Differential equations and systems analysis. Undergraduate controls and/or signal processing course would satisfy this requirement. A graduate-level systems course is also helpful, but not necessary.

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 ...

Digital control theory, design methodology, and techniques for controller implementation on digital computers. Discrete system modeling, system identification, and adaptive control methods. Single and ...

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

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 ...

Models of the human brain, patterned on engineering control theory, may some day help researchers control such neurological diseases as epilepsy, Parkinson's and migraines, according to a researcher ...

Successfully managing an engineering control systems company requires an organized accounting system. The various types of accounts that are in an accounting system can seem overwhelming at first, but ...

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 ...

Case School of Engineering’s PhD in Systems and Control Engineering prepares graduates for professional careers in industry, government agencies, national labs, academia or startup companies engaged ...