论文成果
A novel dynamic distance coding identification method for oil-gas gathering and transportation process
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关键字:CONVOLUTIONAL NEURAL-NETWORK; FAULT-DETECTION; SYSTEM; MODEL; CLASSIFICATION; LOCALIZATION
摘要:Deep learning (DL) has become a mainstream method for fault identification in petrochemical processes. However, the high noise and nonlinear coupling of complex data samples have led to different degrees of low accuracy and robustness problems in the method. Meanwhile, the fault cause is difficult to capture due to the complex chemical process operation mechanism. To address this challenge, a novel dynamic distance coding method incorporating DL is proposed to identify anomalies in real time. First, the collected normal process data are smoothed by the Savitzky-Golay filter to build a normal sample set. Then, dynamic coding based on the distance metric is introduced to compute the distribution of normal and real-time samples for extracting the spatial domain features. By a sliding window, dynamic coded maps are generated and analyzed for fault causes. Finally, the time-domain information is extracted by long short-term memory (LSTM) to learn the deep features of the encoded graph for fault identification. The proposed method was applied to an oil-gas gathering and transportation process, which proves its feasibility and effectiveness. Compared with the conventional LSTM, the F1 score of the method is improved by 0.193, reaching 0.986. The obtained visualization information enables explaining the causes and supplements the fault database, providing a valuable reference for workers' feedback operations.
卷号:121
期号:-
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田文德

教师拼音名称:tianwende

所属院系:环境与安全工程学院

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