Projects

The following projects highlight my contributions to research software development, cyberinfrastructure, and web-based modeling systems for hydrology and Earth surface processes.

Transformative Cyberinfrastructure for Modeling and Simulation in Earth-Surface Science

• Developed a web-based flood modeling application integrated with a participatory modeling platform (Fora.ai) to support environmental decision-making for watershed-scale flood events.

• Created modeling workflows as Jupyter Notebooks demonstrating applications of Data Components in landsliding, overland flow, and permafrost thaw modeling research.

Cloud-Based Accessible and Reproducible Modeling for Water and Sediment Research

• Designed and developed Python-based data components to provide standardized access to national and global Earth-surface datasets, enabling streamlined data-model integration for Earth surface processes modeling.

• Developed reproducible modeling capabilities through the integration of HydroShare and the CSDMS Workbench, allowing users to share and execute modeling workflows online.

HydroShare: Online Collaboration Environment for Sharing Data, Models, and Code.

• Developed capabilities for sharing multidimensional space-time data, facilitating data and metadata management and promoting data reuse within the water science community.

• Designed and developed a web application for snowmelt modeling that streamlined model input preparation and simulation, advancing web-based hydrologic modeling research.