Publicações

Em periódicos

  • 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”, submitted to the SIAM Journal on Scientific Computing (2024). 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

Em anais de conferências

  • 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

Tese e relatórios

  • Tese de doutorado em Matemática Aplicada (Inria - LEMON team / Université de Montpellier, França), 2021: Coupling large and small scale shallow water models with porosity in the presence of anisotropy. Orientado por Vincent Guinot e Antoine Rousseau. PDF Slides
  • Tese de Master M2 (PFE - Projeto de ano final de estudo) (Inria - LEMON team, France / MERIC (Marine Energy Research & Innovation Center), Chile), 2018. Operation coupling in coastal oceanography. Orientado por Antoine Rousseau. PDF
  • Relatório de estágio científico em Matemática Aplicada (Inria - eauipe CARDAMOM / MERIC (Marine Energy Research & Innovation Center), Chile), 2016. Mesh adaptation models to surfaces and physical variables with application to fluid mechanics problems(orientado por Cécile Dobrzyinski e Mario Ricchiuto) / Domain decomposition methods for solving nonlinear and/or dispersive wave propagation models. orientado porr Antoine Rousseau). PDF (in French)

Apresentações selecionadas

  • 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, Países Baixos (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, Brasil (2022). Slides
  • A modified ROM-based parareal method for the simulation of urban floods. INRIA AIRSEA team. Slides