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Jun 16, 2024
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ME 3012 - Linear Systems Analysis and Control Modeling and formulations of physical systems. Transient and steady-state dynamic responses, and other fundamental theory of automatic controls and applications.
Requisites: ME 3011 and MATH 3400 Credit Hours: 3 Repeat/Retake Information: May be retaken two times excluding withdrawals, but only last course taken counts. Lecture/Lab Hours: 3.0 lecture Grades: Eligible Grades: A-F,WP,WF,WN,FN,AU,I Learning Outcomes: - Students will be able to explain the history and some examples of control systems.
- Students will be able to accomplish linear system modeling.
- Students will be able to solve linear initial value problem ordinary differential equations.
- Students will be able to use Laplace transforms for linear initial value problem ordinary differential equations solutions and control systems derivations.
- Students will be able to derive transfer functions and draw block diagrams.
- Students will be able to analyze the stability, disturbances, transient and steady-state responses, dynamic shaping of responses for feedback control systems.
- Students will be able to design and simulate linear single-input, single output controllers for dynamic systems via parameter matching.
- Students will be able to design output attenuation correction factors, plus internal and external pre-filters for control systems.
- Students will be able to apply the root-locus method for the design and analysis of feedback control systems.
- Students will be able to solve first- and second-order, free and forced, undamped and damped mechanical vibrational systems initial value problem ordinary differential equations.
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