Saturated control of flexible-joint manipulators using a Hammerstein strictly positive real compensator

Ryan James Caverly; David Evan Zlotnik; James Richard Forbes

doi:10.1017/S0263574714002343

Saturated control of flexible-joint manipulators using a Hammerstein strictly positive real compensator

Ryan James Caverly, David Evan Zlotnik, James Richard Forbes

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8 Scopus citations

Abstract

SUMMARY In this paper the control of flexible-joint manipulators while explicitly avoiding actuator saturation is considered. The controllers investigated are composed of a bounded proportional control term and a Hammerstein strictly positive real angular rate control term. This control structure ensures that the total torque demanded of each actuator is bounded by a value that is less than the maximum torque that each actuator is able to provide, thereby disallowing actuator saturation. The proposed controllers are shown to render the closed-loop system asymptotically stable, even in the presence of modeling uncertainties. The performance of the controllers is demonstrated experimentally and in simulation.

Original language	English (US)
Pages (from-to)	1367-1382
Number of pages	16
Journal	Robotica
Volume	34
Issue number	6
DOIs	https://doi.org/10.1017/S0263574714002343
State	Published - Jun 1 2016
Externally published	Yes

Bibliographical note

Publisher Copyright:
Copyright © Cambridge University Press 2014.

Keywords

Actuator saturation
Control of robotic systems
Flexible-joint manipulators
Gibbs parameter
SPR compensator
Serial manipulator

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abstract = "SUMMARY In this paper the control of flexible-joint manipulators while explicitly avoiding actuator saturation is considered. The controllers investigated are composed of a bounded proportional control term and a Hammerstein strictly positive real angular rate control term. This control structure ensures that the total torque demanded of each actuator is bounded by a value that is less than the maximum torque that each actuator is able to provide, thereby disallowing actuator saturation. The proposed controllers are shown to render the closed-loop system asymptotically stable, even in the presence of modeling uncertainties. The performance of the controllers is demonstrated experimentally and in simulation.",

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AU - Zlotnik, David Evan

AU - Forbes, James Richard

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N2 - SUMMARY In this paper the control of flexible-joint manipulators while explicitly avoiding actuator saturation is considered. The controllers investigated are composed of a bounded proportional control term and a Hammerstein strictly positive real angular rate control term. This control structure ensures that the total torque demanded of each actuator is bounded by a value that is less than the maximum torque that each actuator is able to provide, thereby disallowing actuator saturation. The proposed controllers are shown to render the closed-loop system asymptotically stable, even in the presence of modeling uncertainties. The performance of the controllers is demonstrated experimentally and in simulation.

AB - SUMMARY In this paper the control of flexible-joint manipulators while explicitly avoiding actuator saturation is considered. The controllers investigated are composed of a bounded proportional control term and a Hammerstein strictly positive real angular rate control term. This control structure ensures that the total torque demanded of each actuator is bounded by a value that is less than the maximum torque that each actuator is able to provide, thereby disallowing actuator saturation. The proposed controllers are shown to render the closed-loop system asymptotically stable, even in the presence of modeling uncertainties. The performance of the controllers is demonstrated experimentally and in simulation.

KW - Actuator saturation

KW - Control of robotic systems

KW - Flexible-joint manipulators

KW - Gibbs parameter

KW - SPR compensator

KW - Serial manipulator

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Saturated control of flexible-joint manipulators using a Hammerstein strictly positive real compensator

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