K. Gaddameedi, F. Hamon, D. Huber, T. Lunet, P. S. Peixoto, J. G. Caldas Steinstraesser, M. Schreiber, and V. Schüller, “SWEET – Shallow Water Equation Environment for Tests v1.0”, submitted to Geoscientific Model Development (GMD). Preprint PDF
J. G. Caldas Steinstraesser, P. da Silva Peixoto, and M. Schreiber, “A second-order semi-Lagrangian exponential scheme with application to the shallow-water equations on the rotating sphere”, ESAIM Mathematical Modelling and Numerical Analysis (M2AN), vol. 59 (2025), pp. 1531-1564. PDF arXiv
J. G. Caldas Steinstraesser, P. d. S. Peixoto e M. Schreiber, “Parallel-in-time integration of the shallow water equations on the rotating sphere using Parareal and MGRIT”, Journal of Computational Physics, vol. 496, p. 112 591, jan. de 2024. PDF arXiv
J. G. Caldas Steinstraesser, V. Guinot, and A. Rousseau, “Modified parareal method for solving the two-dimensional nonlinear shallow water equations using finite volumes”, The SMAI Journal of Computational Mathematics, Volume 7 (2021), pp. 159-184. PDF DOI
J. G. Caldas Steinstraesser, G. Kemlin, and A. Rousseau, “A domain decomposition method for linearized Boussinesq-type equations”, Journal of Mathematical Study, vol. 52, no. 3, pp. 320–340, 2019.PDF DOI
J. G. Caldas Steinstraesser, R. Cienfuegos, J. D. Galaz Mora, and A. Rousseau, “A Schwarz-based domain decomposition method for the dispersion equation”, Journal of Applied Analysis and Computation, vol. 8,no. 3, pp. 859–872, Jun. 2018.PDF DOI
J. G. Caldas Steinstraesser, Vincent, and A. Rousseau, “Application of a modified parareal method for speeding up the numerical resolution of the 2D shallow water equations”, in SimHydro 2021, 2021 PDF
J. G. Caldas Steinstraesser, C. Delenne, P. Finaud-Guyot, V. Guinot, J. L. Kahn Casapia, and A. Rousseau,“SW2D-LEMON: a new software for upscaled shallow water modeling”, in SimHydro 2021, 2021 PDF
E. Audusse, J. G. Caldas Steinstraesser, L. Emerald, P. Heinrich, A. Paris, and M. Parisot, “Comparison of models for the simulation of landslide generated tsunamis”, in Proceedings CEMRACS 2019, ESAIM: ProcS, 70:14–30. PDF DOI
J. G. Caldas Steinstraesser, G. Kemlin, and A. Rousseau, “Domain decomposition methods for linearized Boussinesq-type equations”, in 16èmes Journées de l’Hydrodynamique, École Centrale de Marseille and Irphé (Institut de Recherche sur les Phenomènes Hors Équilibre), Marseille, France, Nov. 2018. PDF
PhD thesis in Applied Mathematics (Inria - LEMON team / University of Montpellier, France), 2021: "Coupling large and small scale shallow water models with porosity in the presence of anisotropy". Supervised by Vincent Guinot and Antoine Rousseau. PDF Slides
Master thesis (French PFE - Final year study project) (Inria - LEMON team, France / MERIC (Marine Energy Research & Innovation Center), Chile), 2018. "Operation coupling in coastal oceanography". Supervised by Antoine Rousseau. PDF
Research internship report in Applied Mathematics (Inria - CARDAMOM team / MERIC (Marine Energy Research & Innovation Center), Chile), 2016. "Mesh adaptation models to surfaces and physical variables with application to fluid mechanics problems" (supervised by Cécile Dobrzyinski and Mario Ricchiuto) / "Domain decomposition methods for solving nonlinear and/or dispersive wave propagation models" (supervised by Antoine Rousseau). PDF (in French)
"Introduction to Parallel-in-Time methods". Seminar on Numerical Methods and Applications, IME-USP (2024). Slides
"Towards Exponential Semi-Lagrangian Parallel-in-Time Methods for the Shallow Water Equations on the Rotating Sphere". SIAM Conference on Computational Science and Engineering (CSE23) - Amsterdam, The Netherlands (2023). Slides
"Parallel-in-time methods for fluid dynamics problems". IV Congresso Brasileiro de Jovens Pesquisadores em Matemática Pura, Aplicada e Estatı́stica (CBJME) - João Pessoa, PB, Brazil (2022). Slides
"A modified ROM-based parareal method for the simulation of urban floods". INRIA AIRSEA team. Slides