外骨骼通过减少主动肌肉体积来提高运动效率。
Exoskeletons Improve Locomotion Economy by Reducing Active Muscle Volume.
机构信息
The George W. Woodruff School of Mechanical Engineering.
School of Biological Sciences, Georgia Institute of Technology, Atlanta, GA.
出版信息
Exerc Sport Sci Rev. 2019 Oct;47(4):237-245. doi: 10.1249/JES.0000000000000204.
PMID:31436749
Abstract
Exoskeletons that improve locomotion economy typically are engineered to reduce users' limb joint mechanical work or moments. Yet, limb joint dynamics do not necessarily reflect muscle dynamics, which dictate whole-body metabolic energy expenditure. Here, we hypothesize that exoskeletons primarily reduce user metabolic energy expenditure across locomotion conditions by reducing active muscle volume.
摘要
外骨骼通常通过降低肢体关节的机械功或力矩来改善运动经济性。然而,肢体关节动力学并不一定反映肌肉动力学,后者决定了全身代谢能量消耗。在这里,我们假设外骨骼主要通过减少主动肌肉体积来降低用户在不同运动条件下的代谢能量消耗。
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