Effects of using a whole-body powered exoskeleton during simulated occupational load-handling tasks: A pilot study

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Date

2022-01-01

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Elsevier

Abstract

Whole-body powered exoskeletons (WB-PEXOs) can be effective in reducing the physical demands of heavy occupational work, yet almost no empirical evidence exists on the effects of WB-PEXO use. This study assessed the effects of WB-PEXO use on back and leg muscle activities during lab-based simulations of load handling tasks. Six participants (4M, 2F) completed two such tasks (load carriage and stationary load transfer), both with and without a WB-PEXO, and with a range of load masses in each task. WB-PEXO use reduced median levels of muscle activity in the back (∼42–53% in thoracic and ∼24–43% in lumbar regions) and legs (∼41–63% in knee flexors and extensors), and mainly when handling loads beyond low-moderate levels (10–15 kg). Overall, using the WB-PEXO also reduced inter-individual variance (smaller SD) in muscle activities. Future work should examine diverse users, focus on finding effective matches between WB-PEXO use and specific tasks, and identify applications in varied work environments.

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Keywords

Social Sciences, Technology, Engineering, Industrial, Ergonomics, Psychology, Applied, Engineering, Psychology, Human augmentation, Occupational exoskeleton, Electromyography, BIOMECHANICAL DESIGN, QUADRICEPS FEMORIS, EMG, COMPLEX, AID, 1106 Human Movement and Sports Sciences, 1116 Medical Physiology, 1203 Design Practice and Management, Human Factors

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