Abstract
Because the mine is damp and dark, it is not easy to detect the rigid tank channel’s structural failure directly. Therefore, we judged the tank channel’s surface condition by detecting the magnitude of the vibration displacement of the lifting container. In our study, we used a laser vision system to measure the structural vibration displacement. In order to accurately segment the laser spot information from the vibration image, we proposed an approach that links the relationship between the gray value of the area adjacent to the threshold point and the background’s gray value to the target in the image. We used MCE to evaluate the segmentation effect of threshold segmentation and verified the improved algorithm’s accuracy by detecting the pixel centroid of laser spots. Results show that the improved algorithm in our study has the best threshold segmentation effect, the error classification can be close to 0.0003, and the minimum deviation of the obtained vibration displacement is close to 0.1 pixels, which can realize the accurate extraction of the vibration signal of the vertical shaft tank. The novelty of this method lies in the accurate threshold segmentation and noise reduction processing of the laser speck vibration image under various interference environments in the operation of the mine hoisting system and the accurate acquisition of vibration signals. The research work provides a basis for the accurate evaluation of mechanical faults of automation technology.
Highlights
China’s coal resources are vibrant, and it is an essential part of the energy field [1]. e mine hoist system undertakes transportation tasks such as coal, equipment, and personnel, and its operation status will directly affect the safe and efficient production of the coal mine
To collect the fault vibration image of the vertical shaft hoisting tank, the vertical shaft hoisting system shown in Figure 2 was built. is experiment can simulate the three failure modes of step bump, joint misalignment, and joint gap, by acting different tank faults and collecting and hoisting the vibration image of the container. e lifting speed is 0.18 m/s, and the impact force caused by the highfrequency vibration caused by the impact step defect of the tank channel causes the displacement of the laser spot centroid pixel. e CCD camera sensor is attached to the top center of the lifting container
To test the segmentation effect of the improved threshold segmentation algorithm on the vertical shaft tank’s vibration image, the segmentation performance is evaluated by two evaluation indicators: the misclassification error (MCE) and the pixel centroid deviation
Summary
China’s coal resources are vibrant, and it is an essential part of the energy field [1]. e mine hoist system undertakes transportation tasks such as coal, equipment, and personnel, and its operation status will directly affect the safe and efficient production of the coal mine. Shock and Vibration scholars have improved Otsu’s method to adapt the algorithm to complex images in more situations. Ng has proposed an interclass variance method that emphasizes troughs, uses the probability of gray value as the threshold value as the weight, and adds it to the target formula of interclass variance, so that the optimal threshold of image segmentation tends to the gray level of the trough position value [6]. Is research analyzes the related improved algorithm’s problems in marking laser speckle segmentation under the interference of pulse noise, intense light, and ghost images. Mathematical morphology algorithm has good robustness to noise, combined with mathematical morphology to process the segmented image, avoiding under- or oversegmentation generated during threshold segmentation, effectively solving the impact of Camera. Environmental interference and improving segmentation target quality [14]
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