Sensor-less Angle and Stiffness Control of Antagonistic PAM Actuator Using Reference Set

This paper proposes a simultaneous control method for the angle and stiffness of the joint in an antagonistic pneumatic artificial muscle (PAM) actuator system using only pressure measurements, and clarifies the allowable references for the PAM actuator system. To achieve a sensor-less control, the...

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Veröffentlicht in:	arXiv.org 2021-05
Hauptverfasser:	Shin, Takaya, Kogiso, Kiminao
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Sprache:	eng
Schlagworte:	Actuators Artificial muscles Coders Control methods Control systems Joints (anatomy) Kalman filters Sensors Stiffness
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description	This paper proposes a simultaneous control method for the angle and stiffness of the joint in an antagonistic pneumatic artificial muscle (PAM) actuator system using only pressure measurements, and clarifies the allowable references for the PAM actuator system. To achieve a sensor-less control, the proposed method estimates the joint angle and contraction forces using an unscented Kalman filter that employs a detailed model of the actuator system. Unlike previous control methods, the proposed method does not require any encoder and force sensor to achieve angle and stiffness control of the PAM actuator system. Experimental validations using three control scenarios confirm that the proposed method can control the joint angle and stiffness simultaneously and independently. Moreover, it is shown that a reference admissible set can be used as an indicator to establish reference values by demonstrating that the reference set covers the experimentally obtained trajectories of the angle and stiffness.
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To achieve a sensor-less control, the proposed method estimates the joint angle and contraction forces using an unscented Kalman filter that employs a detailed model of the actuator system. Unlike previous control methods, the proposed method does not require any encoder and force sensor to achieve angle and stiffness control of the PAM actuator system. Experimental validations using three control scenarios confirm that the proposed method can control the joint angle and stiffness simultaneously and independently. 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subjects	Actuators Artificial muscles Coders Control methods Control systems Joints (anatomy) Kalman filters Sensors Stiffness
title	Sensor-less Angle and Stiffness Control of Antagonistic PAM Actuator Using Reference Set
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