Tuning of Passivity-Based Controllers for Mechanical Systems

Carmen Chan-Zheng; Pablo Borja; Jacquelien M.A. Scherpen

doi:10.1109/TCST.2023.3260995

Tuning of Passivity-Based Controllers for Mechanical Systems

Carmen Chan-Zheng^*, Pablo Borja, Jacquelien M.A. Scherpen

^*Corresponding author voor dit werk

Discrete Technologie en Productie Automatisering

Onderzoeksoutput › Academic › peer review

2 Citaten (Scopus)

38 Downloads (Pure)

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This article describes several approaches for tuning the parameters of a class of passivity-based controllers for standard nonlinear mechanical systems. In particular, we are interested in tuning controllers that preserve the mechanical system structure in the closed loop. To this end, first, we provide tuning rules for stabilization, i.e., the rate of convergence (exponential stability) and stability margin (input-to-state stability). Then, we provide guidelines to remove the overshoot. In addition, we propose a methodology to tune the gyroscopic-related parameters. We also provide remarks on the damping phenomenon to facilitate the practical implementation of our approaches. We conclude this article with experimental results obtained from applying our tuning rules to a fully actuated and an underactuated mechanical system.

Originele taal-2	English
Pagina's (van-tot)	2515 - 2530
Aantal pagina's	16
Tijdschrift	IEEE Transactions on Control Systems Technology
Volume	31
Nummer van het tijdschrift	6
Vroegere onlinedatum	31-mrt.-2023
DOI's	https://doi.org/10.1109/TCST.2023.3260995
Status	Published - nov.-2023

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title = "Tuning of Passivity-Based Controllers for Mechanical Systems",

abstract = "This article describes several approaches for tuning the parameters of a class of passivity-based controllers for standard nonlinear mechanical systems. In particular, we are interested in tuning controllers that preserve the mechanical system structure in the closed loop. To this end, first, we provide tuning rules for stabilization, i.e., the rate of convergence (exponential stability) and stability margin (input-to-state stability). Then, we provide guidelines to remove the overshoot. In addition, we propose a methodology to tune the gyroscopic-related parameters. We also provide remarks on the damping phenomenon to facilitate the practical implementation of our approaches. We conclude this article with experimental results obtained from applying our tuning rules to a fully actuated and an underactuated mechanical system.",

keywords = "Asymptotic stability, Closed loop systems, Damping, Mechanical systems, Passivity-based control (PBC), performance, robot control, Stability criteria, stability of nonlinear systems, Standards, Tuning",

author = "Carmen Chan-Zheng and Pablo Borja and Scherpen, {Jacquelien M.A.}",

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AU - Borja, Pablo

AU - Scherpen, Jacquelien M.A.

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PY - 2023/11

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N2 - This article describes several approaches for tuning the parameters of a class of passivity-based controllers for standard nonlinear mechanical systems. In particular, we are interested in tuning controllers that preserve the mechanical system structure in the closed loop. To this end, first, we provide tuning rules for stabilization, i.e., the rate of convergence (exponential stability) and stability margin (input-to-state stability). Then, we provide guidelines to remove the overshoot. In addition, we propose a methodology to tune the gyroscopic-related parameters. We also provide remarks on the damping phenomenon to facilitate the practical implementation of our approaches. We conclude this article with experimental results obtained from applying our tuning rules to a fully actuated and an underactuated mechanical system.

AB - This article describes several approaches for tuning the parameters of a class of passivity-based controllers for standard nonlinear mechanical systems. In particular, we are interested in tuning controllers that preserve the mechanical system structure in the closed loop. To this end, first, we provide tuning rules for stabilization, i.e., the rate of convergence (exponential stability) and stability margin (input-to-state stability). Then, we provide guidelines to remove the overshoot. In addition, we propose a methodology to tune the gyroscopic-related parameters. We also provide remarks on the damping phenomenon to facilitate the practical implementation of our approaches. We conclude this article with experimental results obtained from applying our tuning rules to a fully actuated and an underactuated mechanical system.

KW - Asymptotic stability

KW - Closed loop systems

KW - Damping

KW - Mechanical systems

KW - Passivity-based control (PBC)

KW - performance

KW - robot control

KW - Stability criteria

KW - stability of nonlinear systems

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KW - Tuning

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Tuning of Passivity-Based Controllers for Mechanical Systems

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