肩膀
等长运动
外骨骼
物理医学与康复
任务(项目管理)
运动范围
计算机科学
上肢
物理疗法
模拟
肩关节
肌电图
生物力学
日常生活活动
情感(语言学)
医学
工程类
体重
上半身
任务分析
人工搬运
逻辑回归
作者
Gianluca Rinaldi,Vladimiro Suglia,Luca Tiseni,Cristian Camardella,Michele Xiloyannis,Lorenzo Masia,Domenico Buongiorno,Vitoantonio Bevilacqua,Antonio Frisoli,Domenico Chiaradia
标识
DOI:10.1109/tro.2026.3666155
摘要
Work-related musculoskeletal disorders (WMDs) affect a high percentage of operators performing repeated weight lifting and load carrying in industrial scenarios. Since upper limb muscles are affected in the process, the assistance provided by upper body exoskeletons is increasingly needed to prevent WMDs and their consequent cost to the health system. This paper presents the evaluation of Flexos, a portable, bilateral, shoulder exoskeleton prototype designed to assist logistic and industrial operators in performing occupational tasks. An in-lab assessment was conducted on twelve healthy subjects - 9 males, 3 females - to evaluate Flexos capability in assisting the user during the execution of isometric, dynamic, and carrying-load tasks. Different metrics were extracted from time-series signals to assess the effort related to five targeted muscles surrounding the shoulder complex. Despite the limited experimental size and the prototypal level of the device, Flexos managed to cover almost all the shoulders range of motion - 89.2% flexion/extension, and 88.4% internal/external rotation - and to globally decrease muscular activity in occupational activities, particularly when isometric contractions are required for a prolonged time, with average reductions of -27.2% for the static task, -18.6% for the dynamic task and -23.4% for the carrying-load task.
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