Our team specializes in a diverse range of coastal processes and hazard studies, encompassing waves, currents, storm surges, erosion, and tsunami modeling. We leverage a combination of internal analysis tools, bespoke coding, and specialized software to conduct hydraulic, hydrologic, and flood modeling. This includes wave models such as SWAN, M21 SW, and M21 BW; tidal and hydrodynamic models like Delft3D and MIKE21; sediment transport tools such as XBeach, Delft3D, and UNIBEST; wave overtopping models utilizing Neural Network approaches; hydrologic models including RORB, URBS, WBNM, and RAFTS; and inundation models like HEC, Tuflow, and MIKE.
Our workflows integrate these tools as standalone or coupled models and can be embedded within real-time disaster forecasting systems using platforms like Delft-FEWS. This allows us to deliver comprehensive and adaptive solutions for risk mitigation and disaster preparedness.
The animation below highlights our initial analysis of the 2022 Hunga Tonga–Hunga Haʻapai eruption and tsunami, showcasing its propagation across the Pacific Ocean and demonstrating the utility of our integrated modeling approach in understanding and forecasting such complex events.
