last modified 13/02/2003
| Coursecode:
wb2421 Coursename: Multivariable Control Systems ECTS creditpoints: 6 |
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| Faculty of Mechanical Engineering and Marine Technology | |
| Lecturer(s): Weiden, dr.ir. A.J.J. van der | Tel.: 015-27 85609 |
| Catalog data: Review of single loop feedback design using frequency domain methods. Poles, zeros and stability of multivariable feedback systems. Decoupling by state-feedback for linear as well as nonlinear systems. The robust servomechanism problem for multivariable systems: asymptotic tracking of reference signals in the presence of disturbances. Nyquist-like multivariable design techniques: the characteristic-locus method and Nyquist-array methods. Performance and robustness of multivariable systems. The use of singular values for assessing performance; generalization of the classical control theory. Representations of model uncertainties. The use of the H-infinity norm and the structured singular value to analyse robust stability and robust performance. The choice of suitable weighting functions to specify performance for obtaining an H-infinity controller. |
Course year: MSc
1st year Semester: 2A Hours p/w: 4 Other hours: - Assessment: See remarks Assessm.period(s): (see academic calendar) |
| Prerequisites: wb2207 | |
| Follow up: wb2411 | |
| Detailed
description of topics: The lectures are divided into blocks. At first a review of elementary single-loop feedback design is given. A standard design problem is given and especially the limitations on performance are treated. In the second block of lectures a system theoretical approach is used to explain the properties and the computation of the poles and zeros of multivariable feedback systems. Furthermore internal stability and the generalized Nyquist stability is discussed. The third block treats performance and robustness of multivariable feedback systems. The use of principal gains (singular values) for assessing performance is introduced. Different representations of uncertainties are given. The use of the H-infinty norm and the structured singular value to analyse the robust stability and robust performance will be introduced. Examples are given of how to choose weighting functions to gain specified performance in the H-infinty control design context. Finally a block is spent on multivariable control design for real practical systems using Nyquist like techniques. In MATLAB implemented algorithms are explained and applied to different design examples. |
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| Course
material: |
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| References from
literature: Many references are available in the Central Library. |
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| Remarks
(specific information about assesment, entry requirements, etc.): |
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| Goals: The objective of the course is to gain a basic understanding of the problem formulation and solution for control design of (uncertain) multivariable systems. The mix of tutorial lectures and computer exercises on realistic examples provides a good learning environment. |
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| Computer
use: MATLAB, the Control and mu-toolbox may be used for the exercises. |
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| Laboratory project(s): | |
| Design content: | |
| Percentage of design: - | |