Research Interests
My research focuses on the application of Game Theory, Mechanism Design, Operations Research,
Statistical Analysis, and Time Series Analysis to solve complex challenges across various fields,
including:
International Development: Applying game theory, operations research, and statistical methods to design and evaluate
strategies for sustainable economic growth, poverty alleviation, and social development, with a focus on creating impactful solutions for
developing regions and underserved populations.
Humanitarian Aid Systems: Developing decision-making models and logistics strategies for effective
resource allocation and disaster relief operations to maximize social impact.
Economics: Using statistical and game-theoretic methods to model and analyze economic systems, focusing on
resource distribution, market dynamics, and policy analysis.
Supply Chain Management: Using optimization and game-theoretic models to improve efficiency, reduce costs,
and enhance resilience in global supply chains.
Market Design: Applying mechanism design and game theory to create efficient, fair, and transparent market
systems, including auctions, pricing strategies, and resource allocation.
Operations Management: Leveraging operations research, time series analysis, and statistical methods to optimize
production systems, forecasting, and scheduling in manufacturing and service industries.
Ongoing Projects
My ongoing projects include developing advanced mathematical models for optimizing resource allocation,
designing efficient mechanisms for partner selection in supply chains, and creating sustainable logistics frameworks
for humanitarian operations. These projects aim to contribute to both the theoretical and practical dimensions of
Industrial Engineering, driving innovation in complex systems and networks.