Your search keyword '"Tightness inspection"' showing total 3 results

1. Regression Method for Rail Fastener Tightness Based on Center-Line Projection Distance Feature and Neural Network

Author

Yuanhang Wang, Duxin Liu, Sheng Guo, Yifan Wu, Jing Liu, Wei Li, and Hongjie Wang

Subjects

Railway system, Fasteners, Tightness inspection, Neural network regression, 3D point cloud processing, Ocean engineering, TC1501-1800, Mechanical engineering and machinery, TJ1-1570

Abstract

Abstract In the railway system, fasteners have the functions of damping, maintaining the track distance, and adjusting the track level. Therefore, routine maintenance and inspection of fasteners are important to ensure the safe operation of track lines. Currently, assessment methods for fastener tightness include manual observation, acoustic wave detection, and image detection. There are limitations such as low accuracy and efficiency, easy interference and misjudgment, and a lack of accurate, stable, and fast detection methods. Aiming at the small deformation characteristics and large elastic change of fasteners from full loosening to full tightening, this study proposes high-precision surface-structured light technology for fastener detection and fastener deformation feature extraction based on the center-line projection distance and a fastener tightness regression method based on neural networks. First, the method uses a 3D camera to obtain a fastener point cloud and then segments the elastic rod area based on the iterative closest point algorithm registration. Principal component analysis is used to calculate the normal vector of the segmented elastic rod surface and extract the point on the centerline of the elastic rod. The point is projected onto the upper surface of the bolt to calculate the projection distance. Subsequently, the mapping relationship between the projection distance sequence and fastener tightness is established, and the influence of each parameter on the fastener tightness prediction is analyzed. Finally, by setting up a fastener detection scene in the track experimental base, collecting data, and completing the algorithm verification, the results showed that the deviation between the fastener tightness regression value obtained after the algorithm processing and the actual measured value RMSE was 0.2196 mm, which significantly improved the effect compared with other tightness detection methods, and realized an effective fastener tightness regression.

Published

2024

2. Regression Method for Rail Fastener Tightness Based on Center-Line Projection Distance Feature and Neural Network.

Author

Wang, Yuanhang, Liu, Duxin, Guo, Sheng, Wu, Yifan, Liu, Jing, Li, Wei, and Wang, Hongjie

Abstract

In the railway system, fasteners have the functions of damping, maintaining the track distance, and adjusting the track level. Therefore, routine maintenance and inspection of fasteners are important to ensure the safe operation of track lines. Currently, assessment methods for fastener tightness include manual observation, acoustic wave detection, and image detection. There are limitations such as low accuracy and efficiency, easy interference and misjudgment, and a lack of accurate, stable, and fast detection methods. Aiming at the small deformation characteristics and large elastic change of fasteners from full loosening to full tightening, this study proposes high-precision surface-structured light technology for fastener detection and fastener deformation feature extraction based on the center-line projection distance and a fastener tightness regression method based on neural networks. First, the method uses a 3D camera to obtain a fastener point cloud and then segments the elastic rod area based on the iterative closest point algorithm registration. Principal component analysis is used to calculate the normal vector of the segmented elastic rod surface and extract the point on the centerline of the elastic rod. The point is projected onto the upper surface of the bolt to calculate the projection distance. Subsequently, the mapping relationship between the projection distance sequence and fastener tightness is established, and the influence of each parameter on the fastener tightness prediction is analyzed. Finally, by setting up a fastener detection scene in the track experimental base, collecting data, and completing the algorithm verification, the results showed that the deviation between the fastener tightness regression value obtained after the algorithm processing and the actual measured value RMSE was 0.2196 mm, which significantly improved the effect compared with other tightness detection methods, and realized an effective fastener tightness regression. [ABSTRACT FROM AUTHOR]

Published

2024

3. Establishment and verification of the tightness inspection method of blood products

Author

Xiaojie ZHAO, Yali WANG, Yunfei ZHAO, Qiming ZHANG, Mingxiang SONG, Lingli GUO, Zi DOU, Jipeng ZHANG, and Xiao LIU

Subjects

blood products, vacuum decay method, tightness inspection, Diseases of the blood and blood-forming organs, RC633-647.5, Medicine

Abstract

Objective To establish and verify the vacuum decay method for the tightness inspection of blood products. Methods The method for inspecting the tightness of blood product was established, and the detection limit, linearity, range, accuracy, precision and durability were verified according to the requirements of methodological verification.The validated method was used to check the tightness of blood product packaging. Results The detection limit of this method was 2.5 μm, linear correlation coefficient was r=1, the differential pressure of positive sample was within the allowable range of accuracy, and the durability met the requirements.The RSD of results of 6 repeatability tests and 12 intermediate precision tests were both less than 10%, and all validation items met the verification standards. Conclusion Vacuum decay method can be used to check the tightness of blood products.

Published

2022