This lecture provides a foundational exploration of Classical Control Theory, focusing on the analysis and design of feedback systems that operate in continuous time. The student will examine how mathematical models—primarily Linear Time-Invariant (LTI) differential equations—allows him to predict and manipulate the behavior of physical processes.
The session will cover the transition from time-domain modeling to the s-domain using the Laplace Transform, enabling the representation of complex systems through Transfer Functions.
Objective: By the end of this lecture, students will understand how to close the loop on an open system to achieve desired performance, robustness, and accuracy in the face of external disturbances.
The session will cover the transition from time-domain modeling to the s-domain using the Laplace Transform, enabling the representation of complex systems through Transfer Functions.
Objective: By the end of this lecture, students will understand how to close the loop on an open system to achieve desired performance, robustness, and accuracy in the face of external disturbances.
- Teacher: Chouaib SOUAIDIA