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Nov 23, 2024
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EE 871 - Modern Control Systems3 lecture hours 0 lab hours 3 credits Course Description The purpose of this course is to introduce students to principles and practice of modern control engineering. Z-transforms are introduced and utilized in conjunction with the analysis of discrete-time control systems. State-space analysis for continuous-time systems is covered in detail. Techniques on nonlinear systems analysis are developed and applied utilizing computer methods. (prereq: Laplace transforms and a control systems course) Course Learning Outcomes Upon successful completion of this course, the student will be able to:
- Determine the open-loop and closed-loop transfer functions of a system containing a sampler and zero-order-hold
- Determine the stability of sampled data (discrete-time, DT) systems
- Design DT system compensators
- Analyze system controllability and observability
- Design state feedback estimator-regulators
- Estimate a transfer function representation from experimental frequency response data
- Implement a closed-loop compensator
Prerequisites by Topic
- Simplify control system block diagrams
- Obtain continuous time system time-domain performance specifications
- Determine steady-state error of continuous time systems for typical inputs
- Design continuous time, closed-loop, phase-type and PID control systems by root-locus techniques
- Analyze continuous time systems using frequency response methods: Bode diagrams
- Demonstrate the effects of discrete-time sampling of continuous signals
Course Topics
- Prerequisite review
- System frequency response modeling techniques
- Sampled-data systems and the z-transform
- Design state feedback system
- Review state space representation
Coordinator Dr. Jay Wierer
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