Modeling of Human Arm Energy Expenditure for Predicting Energy Optimal Trajectories

Modeling of Human Arm Energy Expenditure for Predicting Energy Optimal Trajectories

Human arm motion can inspire the trajectory planning of anthropomorphic robotic arms to achieve energy-efficient movements. An approach for predicting metabolic cost in the planar human arm motion by means of the biomechanical simulation is proposed in this work. Two biomechanical models, including...

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Bibliographic Details
Main Authors: L. Zhou, S. Bai, M. R. Hansen, J. Rasmussen
Format: Article
Language:English
Published: Norwegian Society of Automatic Control 2011-07-01
Series:Modeling, Identification and Control
Subjects:
Metabolic cost
Human arm motion
Musculoskeletal model
Online Access:http://www.mic-journal.no/PDF/2011/MIC-2011-3-1.pdf
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spelling doaj-3f004cafee64456fac343d2e023bd5d92020-11-24T21:57:33ZengNorwegian Society of Automatic ControlModeling, Identification and Control0332-73531890-13282011-07-013239110110.4173/mic.2011.3.1Modeling of Human Arm Energy Expenditure for Predicting Energy Optimal TrajectoriesL. ZhouS. BaiM. R. HansenJ. RasmussenHuman arm motion can inspire the trajectory planning of anthropomorphic robotic arms to achieve energy-efficient movements. An approach for predicting metabolic cost in the planar human arm motion by means of the biomechanical simulation is proposed in this work. Two biomechanical models, including an analytical model and a musculoskeletal model, are developed to implement the proposed approach. The analytical model is developed by modifying a human muscle expenditure model, in which the muscles are grouped as torque providers for computation efficiency. In the musculoskeletal model, the predication of metabolic cost is conducted on the basis of individual muscles. With the proposed approach, metabolic costs for parameterized target-reaching arm motions are calculated and utilized to identify optimal arm trajectories.http://www.mic-journal.no/PDF/2011/MIC-2011-3-1.pdfMetabolic costHuman arm motionMusculoskeletal model
collection DOAJ
language English
format Article
sources DOAJ
author L. Zhou
S. Bai
M. R. Hansen
J. Rasmussen
spellingShingle L. Zhou
S. Bai
M. R. Hansen
J. Rasmussen
Modeling of Human Arm Energy Expenditure for Predicting Energy Optimal Trajectories
Modeling, Identification and Control
Metabolic cost
Human arm motion
Musculoskeletal model
author_facet L. Zhou
S. Bai
M. R. Hansen
J. Rasmussen
author_sort L. Zhou
title Modeling of Human Arm Energy Expenditure for Predicting Energy Optimal Trajectories
title_short Modeling of Human Arm Energy Expenditure for Predicting Energy Optimal Trajectories
title_full Modeling of Human Arm Energy Expenditure for Predicting Energy Optimal Trajectories
title_fullStr Modeling of Human Arm Energy Expenditure for Predicting Energy Optimal Trajectories
title_full_unstemmed Modeling of Human Arm Energy Expenditure for Predicting Energy Optimal Trajectories
title_sort modeling of human arm energy expenditure for predicting energy optimal trajectories
publisher Norwegian Society of Automatic Control
series Modeling, Identification and Control
issn 0332-7353
1890-1328
publishDate 2011-07-01
description Human arm motion can inspire the trajectory planning of anthropomorphic robotic arms to achieve energy-efficient movements. An approach for predicting metabolic cost in the planar human arm motion by means of the biomechanical simulation is proposed in this work. Two biomechanical models, including an analytical model and a musculoskeletal model, are developed to implement the proposed approach. The analytical model is developed by modifying a human muscle expenditure model, in which the muscles are grouped as torque providers for computation efficiency. In the musculoskeletal model, the predication of metabolic cost is conducted on the basis of individual muscles. With the proposed approach, metabolic costs for parameterized target-reaching arm motions are calculated and utilized to identify optimal arm trajectories.
topic Metabolic cost
Human arm motion
Musculoskeletal model
url http://www.mic-journal.no/PDF/2011/MIC-2011-3-1.pdf
work_keys_str_mv AT lzhou modelingofhumanarmenergyexpenditureforpredictingenergyoptimaltrajectories
AT sbai modelingofhumanarmenergyexpenditureforpredictingenergyoptimaltrajectories
AT mrhansen modelingofhumanarmenergyexpenditureforpredictingenergyoptimaltrajectories
AT jrasmussen modelingofhumanarmenergyexpenditureforpredictingenergyoptimaltrajectories
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