重复性
运动捕捉
流离失所(心理学)
准确度和精密度
体积热力学
校准
计算机视觉
变形(气象学)
计算机科学
运动(物理)
航程(航空)
人工智能
光学
生物医学工程
物理
声学
数学
材料科学
工程类
统计
气象学
心理学
复合材料
量子力学
心理治疗师
作者
Pengfei Yang,Maximilian Sanno,Gert‐Peter Brüggemann,Jörn Rittweger
标识
DOI:10.1177/0954411912452994
摘要
The aim of this study is to evaluate the performance of a motion capture system and discuss the application potential of the proposed system in in vivo bone-segment deformation measurements. In this study, the effects of the calibration procedure, camera distance and marker size on the accuracy and precision of the motion capture system have been investigated by comparing the captured movement of the markers with reference movement. The results indicated that the system resolution is at least 20 µm in a capture volume of 400 [Formula: see text] 300 [Formula: see text] 300 mm 3 , which mostly covers the range of motion of the tibia during the stance phase of one gait cycle. Within this volume, the system accuracy and precision decreased following the increase of camera distance along the optical axis of the cameras. With the best configuration, the absolute error and precision for the range of 20 µm displacement were 1.2–1.8 µm and 1.5–2.5 µm, respectively. Small markers (Ø3–8 mm) yielded better accuracy and repeatability than the larger marker (Ø10.5 mm). We conclude that the proposed system is capable of recording minor displacements in a relative large volume.
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