[Oral Presentation]GDGC-AE: A New Approach to Mechanical Anomaly Detection Based on Graph Convolutional Networks and Autoencoders - International Conference on Sensing, Measurement & Data Analytics in the era of Artificial Intelligence ((ICSMD2024))

GDGC-AE: A New Approach to Mechanical Anomaly Detection Based on Graph Convolutional Networks and Autoencoders

ID：1 Submission ID：142 View Protection：ATTENDEE Updated Time：2024-10-23 11:34:44 Hits：69 Oral Presentation

Start Time：2024-11-02 11:30 （Asia/Shanghai）

Duration：20min

Session：[P5] Parallel Session 5 » [P5-2] Parallel Session 5（November 2 AM）

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Abstract

For the mechanical anomaly detection task, the neural network model trained only on normal data has limitations in multi-working condition anomaly detection and multi-channel information correlation mining. In this paper, a global dynamic graph convolutional autoencoder (GDGC-AE) model based on Chebyshev convolution is proposed to cope with the above problems. Firstly, in terms of graph structure data generation, inter-channel graph data is generated based on graph transformer to extract global channel features. Secondly, dynamic graph convolutional autoencoder is proposed, which dynamically adjusts the feature weights of different edges in the graph structure data through the graph attention mechanism, so as to fully integrate the multi-view feature information and accurately reconstruct the representations reflecting the essential features of normal data when the working conditions change. The combination of the two effectively improves the anomaly detection ability and generalisation performance of the model under complex conditions. Finally, the validation results based on the bearing dataset of Politecnico di Torino, Italy, and the broken teeth dataset of TBD234V12 diesel engine in the laboratory show that the proposed model has an accuracy of 96.13% and 93.75% on the two datasets, respectively, with an excellent generalisation, which provides a more robust and accurate solution for the detection of industrial machinery faults.

Keywords

Keywords—anomaly detection, graph convolutional network (GCN), global dynamic graph convolutional autoencoder (GDGC-AE), feature fusion

Speaker

ZhangMingzhe

Mr. Beijing University of Chemical Technology

Submission Author

ZhangMingzhe Beijing University of Chemical Technology

SuZhengchang Beijing University of Chemical Technology；China Nuclear Power Engineering Co.,LTD

HaoPengyuan Beijing University of Chemical Technology

LinZesheng Beijing University of Chemical Technology

WangHuaqing Beijing university of chemical technology

SongLiuyang Beijing university of chemical technology

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Important Dates

~~15th August~~ ~~2024~~ 31st August 2024- Manuscript Submission

15th September 2024 - Acceptance Notification

1st October 2024 - Camera Ready Submission

1st October 2024 – Early Bird Registration

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