Efficient high-order time discretization methods for PDEs

May 11-13, 2022 - Villa Orlandi, Anacapri, Italy

Invited Speakers

So far, the list of Invited Speakers includes:

- Rémi Abgrall, University of Zurich, Switzerland
Staggered discretisation of the Euler equation: how to achieve local conservation

- Walter Boscheri, University of Ferrara, Italy
On the construction of conservative semi-Lagrangian IMEX advection schemes for multiscale time dependent PDEs

- Manuel Jesús Castro-Díaz, Universidad de Málaga, Spain
Implicit and semi-implicit high-order well-balanced methods for systems of balance laws

- Elena Celledoni, Norwegian University of Science and Technology, Norway
Discrete conservation laws for finite element discretisations of multisymplectic PDEs

- Michael Dumbser, University of Trento, Italy
On the treatment of curl involutions in Newtonian continuum mechanics and general relativity

- Sigal Gottlieb, University of Massachusetts Dartmouth, USA
High order strong stability preserving multi-derivative implicit and IMEX Runge-Kutta methods

- Shi Jin, Shanghai Jiao Tong University, China
Quantum algorithms for computing observables of nonlinear partial differential equations

- Mária Lukácová-Medvidová, University of Mainz, Germany
Convergence and error analysis for multidimensional Euler equations

- Andreas Meister, University of Kassel, Kassel, Germany
Stability of Modified Patankar-Runge-Kutta Methods

- Gabriella Puppo, Università di Roma La Sapienza, Italy
Some ideas for large time steps to integrate balance laws

- Chi-Whang Shu, Brown University, Providence, RI, USA.
Explicit-implicit-null (EIN) time-marching for high order PDEs


Contributed Talks

So far, the list of accepted Contributed Talks includes:

- Clarissa Astuto, King Abdullah University of Science & Technology, Saudi Arabia
Multi-scale modeling and numerics of Sorption Kinetics

- Giulia Bertaglia, University of Ferrara, Italy
Physics-informed neural networks for multiscale hyperbolic models for the spatial spread of infectious diseases

- Giacomo Dimarco, University of Ferrara, Italy
Semi-Lagrangian IMEX vortex methods

- Peter Frolkovič, Slovak University of Technology, Slovakia
Novel high-resolution semi-implicit finite volume methods for conservation laws

- Roberto Garrappa, University of Bari Aldo Moro, Italy
A computationally efficient strategy for time-fractional diffusion-reaction equations

- Zachary Grant, Michigan State University, USA
Perturbed Runge-Kutta methods for mixed precision applications

- Nell Hartney, University of Exeter, UK
Towards parallel-in-time methods for the moist shallow water equations

- David Ketcheson, King Abdullah University of Science & Technology, Saudi Arabia
Maximum principle preserving space and time flux limiting

- Emanuele Macca, University of Catania, Italy
Fully-discrete Well-Balanced order-adaptive Compact Approximate Method for Systems Balance laws

- Angela Martiradonna, University of Bari Aldo Moro, Italy
Positive and conservative nonstandard schemes for biochemical systems

- Ilario Mazzieri, Politecnico di Milano, Italy
Time discontinuous Galerkin methods for wave propagation problems

- Asha Kumari Meena, Central University of Rajasthan, India
A path conservative finite volume method for a shear shallow water model

- Abdullah Mujahid, Universität Augsburg - Germany
Semi-explicit decoupling time integration methods for coupled elliptic-parabolic systems

- Alexander Ostermann, University of Innsbruck, Austria,
Low-regularity integration of NLS

- Brynjulf Owren, Norwegian University of Science and Technology, Norway
Adaptive energy preserving methods for partial differential equations

- Francesco Piccioli, University of Ferrara, Italy
Consistent treatment of boundary conditions for viscoelastic arterial networks governed by conservative laws with relaxation terms

- Hendrik Ranocha, University of Hamburg, Germany
Efficient and robust step size control for computational fluid dynamics

- Steven Roberts, Lawrence Livermore National Laboratory, USA
Implicit-Explicit Generalized Additive Runge–Kutta Methods

- Adrian Sandu, Virginia Tech, USA
Linearly Implicit General Linear Methods

- Jochen Schütz, UHasselt University, Belgium
Implicit multi-derivative time discretization for the DG method

- Jie Shen, Purdue University, USA
Efficient and accurate structure preserving schemes for complex nonlinear systems

- Raymond Spiteri, University of Saskatchewan, Canada
Fractional-Step Runge-Kutta Methods: Representation and Linear Stability Analysis