INVERTED PENDULUM WITH LINEAR SYNCHRONOUS MOTOR SWING UP USING BOUNDARY VALUE PROBLEM

INVERTED PENDULUM WITH LINEAR SYNCHRONOUS MOTOR SWING UP USING BOUNDARY VALUE PROBLEM

Research in the field of underactuated systems shows that control algorithms which take the natural dynamics of the system’s underactuated part into account are more energy-efficient than those utilizing fully-actuated systems. The purpose of this paper to apply the two-degrees-of-freedom (feedforwa...

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Bibliographic Details
Main Authors: Lukáš Koska, Slávka Jadlovská, Dominik Vošček, Anna Jadlovská
Format: Article
Language:English
Published: CTU Central Library 2019-11-01
Series:Acta Polytechnica
Subjects:
automatic model generator, pendulum on the cart, linear synchronous motor, feedforward/ feedback control structure, boundary value problem, swing-up control.
Online Access:https://ojs.cvut.cz/ojs/index.php/ap/article/view/5381
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spelling doaj-aa7e64e870b54a9f9333abd1c67f2dd42020-11-25T01:56:35ZengCTU Central LibraryActa Polytechnica1210-27091805-23632019-11-0159545846610.14311/AP.2019.59.04584719INVERTED PENDULUM WITH LINEAR SYNCHRONOUS MOTOR SWING UP USING BOUNDARY VALUE PROBLEMLukáš Koska0Slávka Jadlovská1Dominik Vošček2Anna Jadlovská3Dept. of Cybernetics and Artificial Intelligence, Technical University of Košice, SlovakiaDept. of Cybernetics and Artificial Intelligence, Technical University of Košice, SlovakiaDept. of Cybernetics and Artificial Intelligence, Technical University of Košice, SlovakiaDept. of Cybernetics and Artificial Intelligence, Technical University of Košice, SlovakiaResearch in the field of underactuated systems shows that control algorithms which take the natural dynamics of the system’s underactuated part into account are more energy-efficient than those utilizing fully-actuated systems. The purpose of this paper to apply the two-degrees-of-freedom (feedforward/feedback) control structure to design a swing-up manoeuver that involves tracking the desired trajectories so as to achieve and maintain the unstable equilibrium position of the pendulum on the cart system. The desired trajectories are obtained by solving the boundary value problem of the internal system dynamics, while the optimal state-feedback controller ensures that the desired trajectory is tracked with minimal deviations. The proposed algorithm is verified on the simulation model of the available laboratory model actuated by a linear synchronous motor, and the resulting program implementation is used to enhance the custom Simulink library Inverted Pendula Modeling and Control, developed by the authors of this paper.https://ojs.cvut.cz/ojs/index.php/ap/article/view/5381automatic model generator, pendulum on the cart, linear synchronous motor, feedforward/ feedback control structure, boundary value problem, swing-up control.
collection DOAJ
language English
format Article
sources DOAJ
author Lukáš Koska
Slávka Jadlovská
Dominik Vošček
Anna Jadlovská
spellingShingle Lukáš Koska
Slávka Jadlovská
Dominik Vošček
Anna Jadlovská
INVERTED PENDULUM WITH LINEAR SYNCHRONOUS MOTOR SWING UP USING BOUNDARY VALUE PROBLEM
Acta Polytechnica
automatic model generator, pendulum on the cart, linear synchronous motor, feedforward/ feedback control structure, boundary value problem, swing-up control.
author_facet Lukáš Koska
Slávka Jadlovská
Dominik Vošček
Anna Jadlovská
author_sort Lukáš Koska
title INVERTED PENDULUM WITH LINEAR SYNCHRONOUS MOTOR SWING UP USING BOUNDARY VALUE PROBLEM
title_short INVERTED PENDULUM WITH LINEAR SYNCHRONOUS MOTOR SWING UP USING BOUNDARY VALUE PROBLEM
title_full INVERTED PENDULUM WITH LINEAR SYNCHRONOUS MOTOR SWING UP USING BOUNDARY VALUE PROBLEM
title_fullStr INVERTED PENDULUM WITH LINEAR SYNCHRONOUS MOTOR SWING UP USING BOUNDARY VALUE PROBLEM
title_full_unstemmed INVERTED PENDULUM WITH LINEAR SYNCHRONOUS MOTOR SWING UP USING BOUNDARY VALUE PROBLEM
title_sort inverted pendulum with linear synchronous motor swing up using boundary value problem
publisher CTU Central Library
series Acta Polytechnica
issn 1210-2709
1805-2363
publishDate 2019-11-01
description Research in the field of underactuated systems shows that control algorithms which take the natural dynamics of the system’s underactuated part into account are more energy-efficient than those utilizing fully-actuated systems. The purpose of this paper to apply the two-degrees-of-freedom (feedforward/feedback) control structure to design a swing-up manoeuver that involves tracking the desired trajectories so as to achieve and maintain the unstable equilibrium position of the pendulum on the cart system. The desired trajectories are obtained by solving the boundary value problem of the internal system dynamics, while the optimal state-feedback controller ensures that the desired trajectory is tracked with minimal deviations. The proposed algorithm is verified on the simulation model of the available laboratory model actuated by a linear synchronous motor, and the resulting program implementation is used to enhance the custom Simulink library Inverted Pendula Modeling and Control, developed by the authors of this paper.
topic automatic model generator, pendulum on the cart, linear synchronous motor, feedforward/ feedback control structure, boundary value problem, swing-up control.
url https://ojs.cvut.cz/ojs/index.php/ap/article/view/5381
work_keys_str_mv AT lukaskoska invertedpendulumwithlinearsynchronousmotorswingupusingboundaryvalueproblem
AT slavkajadlovska invertedpendulumwithlinearsynchronousmotorswingupusingboundaryvalueproblem
AT dominikvoscek invertedpendulumwithlinearsynchronousmotorswingupusingboundaryvalueproblem
AT annajadlovska invertedpendulumwithlinearsynchronousmotorswingupusingboundaryvalueproblem
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