1. Computational Modelling using SPH
        Free Surface and Moving Boundaries Applications
        Solids and Structures
        Multiple Continua and Multi-Phase Flows
        Modelling of Viscosity and Turbulence
        Modelling of Incompressible Flows
        Complex Physics
  2. Theoretical and Numerical Aspects of SPH (SPHERIC Grand Challenges)
        Numerical Stability
        Boundary conditions
        Adaptivity (variable resolution)
  3. Numerics
        High-Performance Computing
        Hardware Acceleration
        Pre-processing and visualization
  4. Alternative Formulations and Partical-Based Simulation Technique
        Alternative approaches such as Voronoi-particle, FV-particle, adaptive SPH (e.g. RSPH, ASPH)
        New applications of SPH (e.g. shallow-water, laser cutting)
  5. SPH Applications
        Hydraulic Applications
        Maritime and Naval Architecture Applications
        Process Engineering
        Geotechnical Applications
        Micro Fluidics
        Solids and Fracture Mechanics
        Disaster Simulations