# Research

Erin Carson | [ORCID] [WoS] [MathSciNet] [Scopus] [zbMATH] [Scholar] |
---|---|

Numerical linear algebra, high performance matrix computations, parallel algorithms. | |

Xinye Chen | [ORCID] [Scopus] [Scholar] |

Scientific computing, Algorithm design and analysis, High performance computing, Machine learning. | |

Scott Congreve | [ORCID] [WoS] [MathSciNet] [Scopus] [zbMATH] [Scholar] |

Numerical methods for PDEs, Finite element methods, Discontinuous Galerkin methods, Nonlinear PDEs, Helmholtz equation, Two-grid methods, A posteriori error analysis, hp-adaptive mesh refinement, Domain decomposition methods, Scientific computing. | |

Ieva Daužickaité | [ORCID] [WoS] [MathSciNet] [Scopus] [zbMATH] [Scholar] |

Numerical linear algebra, randomised preconditioning, data assimilation, saddle point systems. | |

Vit Dolejsi | [ORCID] [WoS] [MathSciNet] [Scopus] [zbMATH] [Scholar] |

Numerical solution of partial differential equations with applications in fluid mechanics. | |

Miloslav Feistauer | [ORCID] [WoS] [MathSciNet] [Scopus] [zbMATH] |

Analysis of numerical methods for solving PDEs, finite element method, discontinuous Galerkin method, applications in fluid dynamics and in interactions of fluids with elastic structures. | |

Jiri Felcman | [ORCID] [WoS] [MathSciNet] [Scopus] [zbMATH] |

Numerical methods for solving PDEs, finite element method, discontinuous Galerkin method, applications in fluid dynamics and in interactions of fluids with elastic structures. | |

Alice Rachel Hodson | [WoS] [MathSciNet] [Scopus] [zbMATH] [Scholar] |

Applied functional analysis, discretisation of higher order partial differential equations, the virtual element method. | |

Iveta Hnetynkova | [ORCID] [WoS] [MathSciNet] [Scopus] [zbMATH] [Scholar] |

Numerical linear algebra, least-squares methods and regularization methods for ill-posed problems. | |

Vladimir Janovsky | [ORCID] [WoS] [MathSciNet] [Scopus] [zbMATH] |

Numerical Methods, dynamical systems, ordinary differential equations, bifurcations. | |

Petr Knobloch | [ORCID] [WoS] [MathSciNet] [Scopus] [zbMATH] [Scholar] |

Finite element method and its application to the simulation of incompressible flows and to the solution of convection-dominated problems. | |

Vaclav Kucera | [ORCID] [WoS] [MathSciNet] [Scopus] [zbMATH] |

Numerical analysis, Computational fluid dynamics, Discontinuous Galerkin and Finite element methods, Discrete dynamical systems, fractals and chaos. | |

Yuxin Ma | [MathSciNet] [Scopus] |

Scientific computing, deep learning, graph and equivariant neural networks, mixed precision variants of algorithms. | |

Stefano Pozza | [ORCID] [WoS] [MathSciNet] [Scopus] [zbMATH] [Scholar] |

Numerical solution of ODEs, Krylov subspace methods, Functions of banded matrices, Extrapolation methods. | |

Zdenek Strakos | [MathSciNet] [zbMATH] [Scholar] |

Krylov subspace methods - principles and analysis. | |

Petr Tichy | [ORCID] [WoS] [MathSciNet] [Scopus] [zbMATH] [Scholar] |

Numerical linear algebra, approximation of functions, numerical optimization, rounding error analysis. | |

Miroslav Tuma | [ORCID] [WoS] [MathSciNet] [Scopus] [zbMATH] [Scholar] |

Solution of large sparse systems of linear equations by direct and preconditioned iterative methods. | |

Niel Van Buggenhout | [ORCID] [WoS] [MathSciNet] [Scopus] [zbMATH] [Scholar] |

Numerical linear algebra, structured matrices, rational Krylov subspaces, orthogonal polynomials. |