基于机器学习的交换轨道损伤检测

Weixu Liu, Zhifeng Tang, Pengfei Zhang, Xiangxian Chen, Bin Yang
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引用次数: 1

摘要

开关柜轨道是高速铁路系统中一个薄弱但必不可少的部件。由于老化和潜在的疲劳损伤积累,对损伤检测提出了迫切的要求。提出了一种基于特征集成和机器学习的开关轨损伤自动分类方法。根据开关柜轨和导波的特点,提出并定义了从不同信号处理域(如时域、功率谱域和时频域)提取的特征来表征开关柜轨损伤的复杂性。定义损伤指数以消除各种环境和操作条件的影响。提出了一种基于二元粒子群优化(BPSO)的特征选择方法。该方法利用一种新的适应度函数来选择对损伤最敏感的特征,剔除不相关和冗余的特征,提高分类性能。采用最小二乘支持向量机(least-squares support-vector machine, LS-SVM)建立自动分类模型,降低人工错误诊断的概率,提高泛化能力。最后,对开关轨脚进行了实验验证。结果表明,该方法具有较传统方法更好的损伤识别能力。
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Damage Detection in Switch Rails via Machine Learning
Switch rail is a weak but essential component of high-speed rail (HSR) systems. Due to aging and the potential of fatigue damage accumulation, it has an urgent requirement for damage detection. An automatic classification method of switch rail damage based on feature integration and machine learning is proposed. According to the characteristics of switch rail and guided wave, several features extracted from different signal processing domains (such as time domain, power spectrum domain and time-frequency domain) are proposed and defined to characterize the complexity of switch rail damage. A damage index is defined to eliminate the effects of various environmental and operational conditions. A feature selection method based on binary particle swarm optimization (BPSO) is proposed. This method uses a new fitness function to select the most damage-sensitive features, eliminate the irrelevant and redundant features, and improve the classification performance. The least-squares support-vector machine (LS-SVM) is adopted to build an automatic classification model to reduce the probability of artificial error diagnosis and improve the generalization ability. Finally, experiment on the switch rail foot is conducted to verify the proposed method. The results show that the method has the ability of damage identification, which is better than traditional methods.
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