1. College of Mechanical and Electronic Engineering, Shandong University of Science and Technology,Qingdao, Shandong 266590, China
2. Laboratory of Micro/Nano Measurement, Shanghai Institute of Measurementand Testing Technology, Shanghai 201203, China
Abstract:The microscopic vision technology is used to automatically detect the roundness of microspheres with the optimization algorithm. The grabbed image of microsphere is acquired by the charge coupled device (CCD) of measuring microscope. The image is enhanced based on the principle of maximum information entropy. There is a algorithm is used to split image which proceed non-maximum suppression of the gradient and iterative. Then the roundness of microspheres by using least square circle fitting is obtained after trace pick-up. The method avoids the loss of some information of the image edge and the reduction of detection accuracy due to filtering processing. By measuring the roundness error of 0.5mm microspheres, it is proved that the method of edge detection and trace pick-up can effectively suppress the influence of noise interference and achieve the accurate location of the target edge. The relative error between the roundness of microspheres obtained by this method and the one of calibrated microspheres is within 0.17%, which could achieved the purpose of effective detection of roundness.
陈厚瑞,蔡潇雨,魏佳斯,李源,于志豪. 基于显微视觉的微球圆度测量方法研究[J]. 计量学报, 2019, 40(5): 770-775.
CHEN Hou-rui,CAI Xiao-yu,WEI Jia-si,LI Yuan,YU Zhi-hao. Research on Measurement for Roundness of Microspheres Based on Micro-vision. Acta Metrologica Sinica, 2019, 40(5): 770-775.
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2019, Vol. 40 
