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Delamination Diagnosis System Using Nonlinear Transformation‑Based Augmentation Approach for CNN Transfer Learning

Authors
Kim, Dong-YoonWoo, Yeon-JunSim, Seong-GyuYoon, Gil Ho
Issue Date
Mar-2024
Publisher
Springer
Keywords
Composite material; Convolutional neural network; Data augmentation; Frequency response function; Nonlinear transformation
Citation
Journal of Vibration Engineering and Technologies, v.12, no.3, pp 3213 - 3230
Pages
18
Indexed
SCIE
SCOPUS
Journal Title
Journal of Vibration Engineering and Technologies
Volume
12
Number
3
Start Page
3213
End Page
3230
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/197106
DOI
10.1007/s42417-023-01040-1
ISSN
2523-3920
2523-3939
Abstract
Purpose: This study presents a nonlinear transformation-based data augmentation approach to diagnose delaminations such as interlaminar, through-hole and buckle, in relatively complex composites. The approach uses tailored vibration signals of relatively simplified composites and employs a convolutional neural network (CNN). Methods: The present study involves modeling several composite structures with and without interlaminar, through-hole and buckle delaminations using finite-element method (FEM)-based simulation. A vibration experiment is also conducted for the case of interlaminar delamination. In our method, it is assumed that all vibration signals of simplified composites and healthy condition of complex real composites are obtained that paves the way to investigate the delamination conditions of real composites. Then, the present approach adopts the nonlinear transformation method mapping the signals of complex healthy composites and simplified healthy composites. The difference between the transformed signals of complex real composites and the reference signals of simplified composites is utilized for the virtual spectrogram computed by the short-time Fourier Transform (STFT). These virtual spectrograms fed into a CNN-based diagnosis system to diagnose the types and locations of delaminations. Results: For interlaminar cases, the simulation and experimental vibration signals are diagnosed with 100 and 92.5%, respectively. Through-hole and buckle cases are both diagnosed with an accuracy of 100%. Using nonlinear transformation to classify vibration signals prior to diagnosis has been shown to be highly advantageous for delamination diagnosis. Conclusion: The results allow the diagnosis of three cases of complex composites with simplified composites using the delamination diagnosis system.
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