机构地区:[1]黑龙江科技大学矿业工程学院,黑龙江哈尔滨150022 [2]黑龙江科技大学黑龙江省煤矿深部开采地压控制与瓦斯治理重点实验室,黑龙江哈尔滨150022
出 处:《工矿自动化》2024年第8期127-134,共8页Journal Of Mine Automation
基 金:国家自然科学基金资助项目(52174075)。
摘 要:煤岩裂隙发育形态是影响煤岩渗透性、决定煤岩体力学特征的重要因素。针对煤岩裂隙识别过程中存在的复杂结构处理不当、裂隙边界特征保留不足、噪声干扰等问题,提出了一种基于连通性阈值分割的煤岩裂隙识别方法。首先,采用直方图均衡化增强算法和非局部均值滤波去噪算法对图像进行预处理,其次,利用自适应Otsu阈值分割确定预处理后图像的阈值,识别出可能的裂隙区域,应用形态学运算对这些区域进行精细化处理,进一步突出裂隙的边界特征。然后,通过Canny边缘计算提取种子点,以识别图像中的关键特征。最后,基于这些种子点进行区域生长操作,从而有效抑制噪声,并在平滑图像裂隙的同时更加清晰地突出裂隙信息。实验结果表明:①连通性阈值分割的均方误差较自适应Otsu阈值分割和自适应阈值分割分别平均减少了7.20,7.10 dB,连通性阈值分割的峰值信噪比较自适应Otsu阈值分割和自适应阈值分割分别平均提高了0.60,0.59 dB。②连通性阈值分割不仅有效解决了裂隙提取不明显、末端提取效果差及连接处特征消失的问题,而且显著减少了噪声的干扰,使裂隙特征变得更加突出,从而极大地提高了裂隙识别的准确性和完整性。③连通性阈值分割在自适应Otsu阈值分割的基础上,强化了裂隙特征并有效消除了噪声点,平均准确率较自适应阈值分割算法和自适应Otsu阈值分割分别提高了8%和0.8%,达98.9%。The development morphology of coal rock cracks is an important factor affecting the permeability of coal rock and determining the mechanical features of coal rock mass.A coal rock crack recognition method based on connectivity threshold segmentation is proposed to address issues such as improper handling of complex structures,insufficient preservation of crack boundary features,and noise interference in the process of recognizing coal rock cracks.Firstly,histogram equalization enhancement algorithm and non local mean filtering denoising algorithm are used to preprocess the image.Secondly,adaptive Otsu threshold segmentation is used to determine the threshold of the preprocessed image,recognize possible crack areas,and apply morphological operations to refine these areas,further highlighting the boundary features of cracks.Thirdly,seed points are extracted by Canny edge computing to recognize key features in the image.Finally,based on these seed points,regional growth operations are performed to effectively suppress noise and highlight crack information more clearly while smoothing image cracks.The experimental results show the following points.①The mean square error of connectivity threshold segmentation is reduced by an average of 7.20 and 7.10 dB compared to adaptive Otsu threshold segmentation and adaptive threshold segmentation,respectively.The peak signal-to-noise ratio of connectivity threshold segmentation is improved by an average of 0.60 and 0.59 dB compared to adaptive Otsu threshold segmentation and adaptive threshold segmentation,respectively.②Connectivity threshold segmentation not only effectively solves the problems of unclear crack extraction,poor end extraction performance,and disappearance of connection features,but also significantly reduces the interference of noise,making crack features more prominent,thereby greatly improving the accuracy and completeness of crack recognition.③On the basis of adaptive Otsu threshold segmentation,connectivity threshold segmentation enhances crack featur
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