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机器人辅助的目标高特训练

Vaughn Chambers1, Madison Johnson1, Panagiotis Artemiadis1

  • 1Mechanical Engineering Department at the University of Delaware, USA.

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|May 21, 2024
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概括
此摘要是机器生成的。

可变刚性跑步机 (VST) 降低了冲击力,并使部和膝盖肌肉发挥作用,有助于跑步者的膝盖和骨关节炎的康复. 它还有助于识别和培训高风险跌倒的个体.

关键词:
人类的步态是人类的步态.符合要求的合规者康复康复康复康复康复康复机器人技术 机器人工程 机器人工程硬性 干扰 干扰培训培训培训培训培训培训培训

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科学领域:

  • 生物力学 生物力学
  • 康复工程 康复工程
  • 运动医学 运动医学

背景情况:

  • 跑步者的膝盖和骨关节炎影响数以百万计的人,通常与冲击力有关.
  • 慢性跌倒风险是一个重大问题,在识别和培训方面存在挑战.
  • 需要一种设备来解决与撞击相关的伤害和防摔问题.

研究的目的:

  • 调查可变刚性跑步机 (VST) 作为一个有针对性的训练设备.
  • 评估VST在减轻冲击力和增强肌肉参与方面的有效性.
  • 探索VST在识别和培训高风险跌倒个体方面的潜力.

主要方法:

  • 这项研究使用了一种具有可调皮带刚度的新型机器人分带跑步机 (VST).
  • 健康的受试者在不对称的环境中和在传统的跑步机上在VST上练习.
  • 测量了包括心率和能量消耗在内的生理反应.

主要成果:

  • VST的不对称环境增加了心率和能量消耗.
  • 增强了部和膝盖周围的肌肉活动.
  • 脚跟撞击期间的冲击力减少了.

结论:

  • 符合标准的环境,比如VST上的环境,可以减少跑步和走路时的高冲击力.
  • VST通过吸引部和膝盖肌肉来促进有针对性的训练和康复.
  • 在识别和培训有高跌倒风险的个体方面,VST显得有前途.