XE472 |
DYNAMIC MODELING AND CONTROL |
2011 |
1 |
Electrical Engineering and Computer Science |
3.0
(BS=0.0,
ET=3.0,
MA=0.0)
|
This course covers dynamic modeling and control of linear systems. The course provides an overview of classical control theory as the foundation for control applications in electrical, mechanical, and aeronautical systems. Topics here include system modeling using Laplace transform, frequency domain, and state variable methods. Mathematical models are developed for electrical, mechanical, aeronautical, chemical and other physical control systems. Control systems analysis and design techniques are studied within the context of how each system is physically controlled in practice. Laboratory exercises include feedback design and system identification. Computer design exercises include dynamic modeling and control of various engineering systems.
|
36 @ 55 min (2.500 Att/wk) |
4 @ 120 min |
|
Computer interactive exercises. |
XE472 |
DYNAMIC MODELING AND CONTROL |
2004 |
1 |
Electrical Engineering and Computer Science |
3.0
(BS=0.0,
ET=3.0,
MA=0.0)
|
This course covers dynamic modeling and control of linear systems. The course provides an overview of classical control theory as the foundation for control applications in electrical, mechanical, and aeronautical systems. Topics here include system modeling using Laplace transform, frequency domain, and state variable methods. Mathematical models are developed for electrical, mechanical, aeronautical, and other physical control systems. Control systems analysis and design techniques are studied within the context of how each system is physically controlled in practice. Laboratory exercises include feedback design and system identification. Computer design exercises include dynamic modeling and control of various engineering systems.
|
35 @ 55 min (2.500 Att/wk) |
5 @ 120 min |
|
Computer interactive exercises. |