Note: Failure to complete all laboratory requirements will result in a grade of N being awarded for the course. Due dates for assignments: Course Objective: To introduce various fundamental concepts of feedback control systems, including mathematical modeling of dynamic systems; characteristics of feedback control; time and frequency domain analysis; Routh-Hurwitz and Nyquist stability criteria; basic feedback control system design; and introduction to state-space methods. Prerequisites: ELEC 255 or ELEC 260
The Control and Dynamical Systems (CDS) Department at the California Institute of Technology (Caltec...
This course covers the following topics: Modeling of dynamic systems, block diagrams and transfer fu...
This paper presents new control laboratory course designed at the Faculty of Applied Informatics for...
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 ...
To prepare students to develop mathematical modeling of physical systems and analyze their response ...
assessment: Practice exam & theoretical test Course description: Goal: The aim of the lecture is...
Introduction to the state-space approach to control system analysis and control synthesis. State-spa...
Study of analog and computer controlled systems, classical and modern control system design methods,...
Course Description: Modeling of chemical, electrical, mechanical and hydraulic systems. An-alytic so...
This paper summarizes the results from a large-scale survey on the content and teaching philosophy o...
This paper discusses the introduction of basic feedback control concepts and applications specifical...
Introduction to design of feedback systems. Properties and advantages of feedback systems. Time-doma...
Lecture slides, handouts for tutorials, exam papers, and numerical examples for a third year course ...
Control systems instructional modules are more commonly developed for control systems engineering st...
The Control and Dynamical Systems (CDS) Department at the California Institute of Technology (Caltec...
This course covers the following topics: Modeling of dynamic systems, block diagrams and transfer fu...
This paper presents new control laboratory course designed at the Faculty of Applied Informatics for...
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 ...
To prepare students to develop mathematical modeling of physical systems and analyze their response ...
assessment: Practice exam & theoretical test Course description: Goal: The aim of the lecture is...
Introduction to the state-space approach to control system analysis and control synthesis. State-spa...
Study of analog and computer controlled systems, classical and modern control system design methods,...
Course Description: Modeling of chemical, electrical, mechanical and hydraulic systems. An-alytic so...
This paper summarizes the results from a large-scale survey on the content and teaching philosophy o...
This paper discusses the introduction of basic feedback control concepts and applications specifical...
Introduction to design of feedback systems. Properties and advantages of feedback systems. Time-doma...
Lecture slides, handouts for tutorials, exam papers, and numerical examples for a third year course ...
Control systems instructional modules are more commonly developed for control systems engineering st...
The Control and Dynamical Systems (CDS) Department at the California Institute of Technology (Caltec...
This course covers the following topics: Modeling of dynamic systems, block diagrams and transfer fu...
This paper presents new control laboratory course designed at the Faculty of Applied Informatics for...