An image mosaic technique with non-overlapping regions based on microscopic vision in precision assembly

IF 2.7

Nanotechnology and Precision Engineering Pub Date : 2023-11-09 DOI:10.1063/10.0022172

Yawei Li, Xiaodong Wang, Tao Wang, Yi Luo

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Abstract

Microscopic vision has been widely applied in precision assembly. To achieve sufficiently high resolution in measurements for precision assembly when the sizes of the parts involved exceed the field of view of the vision system, an image mosaic technique must be used. In this paper, a method for constructing an image mosaic with non-overlapping areas with enhanced efficiency is proposed. First, an image mosaic model for the part is created using a geometric model of the measurement system installed on a X-Y-Z precision stages with high repeatability, and a path for image acquisition is established. Second, images are captured along the same path for a specified calibration plate, and an entire image is formed based on the given model. The measurement results obtained from the specified calibration plate are utilized to identify mosaic errors and apply compensation for the part requiring measurement. Experimental results show that the maximum error is less than 4 μm for a camera with pixel equivalent 2.46 μm, thereby demonstrating the accuracy of the proposed method. This image mosaic technique with non-overlapping regions can simplify image acquisition and reduce the workload involved in constructing an image mosaic.

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精密装配中基于显微视觉的无重叠区域图像拼接技术

显微视觉在精密装配中有着广泛的应用。当涉及的零件尺寸超过视觉系统的视场时，为了获得足够高的精确装配测量分辨率，必须使用图像镶嵌技术。提出了一种构造无重叠区域图像拼接的方法，提高了拼接效率。首先，利用安装在高重复性的X-Y-Z精密平台上的测量系统的几何模型，建立了零件的图像拼接模型，建立了图像采集路径;其次，对指定的校准板沿着相同的路径捕获图像，并根据给定的模型形成完整的图像。从指定的校准板获得的测量结果用于识别拼接误差并对需要测量的部件进行补偿。实验结果表明，对于像元等效为2.46 μm的相机，该方法的最大误差小于4 μm，证明了该方法的准确性。这种无重叠区域的图像拼接技术可以简化图像采集，减少构建图像拼接的工作量。

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Nanotechnology and Precision Engineering

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