This project uses the outputs of runs of the Weather Research and Forecasting (WRF) Model to examine the connection between marine heatwaves in the Gulf and coastal temperatures and humidity in the Houston/Galveston Bay region.

This project supports urban heatwave risk assessment in Filipino cities by developing geospatial data products on heat vulnerability, air quality, and mobility impacts. It provides evidence and tools for Local Government Units (LGUs) to integrate heat risk into land use planning and climate resilience frameworks.

URban mitigation and adaptation strategies Gauging through Empirical functions and Data products

URBADAPT-HEAT v1.0: a scalable geospatial framework for city-level public-private adaptation infrastructure cost-benefit analysis and its urban heat risk implementation

Kinshasa Earth Observation data/analysis

This project analyzes heatwave vulnerability and air quality in Kerala, India, using geospatial and environmental data. It examines land surface temperature, air pollution, and climate risk indicators in Kochi and Thiruvananthapuram to support evidence-based climate resilience planning for local governments.

This project develops geospatial data products to support urban heatwave risk assessment in Filipino cities. It maps historical heatwave occurrences, analyzes heat vulnerability using socio-demographic and air quality indicators, and tracks mobility changes during heatwave events to support land use planning and climate resilience policy.

Real-time urban heat risk scoring across 24 zones in 6 Indian cities — XGBoost, SHAP, Streamlit

🌳 Data pipeline analyzing shade impact on NYC neighborhood temperatures

Rethinking urban heat risk in Indian cities using temperature anomalies, census data, Global Forest Watch, and Yale climate opinion data