Your search keyword '"Zheng, Shubin"' showing total 2 results

1. A Comprehensive Detection System for Track Geometry Using Fused Vision and Inertia.

Author

Peng, Lele, Zheng, Shubin, Li, Peixing, Wang, Yuling, and Zhong, Qianwen

Subjects

*COMPUTER vision, *GEOMETRY, *SURFACE defects, *UNITS of measurement, *LASER machining, *COORDINATE measuring machines, *GYROSCOPES

Abstract

The track line suffers from track irregularity, subgrade settlement, rail surface defects, and gauge distortion. Measuring the track geometry quality plays an important role in rail administrations to safe operation and track maintenance. In order to meet the requirements of track daily inspection, this article describes a comprehensive detection system for the track geometry, which is designed by four cameras, an inclinometer, and an inertial measurement unit. Moreover, the detection system has the characteristics of simple structure, automatic detection, and multiple measurement parameters. First, to measure track alignment and irregularity, a multisensing calibration method is established to fuse visual sensors and inertial sensors. An accelerometer and a Kalman filter are used to eliminate accumulated unrealistic drifts of accelerometer and gyroscope. Second, to measure the rail surface defects and gauge, the model of laser and machine vision is deduced to obtain the coordinate values in a unified coordinate system, and an improved iterative closest point method is developed to improve the matching accuracy. Finally, a series of experiments is carried out to validate the measuring performance. The results indicate that the proposed method can accurately measure the track geometry, with the maximum deviations of track alignment, track irregularity, rail defects, and gauge that are less than 0.5, 0.4, 0.3, and 0.1 mm, respectively. The detection system is not only simple in structure but also has multiple detection parameters, which is especially suitable for track daily maintenance. [ABSTRACT FROM AUTHOR]

Published

2021

2. A Defect Detection Method for Rail Surface and Fasteners Based on Deep Convolutional Neural Network.

Author

Zheng, Danyang, Li, Liming, Zheng, Shubin, Chai, Xiaodong, Zhao, Shuguang, Tong, Qianqian, Wang, Ji, and Guo, Lizheng

Subjects

*CONVOLUTIONAL neural networks, *DEEP learning, *FASTENERS, *BALLAST (Railroads), *MACHINE learning, *SURFACE defects

Abstract

As a result of long-term pressure from train operations and direct exposure to the natural environment, rails, fasteners, and other components of railway track lines inevitably produce defects, which have a direct impact on the safety of train operations. In this study, a multiobject detection method based on deep convolutional neural network that can achieve nondestructive detection of rail surface and fastener defects is proposed. First, rails and fasteners on the railway track image are localized by the improved YOLOv5 framework. Then, the defect detection model based on Mask R-CNN is utilized to detect the surface defects of the rail and segment the defect area. Finally, the model based on ResNet framework is used to classify the state of the fasteners. To verify the robustness and effectiveness of our proposed method, we conduct experimental tests using the ballast and ballastless railway track images collected from Shijiazhuang-Taiyuan high-speed railway line. Through a variety of evaluation indexes to compare with other methods using deep learning algorithms, experimental results show that our method outperforms others in all stages and enables effective detection of rail surface and fasteners. [ABSTRACT FROM AUTHOR]

Published

2021