1·Measurement algorithm of V-groove weld seam is developed.
开发了针对V型坡口的焊缝测量算法。
2·The arithmetic realized the feature extraction of the weld seam Image.
并最终实现了对焊缝图像的特征提取。
3·The paper has analyzed the content about image processing in the weld seam tracking system.
在此对焊缝自动跟踪系统中有关图像处理方面的内容作了一些分析。
4·The large degree of deformation of the metal in the weld seam is the key caused the weld stripes.
焊缝区金属变形程度大是产生焊合纹的关键;
5·Notethe coating thickness of weld seam should be not less than 80% of coating thickness on pipe body.
焊缝处的防腐层厚度,不得低于管本体防腐层规定厚度的80%。
6·It puts forward a conception of weld inclusions crack index so as to better control quality of weld seam.
为了更好地控制焊缝质量,提出了焊缝夹杂物裂纹指数的概念。
7·Aimed at spirally welded steel pipe, a visual sensor for automatic weld seam tracking system is developed.
针对螺旋埋弧焊钢管外焊,研制了一种基于视觉传感的焊缝自动跟踪系统。
8·The weld seam is a space curve and it gets information from structured laser sensor by user's controlling.
小范围焊缝模型定义为一条空间曲线,通过控制结构光传感器运动,来获取焊缝的三维信息。
9·According to the traits of weld image, algorithm library is built to process image to detect the weld seam.
结合焊缝坡口图像的特点,开发了一套焊缝检测的图像处理算法。
10·The framework of weld seam is put forward by use of skeleton and thinning method in mathematical morphology.
并利用了数学形态学中的骨架细化提出焊缝的骨架。