Jeong, HoeJun and Jeung, SeongYeon and Lee, HyunJun and Kwon, JangWoo (2024) BiVi-GAN: Bivariate Vibration GAN. Sensors, 24 (6). p. 1765. ISSN 1424-8220
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Abstract
In the domain of prognosis and health management (PHM) for rotating machinery, the criticality of ensuring equipment reliability cannot be overstated. With developments in artificial intelligence (AI) and deep learning, there have been numerous attempts to use those methodologies in PHM. However, there are challenges to applying them in practice because they require huge amounts of data. This study explores a novel approach to augment vibration data—a primary component in traditional PHM methodologies—using a specialized generative model. Recognizing the limitations of deep learning models, which often fail to capture the intrinsic physical characteristics vital for vibration analysis, we introduce the bivariate vibration generative adversarial networks (BiVi-GAN) model. BiVi-GAN incorporates elements of a physics-informed neural network (PINN), emphasizing the specific vibration characteristics of rotating machinery. We integrate two types of physical information into our model: order analysis and cross-wavelet transform, which are crucial for dissecting the vibration characteristics of such machinery. Experimental findings show the effectiveness of our proposed model. With the incorporation of physics information (PI) input and PI loss, the BiVi-GAN showed a 70% performance improvement in terms of JS divergence compared with the baseline biwavelet-GAN model. This study maintains the potential and efficacy of complementary domain-specific insights with data-driven AI models for more robust and accurate outcomes in PHM.
Item Type: | Article |
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Subjects: | Science Global Plos > Multidisciplinary |
Depositing User: | Unnamed user with email support@science.globalplos.com |
Date Deposited: | 09 Mar 2024 08:26 |
Last Modified: | 09 Mar 2024 08:26 |
URI: | http://ebooks.manu2sent.com/id/eprint/2529 |