Systemic Risk & Cascading Failures
We study how local disruptions spread through economies, infrastructure, supply chains, and social systems, and identify the nodes that amplify systemic risk.
Research
Our work focuses on risk propagation, impact assessment, recovery pathways, and decision intelligence in complex systems.
We study how local disruptions spread through economies, infrastructure, supply chains, and social systems, and identify the nodes that amplify systemic risk.
We assess the direct and indirect effects of disasters and compound shocks on industries, cities, and regional economies, and simulate recovery pathways.
We study exposure, vulnerability, adaptation capacity, and long-term resilience investments under flood, heat, storm surge, and other climate risks.
We map dependencies among transport, energy, water, communications, and supply-chain systems to analyze disruptions, bottlenecks, and substitution pathways.
We explore machine learning, knowledge graphs, and language models for risk identification, evidence extraction, scenario generation, and decision support.
We build maintainable, citable, and traceable data products to support risk research, model development, and policy assessment.