Fault diagnosis of mobile robot based on dual-graph convolutional network with prior fault knowledge

IF 8 1区工程技术 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

Advanced Engineering Informatics Pub Date : 2024-10-01 DOI:10.1016/j.aei.2024.102865

Longda Zhang , Fengyu Zhou , Peng Duan , Xianfeng Yuan

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引用次数: 0

Abstract

Effective integration of multi-sensor measurements is crucial for mobile robot fault diagnosis. However, in multi-sensor relationship modeling, existing methods often neglect the impact of different fault types and fail to consider the relations among data samples. To address these issues, a novel dual-graph convolutional network with prior fault knowledge (FKDGCN) is proposed. Specifically, we construct multi-sensor topological graphs based on prior fault knowledge, which effectively consider the impact of fault categories on sensor correlations. Subsequently, sample affinity graphs are constructed based on the temporal relationship and data similarity, and a sample correlation feature extraction module (SCFEM) is designed to capture the interdependence among data samples. Eventually, a novel dual-graph convolutional network is proposed to fuse multi-sample features and multi-sensor spatial–temporal features, in which more comprehensive fault information can be extracted. The effectiveness of FKDGCN is thoroughly validated on datasets collected from a real robot fault diagnosis test bench. Experimental results indicate that FKDGCN achieves outstanding diagnosis performance compared to state-of-the-art methods, with an average accuracy of over 98% on the balanced dataset and over 90% on two imbalanced datasets.

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基于先验故障知识的双图卷积网络的移动机器人故障诊断

有效整合多传感器测量数据对于移动机器人故障诊断至关重要。然而，在多传感器关系建模中，现有方法往往忽略了不同故障类型的影响，也没有考虑数据样本之间的关系。为了解决这些问题，我们提出了一种具有先验故障知识的新型双图卷积网络（FKDGCN）。具体来说，我们基于先验故障知识构建了多传感器拓扑图，有效地考虑了故障类别对传感器相关性的影响。随后，我们根据时间关系和数据相似性构建了样本亲和图，并设计了样本相关性特征提取模块（SCFEM）来捕捉数据样本之间的相互依存关系。最后，提出了一种新颖的双图卷积网络来融合多样本特征和多传感器时空特征，从而提取出更全面的故障信息。FKDGCN 的有效性在真实机器人故障诊断测试台收集的数据集上得到了充分验证。实验结果表明，与最先进的方法相比，FKDGCN 实现了出色的诊断性能，在平衡数据集上的平均准确率超过 98%，在两个不平衡数据集上的平均准确率超过 90%。

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

Advanced Engineering Informatics 工程技术-工程：综合

CiteScore

12.40

自引率

18.20%

发文量

292

审稿时长

45 days

期刊介绍： Advanced Engineering Informatics is an international Journal that solicits research papers with an emphasis on 'knowledge' and 'engineering applications'. The Journal seeks original papers that report progress in applying methods of engineering informatics. These papers should have engineering relevance and help provide a scientific base for more reliable, spontaneous, and creative engineering decision-making. Additionally, papers should demonstrate the science of supporting knowledge-intensive engineering tasks and validate the generality, power, and scalability of new methods through rigorous evaluation, preferably both qualitatively and quantitatively. Abstracting and indexing for Advanced Engineering Informatics include Science Citation Index Expanded, Scopus and INSPEC.