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Electrical & Computer Engineering Research

ECE - 3D image of Optimization and Control model. Grey 3D grid holds blue rectangular shape with yellow center line

Optimization and control

Optimization is about finding the best possible solution, given a set of resource constraints. For example, optimization is needed to find the least crowded path for a message as it travels between distant locations, to find the least-energy solution to move a spacecraft into orbit, or to find the most efficient computation graph for a GPU. Control is about using feedback from sensors or other sources to estimate the state of a system and ensure that it performs well in the presence of uncertainty. For example, feedback control is needed to minimize the risk of collapse of the power grid when it is subjected to constantly changing user demand, or to ensure the safe and efficient operation of an electric vehicle’s battery and motor systems under varying environmental conditions and driver demands. ECE researchers apply mathematical reasoning, statistical tools, simulation methods and computational technologies to solve problems throughout engineering and the sciences. We study the methods and algorithms that underlie these procedures in order to optimize and control modern engineered systems.

Faculty

Focus on Faculty – Dominic Gross

Research labs and facilities

ECE PhD student Prajwal Bhagwat and Professor Gross are discussing the fault-response of a grid-connected power converter in power systems with significant share of renewable generation and power electronics.

Exploring the best path

ECE PhD student Prajwal Bhagwat and Professor Gross are discussing the fault-response of a grid-connected power converter in power systems with significant share of renewable generation and power electronics.