Introduction, historical overview, principles of automatic control systems, mathematical models of physical systems, transfer functions, state equations, functional block diagrams, properties of feedback control systems, transient response analysis, modern control.
- Teacher: Μιχαήλ Δροσάκης
- Teacher: Ιωάννης Νταβλιάκος
- Teacher: Ευάγγελος Παπαδόπουλος
ECTS : 6
Language : el
Learning Outcomes : Successful attendance of the course produces a series of learning outcomes based on which students will be able to: 1. Construct models of complex systems with subsystems in different energy regions and study their response. 2. Learn to choose the appropriate control law to achieve the set specifications. 3. Understand the importance of correct gain selection, the limits of a real control system, and its sensitivity to parameter changes and disturbances. 4. Design closed-loop systems using both time-domain/complex-plane methods and frequency-domain methods. 5. Understand and be familiar with the technology of automatic control systems and their implementation in hardware and software.