Hierarchical Cascade Controller for Assistance Modulation in a Soft Wearable Arm Exoskeleton

In recent years soft wearable exoskeletons, commonly referred to as exosuits, have been widely exploited in human assistance. Hence, a shared approach for a systematic and exhaustive control architecture is extremely important. Most of the exosuits developed so far employ a bowden cable transmission...

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Published in	IEEE robotics and automation letters Vol. 2; no. 3; pp. 1786 - 1793
Main Authors	Binh Khanh Dinh, Xiloyannis, Michele, Antuvan, Chris Wilson, Cappello, Leonardo, Masia, Lorenzo
Format	Journal Article
Language	English
Published	IEEE 01.07.2017
Subjects	Actuators Computer architecture Elbow Electromyography Exoskeletons physically assistive devices Prosthetics and exoskeletons Robots robust/adaptive control of robotic systems Torque
Online Access	Get full text
ISSN	2377-3766 2377-3766
DOI	10.1109/LRA.2017.2668473

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Abstract	In recent years soft wearable exoskeletons, commonly referred to as exosuits, have been widely exploited in human assistance. Hence, a shared approach for a systematic and exhaustive control architecture is extremely important. Most of the exosuits developed so far employ a bowden cable transmission to conveniently place the actuator away from the end-effector. While having many advantages this actuation strategy presents some intrinsic limitations caused by the presence of nonlinearities, such as friction and backlash of the cables, which make it difficult to predict and control the dynamics between the device and the user. In this letter, we propose a novel hierarchical control paradigm for a cable-driven upper limb exosuits that aims at evaluating and consequently deliver the appropriate assistive torque to the user's elbow joint. The proposed control method comprises three main layers: an active impedance control which estimates the user's arm motion intention and guarantees an intuitive response of the suit to the wearer's motion; a mid-level controller which compensates for the backlash in the transmission and converts the reference arm motion to the desired position of the actuator; a low-level controller which is responsible for driving the actuation stage by compensating for the nonlinear dynamics occurring in the bowden cable to provide the desired assistive torque at the joint. Tests on healthy subjects show that wearing the exosuit reduces by 48.3% the muscular effort required to lift 1 kg and that the controller is able to modulate its level of assistance to the wearer's motor ability.
AbstractList	In recent years soft wearable exoskeletons, commonly referred to as exosuits, have been widely exploited in human assistance. Hence, a shared approach for a systematic and exhaustive control architecture is extremely important. Most of the exosuits developed so far employ a bowden cable transmission to conveniently place the actuator away from the end-effector. While having many advantages this actuation strategy presents some intrinsic limitations caused by the presence of nonlinearities, such as friction and backlash of the cables, which make it difficult to predict and control the dynamics between the device and the user. In this letter, we propose a novel hierarchical control paradigm for a cable-driven upper limb exosuits that aims at evaluating and consequently deliver the appropriate assistive torque to the user's elbow joint. The proposed control method comprises three main layers: an active impedance control which estimates the user's arm motion intention and guarantees an intuitive response of the suit to the wearer's motion; a mid-level controller which compensates for the backlash in the transmission and converts the reference arm motion to the desired position of the actuator; a low-level controller which is responsible for driving the actuation stage by compensating for the nonlinear dynamics occurring in the bowden cable to provide the desired assistive torque at the joint. Tests on healthy subjects show that wearing the exosuit reduces by 48.3% the muscular effort required to lift 1 kg and that the controller is able to modulate its level of assistance to the wearer's motor ability.
Author	Masia, Lorenzo Binh Khanh Dinh Xiloyannis, Michele Antuvan, Chris Wilson Cappello, Leonardo
Author_xml	– sequence: 1 surname: Binh Khanh Dinh fullname: Binh Khanh Dinh email: binhkhan001@ntu.edu.sg organization: Sch. of Mech. & Aerosp. Eng., Nanyang Technol. Univ., Singapore, Singapore – sequence: 2 givenname: Michele surname: Xiloyannis fullname: Xiloyannis, Michele email: michele001@ntu.edu.sg organization: Sch. of Mech. & Aerosp. Eng., Nanyang Technol. Univ., Singapore, Singapore – sequence: 3 givenname: Chris Wilson surname: Antuvan fullname: Antuvan, Chris Wilson email: chriswil001@ntu.edu.sg organization: Sch. of Mech. & Aerosp. Eng., Nanyang Technol. Univ., Singapore, Singapore – sequence: 4 givenname: Leonardo surname: Cappello fullname: Cappello, Leonardo email: lcappello@g.harvard.edu organization: Biodesign Lab., Harvard Univ., Cambridge, MA, USA – sequence: 5 givenname: Lorenzo surname: Masia fullname: Masia, Lorenzo email: lorenzo.masia@ntu.edu.sg organization: Sch. of Mech. & Aerosp. Eng., Nanyang Technol. Univ., Singapore, Singapore
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SubjectTerms	Actuators Computer architecture Elbow Electromyography Exoskeletons physically assistive devices Prosthetics and exoskeletons Robots robust/adaptive control of robotic systems Torque
Title	Hierarchical Cascade Controller for Assistance Modulation in a Soft Wearable Arm Exoskeleton
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