Tracking Control for a PM Linear Actuator System

Richard Stadlmayr; Harald Daxberger

Tracking Control for a PM Linear Actuator System

Richard Stadlmayr, Harald Daxberger

Institute of Control Systems

Research output: Chapter in Book/Report/Conference proceeding › Conference proceedings › peer-review

Abstract

This contribution is about the tracking controller design for a permanent magnet synchronous linear actuator. In order to achieve a good tracking behavior as well as a good disturbance rejection for the physical plant we propose an approach based on Port-Hamiltonian systems and passivity-based control (PBC). A combination of feedforward and feedback con trol enhances the tracking behavior of closed loop. In addition the PBC is constructive and provides a Lyapunov function for the stability analysis. In fact the so-called fictive output does not coincide with the regulated output and one has to overcome some restrictions for trajectory planning problem. This approach avoids the solution of a boundary value problem and it takes care for some additional state limitations. The tracking controller design and the motion planning are shown for the mechatronic example together with some simulation results.

Original language	English
Title of host publication	12th International Conference on Sciences and Techniques of Automatic Control & Computer Engineering (STA´2010)
Number of pages	10
Publication status	Published - Dec 2010

Fields of science

102009 Computer simulation
203 Mechanical Engineering
202009 Electrical drive engineering
202034 Control engineering
202 Electrical Engineering, Electronics, Information Engineering
202027 Mechatronics
202003 Automation

JKU Focus areas

Mechatronics and Information Processing

Cite this

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title = "Tracking Control for a PM Linear Actuator System",

abstract = "This contribution is about the tracking controller design for a permanent magnet synchronous linear actuator. In order to achieve a good tracking behavior as well as a good disturbance rejection for the physical plant we propose an approach based on Port-Hamiltonian systems and passivity-based control (PBC). A combination of feedforward and feedback con trol enhances the tracking behavior of closed loop. In addition the PBC is constructive and provides a Lyapunov function for the stability analysis. In fact the so-called fictive output does not coincide with the regulated output and one has to overcome some restrictions for trajectory planning problem. This approach avoids the solution of a boundary value problem and it takes care for some additional state limitations. The tracking controller design and the motion planning are shown for the mechatronic example together with some simulation results.",

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language = "English",

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T1 - Tracking Control for a PM Linear Actuator System

AU - Stadlmayr, Richard

AU - Daxberger, Harald

PY - 2010/12

Y1 - 2010/12

N2 - This contribution is about the tracking controller design for a permanent magnet synchronous linear actuator. In order to achieve a good tracking behavior as well as a good disturbance rejection for the physical plant we propose an approach based on Port-Hamiltonian systems and passivity-based control (PBC). A combination of feedforward and feedback con trol enhances the tracking behavior of closed loop. In addition the PBC is constructive and provides a Lyapunov function for the stability analysis. In fact the so-called fictive output does not coincide with the regulated output and one has to overcome some restrictions for trajectory planning problem. This approach avoids the solution of a boundary value problem and it takes care for some additional state limitations. The tracking controller design and the motion planning are shown for the mechatronic example together with some simulation results.

AB - This contribution is about the tracking controller design for a permanent magnet synchronous linear actuator. In order to achieve a good tracking behavior as well as a good disturbance rejection for the physical plant we propose an approach based on Port-Hamiltonian systems and passivity-based control (PBC). A combination of feedforward and feedback con trol enhances the tracking behavior of closed loop. In addition the PBC is constructive and provides a Lyapunov function for the stability analysis. In fact the so-called fictive output does not coincide with the regulated output and one has to overcome some restrictions for trajectory planning problem. This approach avoids the solution of a boundary value problem and it takes care for some additional state limitations. The tracking controller design and the motion planning are shown for the mechatronic example together with some simulation results.

UR - http://www.regpro.jku.at

M3 - Conference proceedings

BT - 12th International Conference on Sciences and Techniques of Automatic Control & Computer Engineering (STA´2010)

ER -

Tracking Control for a PM Linear Actuator System

Abstract

Fields of science

JKU Focus areas

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Cite this