泽尼克多项式
兰萨克
计算机科学
边缘检测
故障检测与隔离
GSM演进的增强数据速率
人工智能
计算机视觉
航空航天
算法
力矩(物理)
航空影像
均方根
前沿
基础(线性代数)
航空
错误检测和纠正
模糊逻辑
均方误差
特征提取
坐标测量机
光学
图像处理
变更检测
作者
Ji Li,Si Long Qin,Gang Han,Wei Zhao,Huai Jiang Yin
出处
期刊:Applied Optics
[Optica Publishing Group]
日期:2025-12-02
卷期号:65 (1): 237-237
摘要
To address the multi-aperture detection requirements for aviation plugs in complex aerospace manufacturing environments, a sub-pixel edge detection method based on Zernike moments was proposed. First, a linear ramp edge detection model is constructed on the basis of traditional Zernike moments. By precisely deriving edge parameters in the fuzzy transition region via orthogonal critical moments and integrating an adaptive extraction algorithm to optimize threshold judgment criteria, the sub-pixel localization accuracy is significantly improved. Second, a local optimization mechanism and dynamic parameter adjustment strategy were introduced to refine the RANSAC fitting algorithm. Finally, a high-precision visual inspection system for aviation plugs was developed, integrating the Zernike moment-based sub-pixel edge detection algorithm. The experimental results show that the absolute error between the proposed method and the coordinate measuring machine measurements is ±10µm, with a root mean square error of 2.99 µm and a detection time of 1.016 s, demonstrating high accuracy and excellent real-time detection performance in complex industrial environments.
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