Yarn hairiness measurement based on multi-camera system and perspective maximization model

IF 1 4区 计算机科学 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC
Hongyan Cao, Zhenze Chen, Haihua Hu, Xiangbing Huai, Hao Zhu, Zhongjian Li
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引用次数: 0

Abstract

Accurate measurement and identification of the number and length of yarn hairiness is crucial for spinning process optimization and product quality control. However, the existing methods have problems, such as low detection accuracy and efficiency, and incomplete detection. In order to overcome the above defects, an image acquisition device based on a multi-camera system is established to accurately obtain multiple perspectives of hairiness images. An automatic threshold segmentation method based on the local bimodal is proposed based on image difference, convolution kernel enhancement, and histogram equalization. Then, the clear and unbroken yarn hairiness segmentation images are obtained according to the hairiness edge extraction method. Finally, a perspective maximization model is proposed to realize the calculation of the hairiness H value and the number of hairiness in interval. Six kinds of cotton ring-spun yarn with different linear densities are tested using the proposed method, YG133B/M instrument, manual method, and single perspective method. The results show that the proposed multi-camera method can realize the index measurement of the yarn hairiness.
基于多摄像头系统和透视最大化模型的纱线毛羽测量
精确测量和识别纱线毛羽的数量和长度对于纺纱工艺优化和产品质量控制至关重要。然而,现有方法存在检测精度和效率低、检测不全面等问题。为了克服上述缺陷,建立了一种基于多摄像头系统的图像采集装置,以精确获取多角度的毛羽图像。在图像差分、卷积核增强和直方图均衡化的基础上,提出了一种基于局部双模态的自动阈值分割方法。然后,根据毛羽边缘提取方法,得到清晰、完整的纱线毛羽分割图像。最后,提出了透视最大化模型,实现了毛羽 H 值和区间毛羽数的计算。使用提出的方法、YG133B/M 仪器、手动方法和单透视法测试了六种不同线性密度的棉环锭纺纱线。结果表明,所提出的多摄像头方法可以实现纱线毛羽的指标测量。
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来源期刊
Journal of Electronic Imaging
Journal of Electronic Imaging 工程技术-成像科学与照相技术
CiteScore
1.70
自引率
27.30%
发文量
341
审稿时长
4.0 months
期刊介绍: The Journal of Electronic Imaging publishes peer-reviewed papers in all technology areas that make up the field of electronic imaging and are normally considered in the design, engineering, and applications of electronic imaging systems.
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