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Polytopic Decomposition of the Linear Parameter-varying Model of the Parallel-type Double inverted Pendulum | IEEE Conference Publication | IEEE Xplore
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Polytopic Decomposition of the Linear Parameter-varying Model of the Parallel-type Double inverted Pendulum

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Szabolcs Nagy; Zoltan Petres; Peter Baranyi; Laszlo Szeidl; Pal Michelberger
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Abstract:

Most of the formal controller synthesis approaches require conditions like controllability, observability of the systems, however it is still difficult to verify these pr...Show More

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Abstract:

Most of the formal controller synthesis approaches require conditions like controllability, observability of the systems, however it is still difficult to verify these properties in general. In case of polytopic models these conditions and the feasibility of the linear matrix inequalities (LMI) based design strongly depends on the weighting of the LTI vertex components of the polytopic model. With tensor product (TP) model transformation it is possible to decompose linear parameter-varying (LPV) models into polytopic forms in various ways and also provides the appropriate weighting functions. The objective of this paper is to use this decomposition on the the parallel-type double inverted pendulum control problem.
Published in: 2007 11th International Conference on Intelligent Engineering Systems
Date of Conference: 29 June 2007 - 02 July 2007
Date Added to IEEE Xplore: 08 August 2007
ISBN Information:
Print ISSN: 1543-9259
DOI: 10.1109/INES.2007.4283710
Conference Location: Budapest, Hungary
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Contents

I. Introduction

The Tensor Product TP model transformation is a recently proposed automatically executable numerical method. It was originally developed for controller design involving linear parameter varying model representation and linear matrix inequality based control design. It is capable of numerically reconstructing the HOSVD based canonical and different convex polytopic forms of LPV dynamic models, whereupon LMI based design is immediately be executable [1]–[5]. It is important to emphasize that in many cases, the analytical derivation of these polytopic models can be really troublesome, time consuming or even impossible even.

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1.
P. Baranyi, "TP model transformation as a way to LMI based controller design", IEEE Transaction on Industrial Electronics, vol. 51, no. 2, pp. 387-400, April 2004.
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2.
P. Baranyi, D. Tikk, Y. Yam and R. J. Patton, "From differential equations to PDC controller design via numerical transformation", Computers in Industry Elsevier Science, vol. 51, pp. 281-297, 2003.
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3.
Z. Petres, "Polytopic decomposition of linear parameter-varying models by tensor-product model transformation", November 2006.
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4.
L. Szeidl, P. Baranyi, Z. Petres and P. Várlaki, "Numerical reconstruction of the HOSVD based canonical form of polytopic dynamic models", Proceedings of 3rd International Symposium on Computational Intelligence and Intelligent Informatics (ISCIII 2007), pp. 111-116, March 28–30 2007.
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5.
S. Nagy, Z. Petres, P. Baranyi and H. Hashimoto, "Computational relaxed TP model transformation by restriction of the computation to subspaces of the dynamic model", Proceedings of 3rd International Symposium on Computational Intelligence and Intelligent Informatics (ISCIII 2007), pp. 99-104, March 28–30 2007.
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6.
P. Baranyi, "Tensor-product model-based control of two-dimensional aeroelastic system", Journal of Guidance Control and Dynamics, vol. 29, no. 2, pp. 391-400, May-June 2005.
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7.
P. Baranyi, "Output feedback control of two-dimensional aeroelastic system", Journal of Guidance Control and Dynamics, vol. 29, no. 3, pp. 762-767, May-June 2005.
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