Published June 14, 2019 | Version v1

Probability-Based Optimal Control Design for Soft Landing of Short-Stroke Actuators

  • 1. ROR icon Universidad de Zaragoza

Description

The impact forces during switching operations of short-stroke actuators may cause bouncing, audible noise, and mechanical wear. The application of soft-landing control strategies to these devices aims at minimizing the impact velocities of their moving components to ultimately improve their lifetime and performance. In this brief, a novel approach for soft-landing trajectory planning, including probability functions, is proposed for optimal control of the actuators. The main contribution of the proposal is that it considers the uncertainty in the contact position, and hence, the obtained trajectories are more robust against system uncertainties. The problem is formulated as an optimal control problem and transformed into a two-point boundary value problem for its numerical resolution. Simulated and experimental tests have been performed using a dynamic model and a commercial short-stroke solenoid valve. The results show a significant improvement in the expected velocities and accelerations at contact with respect to past solutions in which the contact position is assumed to be perfectly known.

Notes

This is the authors' accepted version of the following manuscript:

E. Moya-Lasheras, E. Ramirez-Laboreo and C. Sagues, "Probability-Based Optimal Control Design for Soft Landing of Short-Stroke Actuators," in IEEE Transactions on Control Systems Technology, vol. 28, no. 5, pp. 1956-1963, Sept. 2020, doi: 10.1109/TCST.2019.2918479.

Please cite the publisher's version. For the publisher's version and full citation details see: https://doi.org/10.1109/TCST.2019.2918479.

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Probability-based optimal control design for soft landing of short-stroke actuators.pdf

Additional details

Related works

Is published in
Journal: 10.1109/TCST.2019.2918479 (DOI)
Is variant form of
Preprint: arXiv:2404.01125 (arXiv)

Funding

Agencia Estatal de Investigación
Nuevas tecnologías de calentamiento y control aplicado a electrodomésticos para mejorar la Experiencia de Usuario (ARQUE) RTC-2017-5965-6
Ministerio de Educación Cultura y Deporte
Ayudas para la Formación de Profesorado Universitario FPU14/04171
Gobierno de Aragón
Robótica, percepción y tiempo real T45_17R