Lyapunov-Based PD Linear Control of the Oscillatory Behavior of a Nonlinear Mechanical System : The Inverted Physical Pendulum with Moving Mass Case

Lyapunov-Based PD Linear Control of the Oscillatory Behavior of a Nonlinear Mechanical System : The Inverted Physical Pendulum with Moving Mass Case

This paper concerns active vibration damping of a frictionless physical inverted pendulum with a radially moving mass. The motion of the inverted pendulum is restricted to an admissible set. The proposed Proportional Derivative linear controller damps the inverted pendulum (which is anchored by a to...

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Veröffentlicht in:Mathematical problems in engineering 2010, Vol.2010 (2010), p.1-12
Hauptverfasser: Garrido Moctezuma, Rubén A., Gutiérrez-Frías, Oscar Octavio, Martínez-García, Juan Carlos, Gómez-González, Bernardo, Aguilar-Ibáñez, Carlos Fernando
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Sprache:eng
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Zusammenfassung:This paper concerns active vibration damping of a frictionless physical inverted pendulum with a radially moving mass. The motion of the inverted pendulum is restricted to an admissible set. The proposed Proportional Derivative linear controller damps the inverted pendulum (which is anchored by a torsion spring to keep it in a stable upright position), exerting a force on the radially moving mass. The controller design procedure, which follows a traditional Lyapunov-based approach, tailors the energy behavior of the system described in Euler-Lagrange terms.
ISSN:1024-123X
1563-5147