The use of ASE consistently lowered muscle activity in the anterior and medial deltoid compared to the free condition (reduction in signal Root Mean Square (RMS) − 21.6 % and − 13.6 % , respectively), while no difference was found for the Erector Spinae Longissimus (ESL) muscle.
Feb 23, 2024 · This study investigates the biomechanical impact of a passive Arm-Support Exoskeleton (ASE) on workers in wool textile processing.
Feb 16, 2024 · This study investigates the biomechanical impact of a passive Arm-Support Exoskeleton (ASE) on workers in wool textile processing.
This study investigates the biomechanical impact of a passive Arm-Support Exoskeleton (ASE) on workers in wool textile processing.
They demonstrated that the use of exoskeleton could reduce standardized shoulder muscle fatigue levels, e.g., peak fatigue reduction by 45% and drilling task ...
We examined the short-term subjective effects of a passive Arm-Support Exoskeleton (ASE) on workers performing repetitive overhead tasks.
Jul 28, 2024 · ... Biomechanical Effects of. Using a Passive Exoskeleton for the Upper Limb in Industrial Manufacturing Activities: A Pilot Study. Sensors 2024 ...
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Jan 10, 2024 · Biomechanical Effects of Using a Passive Exoskeleton for the Upper Limb in Industrial Manufacturing Activities: A Pilot Study.
A passive upper body exoskeleton for static overhead tasks was assessed. · Muscle activity was reduced for the Biceps Brachi by 49% and the Media Deltoid by 62%.
Jun 28, 2024 · Overall, these study findings highlight the potential supportive effects of using an upper-body exoskeleton for industrial overhead tasks.