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ACCURACY OF AN ALGORITHM USING MOTION DATA OF FIVE WEARABLE IMU SENSORS FOR ESTIMATING LIFTING DURATION AND LIFTING RISK FACTORS

机译：使用五种可穿戴IMU传感器的运动数据的算法精度，用于估算提升持续时间和提升危险因素

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The objective of this study was to assess the accuracy of an algorithm for processing data from five inertial measurement unit (IMU) sensors for measuring the vertical distance (V) and horizontal distance (H) of two handed lifting, trunk flexion angle (T) and lifting duration (LD). The sensors were placed on five body segments including the left wrist, right wrist, upper arm of the dominant hand, upper back, and thigh of the dominant leg. A laboratory-grade optical motion capture system was used as the ground truth for the assessment. Data were collected on ten subjects that performed 12 two-handed lifting tasks varying in height of the hands and horizontal distance between the body and the lifted object. Results showed that the algorithm performed well for determining the LD (～ 1 sec error) and T (～2°error). The average errors for V and H were about 33 and 6.5 cm, respectively.

机译：本研究的目的是评估从五个惯性测量单元（IMU）传感器的算法的准确性，用于测量双手提升的垂直距离（V）和水平距离（H）的垂直距离（v）和水平距离（t）提升持续时间（LD）。传感器被放置在五个身体段上，包括左手腕，右手腕，主导手的上部臂，上背部和主导腿的大腿。实验室级光学运动捕获系统被用作评估的基础事实。在十个受试者上收集数据，该主题执行12个双手提升任务，在手的高度和身体和提升物体之间的水平距离之间变化。结果表明，该算法对确定LD（〜1秒误差）和T（〜2°误差）进行了良好。 V和H的平均误差分别为33和6.5cm。

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《Human Factors and Ergonomics Society Annual Meeting》|2019年|1100-1106|共7页
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Menekse S. Barim; Ming-Lun Lu; Shuo Feng; Grant Hughes; Marie Hayden; Dwight Werren;
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入库时间 2022-08-26 13:54:40

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ACCURACY OF AN ALGORITHM USING MOTION DATA OF FIVE WEARABLE IMU SENSORS FOR ESTIMATING LIFTING DURATION AND LIFTING RISK FACTORS

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