比较基于光学标记的运动捕捉系统和惯性测量单元计算的干线在地上行程中的运动学

Youngjae Lee, Neil B. Alexander, Christopher T. Franck, Michael L. Madigan
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引用次数: 0

摘要

跌倒是造成非致命伤害的最常见原因,而在美国,旅行是造成这些跌倒的高比例原因。传统的道路交通干线运动学估计方法是基于光学标记的运动捕捉系统。然而,它们的成本和空间要求往往是这一研究领域的障碍。便宜和便携的惯性测量装置可能是一个合适的选择。本研究比较了基于光学标记的运动捕捉系统与imu在实验室诱导的行走绊倒后初始恢复步骤的着陆时躯干弯曲角和角速度。我们的研究结果证明,佩戴在胸骨上的IMU可以提供与临床相关的躯干运动学测量,并可用于提供有意义的数据,以了解在现实生活中发生的绊倒或绊倒引起的跌倒的运动学反应。
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Comparing Trunk Kinematics Computed by Optical Marker-Based Motion Capture System and Inertial Measurement Units During Overground Trips
Falls are the most common cause of non-fatal injuries, and trips are responsible for high percentages of those falls in the United States. Traditional method for estimating trunk kinematics during overground trips uses optical marker-based motion capture systems. However, their cost and space requirements can often be barriers in this research field. Inexpensive and portable inertial measurement units may be an appropriate alternative. This study compared trunk flexion angle and angular velocity at touchdown of the initial recovery step after laboratory-induced trips while walking captured by the optical markerbased motion capture system versus IMUs. Our results provide evidence that a sternum-worn IMU can provide trunk kinematic measurements of clinical relevance and may be used to provide meaningful data to understand kinematic responses to trips or trip-induced falls that occur in real life.
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