Wei Li , Xingui Zhou , Jingchao Xu , Ruyue Zhang , Lizhao Lai , Yi Zeng , Hong Miao
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引用次数: 0
Abstract
The authors of this study develop an accurate and fast method for the localization of the pattern centers (PCs) in the electron backscatter diffraction (EBSD) technique by using the model of deformation of screen moving technology. The proposed algorithm is divided into two steps: (a) Approximation: We use collinear feature points to obtain the initial value of the coordinates of the PC and the zoom factor. (b) Subdivision: We then construct a deformation function containing the three parameters to be solved, select a large region for global registration, use the inverse compositional Gauss–Newton (ICGN) to optimize the objective function, and obtain the results of iteration of the PC and the zoom factor. The proposed algorithm was applied to simulated patterns, and yielded an accuracy of measurement of the PCs that was better than of their resolution while taking only 0.2 s for computations. Moreover, the proposed algorithm has a large radius of convergence that makes it robust to the initial estimate. We also discuss the influence of factors of mechanical instability on its results of calibration during the insertion of the detector, and show that errors in measurements caused by the tilt motion of the camera are related only to the tilt angle of its motion and the detector distance, and are unrelated to the distance moved by it.
本研究的作者利用屏幕移动技术的变形模型,开发了一种准确而快速的方法,用于电子背散射衍射(EBSD)技术中图案中心(PC)的定位。所提出的算法分为两个步骤:(a) 近似:我们利用共线特征点获得 PC 坐标的初始值和缩放因子。(b) 细分:然后构建一个包含三个待解参数的变形函数,选择一个大区域进行全局配准,使用逆合成高斯-牛顿(ICGN)优化目标函数,并获得 PC 和缩放因子的迭代结果。所提出的算法被应用于模拟图案,其 PC 的测量精度优于其分辨率的 4.6×10-6,而计算时间仅为 0.2 秒。此外,所提出的算法具有较大的收敛半径,使其对初始估计具有鲁棒性。我们还讨论了在探测器插入过程中机械不稳定性因素对校准结果的影响,并表明摄像机倾斜运动造成的测量误差只与摄像机运动的倾斜角度和探测器距离有关,而与摄像机移动的距离无关。
期刊介绍:
Ultramicroscopy is an established journal that provides a forum for the publication of original research papers, invited reviews and rapid communications. The scope of Ultramicroscopy is to describe advances in instrumentation, methods and theory related to all modes of microscopical imaging, diffraction and spectroscopy in the life and physical sciences.