Towards Online Estimation of Human Joint Muscular Torque with a Lower Limb Exoskeleton Robot

Exoskeleton robots demonstrate promise in their application in assisting or enhancing human physical capacity. Joint muscular torques (JMT) reflect human effort, which can be applied on an exoskeleton robot to realize an active power-assist function. The estimation of human JMT with a wearable exosk...

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Published in	Applied sciences Vol. 8; no. 9; p. 1610
Main Authors	Li, Mantian, Deng, Jing, Zha, Fusheng, Qiu, Shiyin, Wang, Xin, Chen, Fei
Format	Journal Article
Language	English
Published	Basel MDPI AG 01.09.2018
Subjects	active power-assist Gait Human body human joint torque estimation Human mechanics International conferences inverse dynamics Kinematics lower limb exoskeleton Rehabilitation Robotics Robots Sensors Walking China
Online Access	Get full text
ISSN	2076-3417 2076-3417
DOI	10.3390/app8091610

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Abstract	Exoskeleton robots demonstrate promise in their application in assisting or enhancing human physical capacity. Joint muscular torques (JMT) reflect human effort, which can be applied on an exoskeleton robot to realize an active power-assist function. The estimation of human JMT with a wearable exoskeleton is challenging. This paper proposed a novel human lower limb JMT estimation method based on the inverse dynamics of the human body. The method has two main parts: the inverse dynamic approach (IDA) and the sensing system. We solve the inverse dynamics of each human leg separately to shorten the serial chain and reduce computational complexity, and divide the JMT into the mass-induced one and the foot-contact-force (FCF)-induced one to avoid switching the dynamic equation due to different contact states of the feet. An exoskeleton embedded sensing system is designed to obtain the user’s motion data and FCF required by the IDA by mapping motion information from the exoskeleton to the human body. Compared with the popular electromyography (EMG) and wearable sensor based solutions, electrodes, sensors, and complex wiring on the human body are eliminated to improve wearing convenience. A comparison experiment shows that this method produces close output to a motion analysis system with different subjects in different motion.
AbstractList	Exoskeleton robots demonstrate promise in their application in assisting or enhancing human physical capacity. Joint muscular torques (JMT) reflect human effort, which can be applied on an exoskeleton robot to realize an active power-assist function. The estimation of human JMT with a wearable exoskeleton is challenging. This paper proposed a novel human lower limb JMT estimation method based on the inverse dynamics of the human body. The method has two main parts: the inverse dynamic approach (IDA) and the sensing system. We solve the inverse dynamics of each human leg separately to shorten the serial chain and reduce computational complexity, and divide the JMT into the mass-induced one and the foot-contact-force (FCF)-induced one to avoid switching the dynamic equation due to different contact states of the feet. An exoskeleton embedded sensing system is designed to obtain the user's motion data and FCF required by the IDA by mapping motion information from the exoskeleton to the human body. Compared with the popular electromyography (EMG) and wearable sensor based solutions, electrodes, sensors, and complex wiring on the human body are eliminated to improve wearing convenience. A comparison experiment shows that this method produces close output to a motion analysis system with different subjects in different motion. Trunk Posture and Hip Joint Acceleration Measurements The human body is firmly connected to the exoskeleton via the trunk and feet, and a unique motion mapping from the exoskeleton to the human body is ensured by APAL kinematics and its structure design. [...]we are able to derive motion data of the human body from the embedded sensing system in the exoskeleton. According to Equation (8), FCF and the joint angles are major factors that influence the FCF-induced torque. Since the FCF is directly measured by force sensors, and the joint angles are derived from the signals of the displacement sensors, errors caused by the differentiation and inaccuracy of the human model do not influence the major part of the final results. According to the RMES shown in Table 2, we can see three phenomenon: (1) The error of ankle torque is very small for all subjects in each motion, which means the FCF from contact force measurement shoe is quite accurate, and the neglect of inertial torque caused by ankle movement did not lead to a large error of ankle joints; (2) in general, the further the joint is from the foot plate, the larger the error appears, because of the cumulative error of the limb length and joint angle. According to the quantitative analysis of the two outputs from the exoskeleton and the MAS, the result shows accordance accuracy with different subjects in different motions, which indicates the individual independent character of the proposed method and its adaptability to a variety of motion patterns.
Author	Qiu, Shiyin Chen, Fei Zha, Fusheng Li, Mantian Deng, Jing Wang, Xin
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Snippet	Exoskeleton robots demonstrate promise in their application in assisting or enhancing human physical capacity. Joint muscular torques (JMT) reflect human... Trunk Posture and Hip Joint Acceleration Measurements The human body is firmly connected to the exoskeleton via the trunk and feet, and a unique motion mapping...
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SubjectTerms	active power-assist Gait Human body human joint torque estimation Human mechanics International conferences inverse dynamics Kinematics lower limb exoskeleton Rehabilitation Robotics Robots Sensors Walking
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Title	Towards Online Estimation of Human Joint Muscular Torque with a Lower Limb Exoskeleton Robot
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