Is deep learning superior to traditional techniques in machine health monitoring applications

The Aeronautical Journal (1968) Pub Date : 2023-08-14 DOI:10.1017/aer.2023.60

W. Wang, K. Vos, J. Taylor, C. Jenkins, B. Bala, L. Whitehead, Z. Peng

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Abstract

In recent years, there has been significant momentum in applying deep learning (DL) to machine health monitoring (MHM). It has been widely claimed that DL methodologies are superior to more traditional techniques in this area. This paper aims to investigate this claim by analysing a real-world dataset of helicopter sensor faults provided by Airbus. Specifically, we will address the problem of machine sensor health unsupervised classification. In a 2019 worldwide competition hosted by Airbus, Fujitsu Systems Europe (FSE) won first prize by achieving an F1-score of 93% using a DL model based on generative adversarial networks (GAN). In another comprehensive study, various modified and existing image encoding methods were compared for the convolutional auto-encoder (CAE) model. The best classification result was achieved using the scalogram as the image encoding method, with an F1-score of 91%. In this paper, we use these two studies as benchmarks to compare with basic statistical analysis methods and the one-class supporting vector machine (SVM). Our comparative study demonstrates that while DL-based techniques have great potential, they are not always superior to traditional methods. We therefore recommend that all future published studies of applying DL methods to MHM include appropriately selected traditional reference methods, wherever possible.

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在机器健康监测应用中，深度学习是否优于传统技术

近年来，将深度学习(DL)应用于机器健康监测(MHM)已经有了很大的发展势头。人们普遍认为深度学习方法在这一领域优于更传统的技术。本文旨在通过分析空客提供的直升机传感器故障的真实数据集来调查这一说法。具体来说，我们将解决机器传感器健康无监督分类的问题。在空中客车公司主办的2019年全球竞赛中，富士通系统欧洲公司(FSE)使用基于生成对抗网络(GAN)的深度学习模型获得了93%的f1分数，获得了一等奖。在另一项综合研究中，对卷积自编码器(CAE)模型的各种改进和现有的图像编码方法进行了比较。采用尺度图作为图像编码方法，分类效果最好，f1得分为91%。本文以这两项研究为基准，与基本统计分析方法和一类支持向量机(SVM)进行比较。我们的比较研究表明，虽然基于dl的技术具有很大的潜力，但它们并不总是优于传统方法。因此，我们建议所有未来发表的将DL方法应用于MHM的研究包括适当选择的传统参考方法，只要可能。

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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The Aeronautical Journal (1968)

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