A novel approach to quantify the assistive torque profiles generated by passive back-support exoskeletons

Industrial exoskeletons are a promising ergonomic intervention to reduce the risk of work-related musculoskeletal disorders by providing external physical support to workers. Passive exoskeletons, having no power supplies, are of particular interest given their predominance in the commercial market....

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Published in	Journal of biomechanics Vol. 145; p. 111363
Main Authors	Madinei, Saman, Kim, Sunwook, Park, Jang-Ho, Srinivasan, Divya, Nussbaum, Maury A.
Format	Journal Article
Language	English
Published	United States Elsevier Ltd 01.12.2022 Elsevier Limited
Subjects	Anthropometry Biomechanics Exoskeleton Exoskeletons Human subjects Impact prediction Mannequins Manufacturers Materials handling Mechanical properties Musculoskeletal diseases Musculoskeletal modeling Software Stiffness Torque Wearable technology United States > US Biomechanics Musculoskeletal modeling Stiffness Wearable technology
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ISSN	0021-9290 1873-2380 1873-2380
DOI	10.1016/j.jbiomech.2022.111363

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Abstract	Industrial exoskeletons are a promising ergonomic intervention to reduce the risk of work-related musculoskeletal disorders by providing external physical support to workers. Passive exoskeletons, having no power supplies, are of particular interest given their predominance in the commercial market. Understanding the mechanical behavior of the torque generation mechanisms embedded in passive exoskeletons is, however, essential to determine the efficacy of these devices in reducing physical loads (e.g., in manual material handling tasks). We introduce a novel approach using a computerized dynamometer to quantify the assistive torque profiles of two passive back-support exoskeletons (BSEs) at different support settings and in both static and dynamic conditions. The feasibility of this approach was examined using both human subjects and a mannequin. Clear differences in assistive torque magnitudes were evident between the two BSEs, and both devices generated more assistive torques during trunk/hip flexion than extension. Assistive torques obtained from human subjects were often within similar ranges as those from the mannequin, though values were more comparable over a narrow range of flexion/extension angles due to practical limitations with the dynamometer and human subjects. Characterizing exoskeleton assistive torque profiles can help in better understanding how to select a torque profile for given task requirements and user anthropometry, and aid in predicting the potential impacts of exoskeleton use by incorporating measured torque profiles in a musculoskeletal modeling system. Future work is recommended to assess this approach for other occupational exoskeletons.
AbstractList	Industrial exoskeletons are a promising ergonomic intervention to reduce the risk of work-related musculoskeletal disorders by providing external physical support to workers. Passive exoskeletons, having no power supplies, are of particular interest given their predominance in the commercial market. Understanding the mechanical behavior of the torque generation mechanisms embedded in passive exoskeletons is, however, essential to determine the efficacy of these devices in reducing physical loads (e.g., in manual material handling tasks). We introduce a novel approach using a computerized dynamometer to quantify the assistive torque profiles of two passive back-support exoskeletons (BSEs) at different support settings and in both static and dynamic conditions. The feasibility of this approach was examined using both human subjects and a mannequin. Clear differences in assistive torque magnitudes were evident between the two BSEs, and both devices generated more assistive torques during trunk/hip flexion than extension. Assistive torques obtained from human subjects were often within similar ranges as those from the mannequin, though values were more comparable over a narrow range of flexion/extension angles due to practical limitations with the dynamometer and human subjects. Characterizing exoskeleton assistive torque profiles can help in better understanding how to select a torque profile for given task requirements and user anthropometry, and aid in predicting the potential impacts of exoskeleton use by incorporating measured torque profiles in a musculoskeletal modeling system. Future work is recommended to assess this approach for other occupational exoskeletons. Industrial exoskeletons are a promising ergonomic intervention to reduce the risk of work-related musculoskeletal disorders by providing external physical support to workers. Passive exoskeletons, having no power supplies, are of particular interest given their predominance in the commercial market. Understanding the mechanical behavior of the torque generation mechanisms embedded in passive exoskeletons is, however, essential to determine the efficacy of these devices in reducing physical loads (e.g., in manual material handling tasks). We introduce a novel approach using a computerized dynamometer to quantify the assistive torque profiles of two passive back-support exoskeletons (BSEs) at different support settings and in both static and dynamic conditions. The feasibility of this approach was examined using both human subjects and a mannequin. Clear differences in assistive torque magnitudes were evident between the two BSEs, and both devices generated more assistive torques during trunk/hip flexion than extension. Assistive torques obtained from human subjects were often within similar ranges as those from the mannequin, though values were more comparable over a narrow range of flexion/extension angles due to practical limitations with the dynamometer and human subjects. Characterizing exoskeleton assistive torque profiles can help in better understanding how to select a torque profile for given task requirements and user anthropometry, and aid in predicting the potential impacts of exoskeleton use by incorporating measured torque profiles in a musculoskeletal modeling system. Future work is recommended to assess this approach for other occupational exoskeletons.Industrial exoskeletons are a promising ergonomic intervention to reduce the risk of work-related musculoskeletal disorders by providing external physical support to workers. Passive exoskeletons, having no power supplies, are of particular interest given their predominance in the commercial market. Understanding the mechanical behavior of the torque generation mechanisms embedded in passive exoskeletons is, however, essential to determine the efficacy of these devices in reducing physical loads (e.g., in manual material handling tasks). We introduce a novel approach using a computerized dynamometer to quantify the assistive torque profiles of two passive back-support exoskeletons (BSEs) at different support settings and in both static and dynamic conditions. The feasibility of this approach was examined using both human subjects and a mannequin. Clear differences in assistive torque magnitudes were evident between the two BSEs, and both devices generated more assistive torques during trunk/hip flexion than extension. Assistive torques obtained from human subjects were often within similar ranges as those from the mannequin, though values were more comparable over a narrow range of flexion/extension angles due to practical limitations with the dynamometer and human subjects. Characterizing exoskeleton assistive torque profiles can help in better understanding how to select a torque profile for given task requirements and user anthropometry, and aid in predicting the potential impacts of exoskeleton use by incorporating measured torque profiles in a musculoskeletal modeling system. Future work is recommended to assess this approach for other occupational exoskeletons.
ArticleNumber	111363
Author	Srinivasan, Divya Park, Jang-Ho Nussbaum, Maury A. Madinei, Saman Kim, Sunwook
Author_xml	– sequence: 1 givenname: Saman surname: Madinei fullname: Madinei, Saman organization: Department of Industrial and Systems Engineering, Virginia Tech, Blacksburg, VA 24061, USA – sequence: 2 givenname: Sunwook surname: Kim fullname: Kim, Sunwook organization: Department of Industrial and Systems Engineering, Virginia Tech, Blacksburg, VA 24061, USA – sequence: 3 givenname: Jang-Ho surname: Park fullname: Park, Jang-Ho organization: Department of Industrial Engineering, Clemson University, Clemson, SC 29634, USA – sequence: 4 givenname: Divya surname: Srinivasan fullname: Srinivasan, Divya organization: Department of Industrial Engineering, Clemson University, Clemson, SC 29634, USA – sequence: 5 givenname: Maury A. surname: Nussbaum fullname: Nussbaum, Maury A. email: nussbaum@vt.edu organization: Department of Industrial and Systems Engineering, Virginia Tech, Blacksburg, VA 24061, USA
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Cites_doi	10.1002/jor.1100110606 10.1080/24725838.2019.1709695 10.1080/24725838.2018.1561557 10.1080/15459624.2012.688464 10.1177/0018720819897669 10.1080/00140139.2019.1602288 10.1016/j.robot.2019.103309 10.1007/978-3-030-51369-6_46 10.1007/978-3-030-75259-0_10 10.1002/ajim.23282 10.1177/1071181321651014 10.1080/00140139.2012.723139 10.1016/j.apergo.2020.103156 10.1016/j.jbiomech.2010.09.021 10.1115/1.4048572 10.1080/24725838.2019.1573770 10.1177/1071181319631261 10.1016/j.mex.2019.08.014 10.1016/j.apergo.2018.02.025 10.1016/j.jbiomech.2019.109486 10.1016/S1672-6529(16)60437-7 10.1007/978-3-030-74614-8_43 10.1002/ajim.23180 10.1177/2055668318761525 10.1115/1.4033177 10.1097/00007632-199304000-00015 10.1080/24725838.2019.1575930 10.1016/j.apergo.2018.08.004 10.1016/j.jbiomech.2018.11.033
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SubjectTerms	Anthropometry Biomechanics Exoskeleton Exoskeletons Human subjects Impact prediction Mannequins Manufacturers Materials handling Mechanical properties Musculoskeletal diseases Musculoskeletal modeling Software Stiffness Torque Wearable technology
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Title	A novel approach to quantify the assistive torque profiles generated by passive back-support exoskeletons
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