C. Deac, Gicu Călin Deac, Radu Constantin Parpală, Cicerone Laurentiu Popa, C. Popescu
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引用次数: 0
摘要
本文提出了一套深度学习算法,用于使用凯斯西储大学提供的数据集上的多元时间序列检测轴承振动异常。该研究考虑了根据缺陷类型和缺陷程度对轴承状态进行多重分类的问题,仅考虑了初始阶段的准时缺陷。一旦数据集被正确地标记,并且算法在这些数据上得到训练,它们就可以准确地预测缺陷的类型和大小。其中效果最好的模型是RNN - CNN (Recurrent Neural Network with Convolutions),在所有(负载)情况下的准确率都大于97%。
Vibration Anomaly Detection Using Multivariate Time Series
The paper presents a set of deep learning algorithms for detecting vibration anomalies in bearings using multivariate time series on datasets provided by Case Western Reserve University. The study considers a problem of multiclassification of the condition of the bearings depending on the type of defect, but also on the degree of defect, considering only punctual defects in an incipient phase. Once the data sets are correctly labeled and the algorithms are trained on this data, they can accurately predict the type and the size of defect. The model with the best results in the set is RNN - CNN (Recurrent Neural Network with Convolutions) giving an accuracy greater than 97% in all (load) cases.
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