Hu Zhenxing, Xie Huimin, Lu Jian, Wang Huaixi, Zhu Jianguo
Applied Mechanical Laboratory, Department of Engineering Mechanics, Tsinghua University, Beijing, China.
Appl Opt. 2011 Nov 20;50(33):6239-47. doi: 10.1364/AO.50.006239.
Three-dimensional (3D) digital image correlation (DIC) is one of the most popular techniques used in engineering for strain and deformation measurement. However, the error analysis of 3D DIC, especially which kind of parameters dominates the error of 3D coordinate reconstruction in any kind of configuration, is still under study. In this paper, a technique that can be used for error determination of reconstruction is presented. The influence from the system calibration and image correlation to the error is theoretically analyzed. From numerical experiments of one-dimensional line and two-dimensional plane, the evaluation procedure is validated to be flexible. A typical test with standard objects is also conducted. With this technique, once a 3D DIC system is set up and images of objects with speckles and calibration boards are recorded, the error of the configuration can be immediately evaluated. The standard deviation of every point in the world coordinate can be determined by statistical analysis.
三维(3D)数字图像相关(DIC)是工程领域中用于应变和变形测量的最常用技术之一。然而,3D DIC的误差分析,特别是在任何配置下哪种参数主导三维坐标重建的误差,仍在研究中。本文提出了一种可用于重建误差确定的技术。从理论上分析了系统校准和图像相关性对误差的影响。通过一维线和二维平面的数值实验,验证了该评估程序具有灵活性。还进行了标准物体的典型测试。使用该技术,一旦建立了3D DIC系统并记录了带有散斑的物体和校准板的图像,即可立即评估配置的误差。通过统计分析可以确定世界坐标中每个点的标准差。