assessment: Practice exam & theoretical test Course description: Goal: The aim of the lecture is to familiarize students with the basics of control theory. Course description: Open vs closed loop systems, linear time-invariant continuous systems. Modeling, Laplace transform. Transfer function. First and second order systems. Steady state error, pole-zero location, stability. Frequency Domain Analysis. Bode plots, stability and loop transfer function. PI control
This course covers the basic design, modeling, and analysis methods used in the construction of cont...
This site contains links to resources for an introduction to control analysis for second year engine...
Engineering education has seen an explosion of interest in recent years, ...
This course covers the following topics: Modeling of dynamic systems, block diagrams and transfer fu...
This course introduces the fundamental mathematics of linear spaces and focuses on linear system the...
This course develops the fundamentals of feedback control using linear transfer function system mode...
Many mechanical engineering undergraduate students find the study of control systems engineering to ...
Laplace, Z transforms: basic properties, use in solving linear differential/difference equations, ap...
To prepare students to develop mathematical modeling of physical systems and analyze their response ...
This is a basic course on classical or s-domain control theory. It will be taught as part of the cou...
Study of analog and computer controlled systems, classical and modern control system design methods,...
Note: Failure to complete all laboratory requirements will result in a grade of N being awarded for ...
Introduction to the state-space approach to control system analysis and control synthesis. State-spa...
These lecture notes give a completely self-contained introduction to the control theory of linear ti...
Abstract: This paper summarizes the organization of a graduate course on control related topics in i...
This course covers the basic design, modeling, and analysis methods used in the construction of cont...
This site contains links to resources for an introduction to control analysis for second year engine...
Engineering education has seen an explosion of interest in recent years, ...
This course covers the following topics: Modeling of dynamic systems, block diagrams and transfer fu...
This course introduces the fundamental mathematics of linear spaces and focuses on linear system the...
This course develops the fundamentals of feedback control using linear transfer function system mode...
Many mechanical engineering undergraduate students find the study of control systems engineering to ...
Laplace, Z transforms: basic properties, use in solving linear differential/difference equations, ap...
To prepare students to develop mathematical modeling of physical systems and analyze their response ...
This is a basic course on classical or s-domain control theory. It will be taught as part of the cou...
Study of analog and computer controlled systems, classical and modern control system design methods,...
Note: Failure to complete all laboratory requirements will result in a grade of N being awarded for ...
Introduction to the state-space approach to control system analysis and control synthesis. State-spa...
These lecture notes give a completely self-contained introduction to the control theory of linear ti...
Abstract: This paper summarizes the organization of a graduate course on control related topics in i...
This course covers the basic design, modeling, and analysis methods used in the construction of cont...
This site contains links to resources for an introduction to control analysis for second year engine...
Engineering education has seen an explosion of interest in recent years, ...