ECE 515

ECE 515 - Control System Theory & Design

Spring 2024

TitleRubricSectionCRNTypeHoursTimesDaysLocationInstructor
Control System Theory & DesignECE515N33983DIS41100 - 1220 T R  2200 Sidney Lu Mech Engr Bldg Ivan Thomas Abraham
Control System Theory & DesignECE515ONL40663OD41100 - 1220 M W    Ivan Thomas Abraham
Control System Theory & DesignME540N52780DIS41100 - 1220 T R  2200 Sidney Lu Mech Engr Bldg Ivan Thomas Abraham
Control System Theory & DesignME540ONL73455OD41100 - 1220 M W    Ivan Thomas Abraham

Official Description

Feedback control systems emphasizing state space techniques. Basic principles, modeling, analysis, stability, structural properties, optimization, and design to meet specifications. Course Information: Same as ME 540. Prerequisite: ECE 486.

Subject Area

  • Control Systems

Course Director

Description

Fundamental course on feedback control systems. Basic principles, modeling, optimization and design to meet specifications.

Topics

  • System modeling and analysis: system design as a control problem - constraints, goals and performance specifications, input-output and state space models; linearization; review of linear algebra; fundamentals of state-space analysis of linear systems
  • System structural properties: stability; introduction to Lyapunov methods; controllability, observability; canonical forms and minimal realizations. Modeling uncertainties; system sensitivity and robustness measures.
  • Feedback system design: basic properties of feedback; stabilization and eigenvalue placement by state and output feedback; disturbance rejection; observers for estimating states, and observer feedback systems
  • Optimum feedback control: dynamic programming and the Hamilton-Jacobi-Bellman equation; synthesis of optimum state regulator systems; numerical methods
  • Introduction to the minimum principle: calculus of variations and necessary conditions for optimal trajectories; minimum principle for bounded controls; time-optimal control of linear systems; numerical methods

Detailed Description and Outline

Topics:

  • System modeling and analysis: system design as a control problem - constraints, goals and performance specifications, input-output and state space models; linearization; review of linear algebra; fundamentals of state-space analysis of linear systems
  • System structural properties: stability; introduction to Lyapunov methods; controllability, observability; canonical forms and minimal realizations. Modeling uncertainties; system sensitivity and robustness measures.
  • Feedback system design: basic properties of feedback; stabilization and eigenvalue placement by state and output feedback; disturbance rejection; observers for estimating states, and observer feedback systems
  • Optimum feedback control: dynamic programming and the Hamilton-Jacobi-Bellman equation; synthesis of optimum state regulator systems; numerical methods
  • Introduction to the minimum principle: calculus of variations and necessary conditions for optimal trajectories; minimum principle for bounded controls; time-optimal control of linear systems; numerical methods

Texts

Notes

Last updated

2/13/2013