Control engineering, mechatronics and robotics together form a unifying framework for designing, analysing and deploying intelligent electromechanical systems. Control engineering provides the ...

Control engineering is a multidisciplinary field that underpins modern automation and system regulation by applying mathematical models and feedback strategies to achieve desired performance in ...

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 ...

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 ...

We have considerable expertise in MPC as a powerful tool for providing optimal control in dynamic environments, ensuring real-time performance and adaptability. Our work includes developing predictive ...

This course provides the foundation for the analysis and implementation of feedback control systems. Design and tuning of PID and other linear controllers to meet time and frequency specifications are ...

Due to high demand for this course, we operate a staged admissions process with multiple selection deadlines throughout the year, to maintain a fair and transparent approach. Explore our campus, meet ...

Plant automation has historically been the responsibility of the control system engineer—you know, the instrumentation guy, the DCS guy, the PLC and HMI guy. Interfaces were straightforward with ...