InFoMM Cohort Three

Melanie Beckerleg

  • Dynamical systems
  • Elasticity theory
  • Fluid dynamics
  • Numerical solutions of ODEs and PDEs
  • Mathematical modelling of biological systems
  • Applications to renewable energy (particularly solar and tidal)

Federico Danieli

  • Numerical solution of PDEs (finite element, finite volume methods)
  • Scientific computing (HPC, CUDA, template meta-programming)
  • Computational fluid dynamics
  • PDE-constrained optimal control (shape optimisation)
  • Fluid-structure interactions for biomedical applications
  • Stochastic PDEs

Joseph Field

  • Computational fluid dynamics
  •  Fluids in microgravity
  •  Multiphase flows
  •  Biological models
  • Finite difference, finite objects and multigrid methods
  •  Stochastic epidemic models
  •  Interacting particle systems

Raquel González Fariña

  • Mathematical modelling using ODEs and PDEs
  •  Scientific computing
  •  Astrophysics
  •  Digital image processing
  •  Mathematical biology

Alissa Kamilova

  • Mathematical modelling used in energy and sustainability
  • Numerical analysis of ODEs and PDEs
  • Scientific computing
  • Applications in engineering, biology and physics
  • Optimisation problems

Kristian Kiradjiev

  • Fluid mechanics
  • Mathematical biology
  • Asymptotic analysis
  • Analytical methods for PDEs
  • Mathematical geology
  • Energy & oil industry applications
  • Applied complex analysis
  • Elasticity phenomena

Attila Kovacs

  • Classical physics problems in mechanics, fluids and thermodynamics
  • Stability, bifurcations, orbits and chaos
  • Analytical and numerical investigation of time dependant systems
  • Differential geometry and various reformulations of Newtonian mechanics.

Scott Marquis

  • Fluid Dynamics
  • Finite Element Methods
  • Non-Linear Elasticity
  • Scientific Computing 

Ana Osojnik

  • Stochastic processes and boundary value problems
  • Numerical analysis
  • Numerical linear algebra
  • Scientific computing
  • Mathematical models in biology, medicine and finance
  • Machine learning

Jonathan Peters

  • Applied numerical algorithms
  • Operations research
  • Nonlinear oscillations
  • Bifurcations

Oliver Sheridan-Methven

  • Financial modelling
  • Scientific and high performance computing.
  • Condensed matter physics
  • Statistical modelling of sporting fixtures (tennis and football)
  • Computer languages and programming architecture

Clint Wong

  • Continuum mechanics
  • Viscous flow
  • Surface tension
  • Interfacial instabilities