Pessoas – Pedro S. Peixoto

Pesquisadores envolvidos no grupo (alunos de iniciação científica, mestrado, doutorado e pós-doutorandos). Atuais e ex-alunos.

Os alunos geralmente trabalham no Laboratório de Matemática Aplicada do IME (https://labmap.ime.usp.br/).

Teses e dissertações podem ser encontradas aqui: https://www.teses.usp.br/ (Teses)

Guilherme L. Torres Mendonça. Data assimilation for next-generation weather and climate models. FAPESP. (2023-)
Felipe Augusto Ventura de Bragança Alves. Numerics-turbulence interactions in atmospheric models. FAPESP. (2023-)
João Guilherme Caldas Steinstraesser. Parallel-in-time resolution of the shallow water equations on the rotating sphere using spherical harmonics and semi-Lagrangian discretization. FAPESP. (2021 –)
William Corrêa Radunz. Multi-scale modeling and characterization of winds for onshore and offshore wind-energy applications. FAPESP (2022 –)

Felipe A. Guedes da Silva. Reduction of numerical dispersion of finite difference schemes for wave equations. Shell Brasil (2019 –2023)

Joao Luiz Santos Gomes. Discrete Exterior Calculus and Applications. (2023 –)
Juan Camilo B. Camargo. Finite volume methods on cubed sphere grids. (2022 –)
Paulo Sérgio L. da Silva. Neural network data assimilation in PDEs. (2021–)
Guilherme B. A. Oliveira. Integration of mesoscale and microscale climate models for critical operation of wind farms (2021 –)
Luan da Fonseca Santos. Finite volume methods for cubed sphere grids for shallow water equations. FAPESP (2020 –).
Arthur A. R. Campos. Multiscale multigrid full-waveform inversion. International “Sandwich” stay at Univ. Grenoble Alpes in 2023-2024. Shell Brasil/CAPES (2019 — )

Fernando Valdes Ravelo. Application of explicit exponential integrators in the solution of the elastic equations for the wave propagation. International “Sandwich” stay at Univ. Grenoble Alpes (2023). Shell Brasil/CNPq. (2017 – 2024)
Luana Tais Bassani. A matrix population forecasting model for Aedes aegypti considering basic sanitation environment, daily weather, and its impact over the dormancy state. CAPES/CNPq (2016 -2023)
Fabricio R. Lapolli. Finite volume numerical methods for ocean dynamics on distorted grids. CNPq (2019 –2023). -> Postdoc at Max-Planck-Institute for Meteorology. DOI
Genilson Schunck de Lima. Numerical methods for shallow water equations on reduced spherical grids. CAPES (2017-2022).
Leonardo A. P. Cuevas. Supra-convergence of finite volumes on quasi-uniform spherical grids. CAPES/CNPq (2015-2021) -> Postdoc at The Chinese University of Hong Kong.
Jeferson Brambatti Granjeiro. High order finite volume schemes for quasi-uniform spherical grids. CAPES/CNPq (2012-2019)

Marco A. Dourado. Nonlinear interactions in Rotating Shallow Water Equations and Applications. FAPESP (2024 –)
Amanda Maciel de Oliveira. Vertical discretizations in weather and climate models. CNPq (2023 –)
Luciano R. Danninger. Krylov exponential schemes for the elastic wave equations. (2020 –)

Marta Gil Bardajı. Smooth Dynamical Downscaling of the Wind with the Model for Prediction Across Scales (MPAS). Facultat de Fı́sica, Universitat de Barcelona (2021-2022). Thesis
Juan Camilo B. Camargo. Finite volume methods for wave modeling of seismic imaging. Shell Brasil (2019 -2022)
Luan da Fonseca Santos. Finite volume methods for shallow water equations considering topography based local refinement in spherical Voronoi grids. FAPESP (2018-2020)
Ana Cecília Rojas Mendoza. Laplace transform numerical methods for hyperbolic equations. CAPES/CNPq (2016 – 2020)

Maria Iolanda da Silva Feitosa. Introdução a dinâmico dos fluidos computacional e aplicações. PICME (2023–2024)

Isabela Miki Suzuki. Numerical exponential integrators for dynamical systems. FAPESP (2022–2023)
Arthur Clemente Giannotta. Automatic code generation for implicit Finite diference methods for seismic imaging. Shell Brasil (2019 – 2021)
Luan da Fonseca Santos. Topography based local refinement in spherical Voronoi grids. FAPESP (2017-2018)