Graph Spatio-Temporal Networks for Condition Monitoring of Wind Turbine

IF 8.6 1区工程技术 Q1 ENERGY & FUELS

IEEE Transactions on Sustainable Energy Pub Date : 2024-06-10 DOI:10.1109/TSTE.2024.3411884

Xiaohang Jin;Shengye Lv;Ziqian Kong;Hongchun Yang;Yuanming Zhang;Yuanjing Guo;Zhengguo Xu

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引用次数: 0

Abstract

Condition monitoring of wind turbines (WTs) is essential for advancing wind energy. Existing data-driven methods heavily rely on deep learning and big data, leading to challenges in distinguishing true faults from false alarms, impacting operational decisions negatively. Thus, this paper proposes a spatio-temporal graph neural network framework that incorporates prior knowledge. Prior WT knowledge is utilized by establishing a spatially structured directed graph embedded in a graph attention network (GAT). The features in WTs’ supervisory control and data acquisition system are indicated by the nodes in GAT. Then, the global and local attention embedding layers as well as long short-term memory layers are employed to combine spatio-temporal information from each node. Finally, the condition monitoring in WTs’ graph and node-level are established, and a fault propagation chain at node-level is constructed for explaining condition monitoring results. To demonstrate the explainability, robustness and sensitivity of the proposed approach, a comparative analysis between a true fault case and a false alarm case are given, and anomaly detection results are also reported.

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用于风力涡轮机状态监测的图时空网络

风力涡轮机（WT）的状态监测对于推进风能发展至关重要。现有的数据驱动方法在很大程度上依赖于深度学习和大数据，导致在区分真实故障和误报方面面临挑战，从而对运营决策产生负面影响。因此，本文提出了一种结合先验知识的时空图神经网络框架。通过建立嵌入图注意网络（GAT）的空间结构有向图，利用了 WT 的先验知识。风电机组的监控和数据采集系统的特征由 GAT 中的节点表示。然后，利用全局和局部注意力嵌入层以及长短期记忆层来组合来自每个节点的时空信息。最后，建立风电机组图和节点层的状态监测，并构建节点层的故障传播链来解释状态监测结果。为了证明所提方法的可解释性、鲁棒性和灵敏度，给出了真实故障案例和误报案例的对比分析，并报告了异常检测结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

IEEE Transactions on Sustainable Energy ENERGY & FUELS-ENGINEERING, ELECTRICAL & ELECTRONIC

CiteScore

21.40

自引率

5.70%

发文量

215

审稿时长

5 months

期刊介绍： The IEEE Transactions on Sustainable Energy serves as a pivotal platform for sharing groundbreaking research findings on sustainable energy systems, with a focus on their seamless integration into power transmission and/or distribution grids. The journal showcases original research spanning the design, implementation, grid-integration, and control of sustainable energy technologies and systems. Additionally, the Transactions warmly welcomes manuscripts addressing the design, implementation, and evaluation of power systems influenced by sustainable energy systems and devices.