last modified: 13/02/2003
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This concerns a Course |
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ECTS credit points: 3 |
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Faculty of Mechanical Engineering and Marine Technology |
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Section of Systems and Control Engineering |
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Lecturer(s): dr.Sj.Dijkstra |
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Catalog data: Computer control, sampling of continuous
signals, discrete-time systems, disturbance models, state-space design,
pole-placement, optimal control, minimum variance control, implementational
aspects |
Course year: |
MSc 1st year |
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Semester: |
1B / |
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Hours per week: |
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Other hours: |
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Assessment: |
Computer test |
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Assessment period: |
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(see academic calendar) |
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Prerequisites (course codes): |
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Follow up (course codes): |
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Detailed description of topics: Computer control. Sampling of continuous-time
signals. The sampling theorem. Aliasing. Discrete-time systems. State-space
systems in discrete-time. The z-transform. Selection of sampling-rate. Analysis
of discrete-time systems. Stability. Controllability, reachability and
observability. Disturbance models. Reduction of effects of disturbances. Stochastic
models. Design methods. Approximations of continuous design. Digital
PID-controller. State-space design methods. Observers.
Pole-placement. Optimal design methods. Linear Quadratic
control. Prediction. LQG-control.Implementational aspects of digital
controllers. Minimum-variance control. |
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Course material: |
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References from literature: |
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Remarks assessment, entry requirements, etc.: Knoledge of classic control techniques as well
as the state space theory is required |
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Learning goals: The effects of computer control are introduced.
The differences with the theoretic approach of continuous time controllers is
analyzed. Implementational aspects are discussed |
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Computer use: Matlab is used to carry out the exercises of this course. |
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Laboratory project(s): |
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Design content: |
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Project, Assignment, Case study