Enhancing Lamb wave-based damage diagnosis in composite materials using a pseudo-damage boosted convolutional neural network approach

IF 5.7 2区 工程技术 Q1 ENGINEERING, MULTIDISCIPLINARY
Á. González-Jiménez, L. Lomazzi, Rafael Junges, M. Giglio, A. Manes, F. Cadini
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引用次数: 0

Abstract

Damage diagnosis of thin-walled structures has been successfully performed through methods based on tomography and machine learning-driven methods. According to traditional approaches, diagnostic signals are excited and sensed on the structure through a permanently installed network of sensors and are processed to obtain information about the damage. Good performance characterizes methods that process Lamb waves, which are described by long propagation distances and high sensitivity to anomalies. Most of the methods require extracting damage-sensitive features from the diagnostic signals to drive the damage diagnosis task. However, this process can lead to loss of information, and the choice of the specific feature to extract may introduce biases that hamper damage diagnosis. Furthermore, traditional approaches do not perform well when composites are considered, due to the anisotropy, inhomogeneity, and complex damage mechanisms shown by this type of material. To boost the performance of methods for damage diagnosis of composite plates, this work proposes a convolutional neural network (CNN)-based algorithm that localizes damage by processing Lamb waves. Different from other methods, the proposed method does not require extracting features from the acquired signals and allows localizing damage through the regression approach. The method was tested against experimental observations of Lamb waves propagating in two composite panels and in a hybrid panel, and the performance of two different sensor arrays was investigated. The pseudo-damage approach was used to generate large enough datasets for training the CNNs, and the performance of the framework was evaluated by localizing pseudo-damage and real damage determined by low-velocity impacts. The CNN-driven method accurately localized damage in all the considered scenarios, and it also outperformed traditional damage indices-based approaches, such as the reconstruction algorithm for probabilistic inspection of defects.
使用伪损伤增强卷积神经网络方法增强复合材料中基于兰姆波的损伤诊断
薄壁结构的损伤诊断已经通过基于断层扫描和机器学习驱动的方法成功地进行。根据传统方法,通过永久安装的传感器网络在结构上激励和感测诊断信号,并对其进行处理以获得有关损坏的信息。处理兰姆波的方法具有良好的性能,兰姆波的传播距离长,对异常的敏感性高。大多数方法需要从诊断信号中提取损伤敏感特征来驱动损伤诊断任务。然而,这一过程可能导致信息丢失,并且选择要提取的特定特征可能会引入妨碍损伤诊断的偏差。此外,当考虑复合材料时,由于这种类型的材料所表现出的各向异性、不均匀性和复杂的损伤机制,传统的方法表现不佳。为了提高复合材料板损伤诊断方法的性能,本文提出了一种基于卷积神经网络(CNN)的算法,该算法通过处理兰姆波来定位损伤。与其他方法不同,该方法不需要从采集的信号中提取特征,并允许通过回归方法定位损伤。该方法针对兰姆波在两块复合材料面板和一块混合面板中传播的实验观测进行了测试,并研究了两种不同传感器阵列的性能。伪损伤方法用于生成足够大的数据集来训练细胞神经网络,并通过定位由低速撞击确定的伪损伤和真实损伤来评估框架的性能。CNN驱动的方法在所有考虑的场景中都准确地定位了损伤,并且它还优于传统的基于损伤指数的方法,例如用于缺陷概率检测的重建算法。
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来源期刊
CiteScore
12.80
自引率
12.10%
发文量
181
审稿时长
4.8 months
期刊介绍: Structural Health Monitoring is an international peer reviewed journal that publishes the highest quality original research that contain theoretical, analytical, and experimental investigations that advance the body of knowledge and its application in the discipline of structural health monitoring.
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