Project 05: Enhancing Economics and Resilience of Greenhouse via Closed-Loop Performance-Driven Learning-Based Control

Developing AI-based control methods for greenhouse energy systems in the context of controlled-environment agriculture. The goal is to enhance the economics (improve profits) and resilience (be stronger against extreme cases) of the greenhouse facilities. Read More »

Project 04: Addressing Market Design and Operational Gaps for Multiregional Participation with Interregional Operational Coordination

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Answer this question: How do interconnected ISOs with offshore wind coordinate at the day-ahead stage regarding power interchange, congestion management, and other factors? Read More »

Project 03: Improving the Economics of Cascade Hydropower Operation in the Context of Modern Power Systems

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Assisting cascade hydropower fleets in achieving good operating revenue in modern power systems. Read More »

Project 02: Boosting Power System Operation Economics via Closed-Loop Predict-Then-Optimize Idea

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Close the open loop between the uncertainty prediction phase and the operation optimization phase to improve operational economics. Read More »

Project 01: Applying Distributionally Robust Optimization to Power System Operations

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Distributionally robust optimization is a great tool to help power systems handle operational uncertainties. Read More »