Improvement of Vision Measurement Accuracy Using Zernike Moment Based Edge Location Error Compensation Model

机译：基于Zernike时刻的边缘定位误差补偿模型改进视觉测量精度

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This paper presents the Zernike moment based model developed to compensate edge location errors for further improvement of the vision measurement accuracy by compensating the slight changes resulting from sampling and establishing mathematic expressions for subpixel location of theoretical and actual edges which are either vertical to or at an angle with Xaxis. Experimental results show that the proposed model can be used to achieve a vision measurement accuracy of up to 0.08 pixel while the measurement uncertainty is less than 0.36um. It is therefore concluded that as a model which can be used to achieve a significant improvement of vision measurement accuracy, the proposed model is especially suitable for edge location of images with low contrast.

机译：本文介绍了一种基于Zernike时刻的模型，用于补偿边缘定位误差，通过补偿采样产生的微小变化并建立用于垂直于或垂直的实际边缘的子像素的数学表达式来进一步改善视觉测量精度的进一步改善视觉测量精度。角度与xaxis。实验结果表明，该模型可用于达到高达0.08像素的视觉测量精度，而测量不确定性小于0.36um。因此，结论是，作为可以用于实现视觉测量精度显着提高的模型，所提出的模型特别适用于具有低对比度的图像的边缘位置。

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《International symposium on instrumentation science and technology》|2006年||共8页
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J W Cui; J B Tan; Y Zhou; H Zhang;
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中图分类仪器、仪表;
关键词
vision measurement; zernike moment; edge location; error compensation model;

机译：视觉测量;Zernike瞬间;边缘位置;错误补偿模型;

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Improvement of Vision Measurement Accuracy Using Zernike Moment Based Edge Location Error Compensation Model

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