Current Research Interests
Medical Logistics
Discrete spatial-temporal framework to utilize resource planning, vehicle dispatching, etc. with respect to dynamic situation.
Home Health Care
Routing, timetabling, and scheduling related issues, such as continuity of care, workload balancing, disjunctive services, etc.
I possess a keen interest in data analysis and the application of methodologies from discrete mathematics, statistics, and computational geometry across various engineering disciplines. It is particularly intriguing for me to establish connections between graph theory and tangible real-world scenarios, especially those related to societal challenges.
My current focus lies in the domain of applied operations research, with a special emphasis on medical logistics and home health care challenges. Previously, I engaged in the development of non-destructive techniques for assessing and forecasting the properties of materials based on carbon nanotubes (CNTs). A notable outcome of this research is the Material Networks Analyzer (MANA), which represents an innovative approach for rapid material characterization, aiming to minimize waste in the production of advanced materials. For further details, please visit the Project MANA page.