Control engineering is a multidisciplinary field that deals with the design, analysis and implementation of systems to steer dynamic processes towards desired behaviours. Rooted in classical theories ...

You can apply to the BS/MS program after completing 75 credit hours of undergraduate coursework and before attaining senior status (completing 90 credit hours). Throughout our integrated program in ...

The integration of control engineering, mechatronics and robotics represents a dynamic convergence of disciplines that underpins modern technological innovation. At its core, control engineering ...

Choose coursework based on your interests, and you’ll be prepared to build and manage systems for renewable energy or work with smart buildings. Whatever you decide, you’ll have a strong support ...

Learn to apply control systems in automotive, energy, aerospace, robotics, and manufacturing sectors. Apply feedback control laws to stabilize systems and achieve performance goals. Control systems ...

Control theory is the study of how one can use feedback to modify the behavior of a system — such as a robot, vehicle, chemical or biological process, power grid, stock portfolio, or an ecosystem — so ...

Abstract: Strategic behavior in complex systems—such as digital platforms or autonomous agent networks—is shaped by how information is collected, shared, and used in decision-making. In this talk, I ...

Safety, reliability, and productivity in the nuclear industry result from a systematic consideration of human performance. A plant or other facility consists of both the engineered system and the ...

Environmental pollution and resource depletion have intensified due to rapid industrialization, urban expansion, and increasing consumption of natural ...

If you drive a quantum system with a perfectly time-periodic force, that drive can reshape the system's quantum states into new, controllable 'dressed' states with properties that differ from the ...