Everaert D G, Spaepen A J, Wouters M J, Stappaerts K H, Oostendorp R A
Department of Rehabilitation Sciences, Faculty of Physical Education and Physiotherapy, University of Leuven, Belgium.
Arch Phys Med Rehabil. 1999 Sep;80(9):1082-9. doi: 10.1016/s0003-9993(99)90065-5.
To determine accuracy, precision, and smallest detectable difference for a three-dimensional (3D) video motion analysis system specifically configured for measuring small and slow displacements within a small measurement volume (0.7 x 0.5 x 0.3 m).
Repeated measurements with random sequence of conditions.
Rehabilitation research laboratory.
A reference sliding device was used to control cyclic displacements of two reflective markers over 5 calibrated ranges (1, 3, 10, 30, and 60 mm). Nine cycles were performed for each of 9 conditions (3 directions x 3 zones). Four cameras recorded all trials on tapes, which were digitized with a Kinemetrix system.
Change in distance of the moving markers relative to a third static marker was averaged over 50 frames per trial. Mean error, mean absolute error, and intertrial and intratrial standard deviations (SDs) were calculated for each zone and direction.
For 810 trials, mean error and absolute error were, respectively, .034 mm and .094 mm. The mean intertrial and intratrial SDs and 99% confidence interval were .047 mm (CI = +/- .121 mm) and .030 mm (CI = +/- .077 mm). The corresponding smallest detectable differences were .171 mm and .109 mm.
Motion analysis configured for registration within small volumes allows measurement of minuscule displacements with great accuracy and may therefore be suitable for many applications in rehabilitation research other than gait analysis.
确定一种专门配置用于在小测量体积(0.7×0.5×0.3米)内测量微小和缓慢位移的三维(3D)视频运动分析系统的准确性、精密度和最小可检测差异。
采用随机条件序列进行重复测量。
康复研究实验室。
使用一个参考滑动装置来控制两个反射标记在5个校准范围内(1、3、10、30和60毫米)的周期性位移。对9种条件(3个方向×3个区域)中的每一种都进行了9个周期的测量。四个摄像头将所有试验记录在磁带上,并用Kinemetrix系统进行数字化处理。
每次试验中,移动标记相对于第三个静态标记的距离变化在每50帧上进行平均。计算每个区域和方向的平均误差、平均绝对误差以及试验间和试验内标准差(SD)。
对于810次试验,平均误差和绝对误差分别为0.034毫米和0.094毫米。试验间和试验内标准差的平均值以及99%置信区间分别为0.047毫米(CI = ±0.121毫米)和0.030毫米(CI = ±0.077毫米)。相应的最小可检测差异分别为0.171毫米和0.109毫米。
配置用于在小体积内进行配准的运动分析能够以高精度测量微小位移,因此可能适用于康复研究中除步态分析之外的许多应用。
