MAE 5780

MAE 5780

Course information provided by the Courses of Study 2016-2017.

This course covers the analysis and design of linear systems in both the Laplace domain and time domain. The course includes a laboratory that examines modeling and control of representative dynamic processes. Laplace transforms and transfer functions are used to study performance specifications, root locus, and frequency response methods. State space topics include stability, controllability, observability, state feedback, and observers.

When Offered Fall.

Comments Graduate version of MAE 4780.

Outcomes
  • Students will be able to obtain the linearization of a non-linear system about an operating point.
  • Construct a transfer function representation of a linear dynamical system.
  • Manipulate block diagrams and transfer functions.
  • Understand the relationship between a linear system and its frequency response, and know how to construct a Bode plot.
  • Know how to design traditional controllers such as Proportional, Integral, Derivate (PID), and Lead-Lag.
  • Understand the concepts of stability, including gain and phase margins and Nyquist stability condition.
  • Design control systems in the frequency domain using state space and Bode/Nyquist techniques.
  • Design control systems in the time domain using state space and Root Locus techniques.

View Enrollment Information

Syllabi: none
  •   Regular Academic Session.  Choose one lecture, one discussion, and one laboratory. Combined with: MAE 4780

  • 4 Credits Graded

  • 11393 MAE 5780   LEC 001

  • There will be labs only during four weeks of the semester. Specific weeks are TBD. Co-meets with MAE 4780, however, MAE 5780 has additional coursework required.

  • 12255 MAE 5780   DIS 201

  • 18555 MAE 5780   DIS 202

  • 11394 MAE 5780   LAB 421

  • 11566 MAE 5780   LAB 422

  • 11641 MAE 5780   LAB 431

  • 11642 MAE 5780   LAB 432

  • 11726 MAE 5780   LAB 441

  • 12436 MAE 5780   LAB 442