA:
    • VIII 2019 – IX 2019 (4 weeks): Department of Mathematics