Semi-Supervised Detection of Structural Damage Using Variational Autoencoder and a One-Class Support Vector Machine
Copyright policy )Semi-Supervised Detection of Structural Damage Using Variational Autoencoder and a One-Class Support Vector Machine
In recent years, Artificial Neural Networks (ANNs) have been introduced in Structural Health Monitoring (SHM) systems. A semi-supervised method with a data-driven approach allows the ANN training on data acquired from an undamaged structural condition to detect structural damages. In standard approaches, after the training stage, a decision rule is manually defined to detect anomalous data. However, this process could be made automatic using machine learning methods, whom performances are maximised using hyperparameter optimization techniques. The paper proposes a semi-supervised method with a data-driven approach to detect structural anomalies. The methodology consists of: (i) a Variational Autoencoder (VAE) to approximate undamaged data distribution and (ii) a One-Class Support Vector Machine (OC-SVM) to discriminate different health conditions using damage sensitive features extracted from VAE's signal reconstruction. The method is applied to a scale steel structure that was tested in nine damage's scenarios by IASC-ASCE Structural Health Monitoring Task Group.
FOS: Computer and information sciences, Computer Science - Machine Learning, structural health monitoring, Computer Science - Artificial Intelligence, Semi-supervised damage detection, one-class support vector machines, TK1-9971, Machine Learning (cs.LG), machine learning, Artificial Intelligence (cs.AI), machine learning; one-class support vector machines; Semi-supervised damage detection; structural health monitoring; variational autoencoder, variational autoencoder, Electrical engineering. Electronics. Nuclear engineering
FOS: Computer and information sciences, Computer Science - Machine Learning, structural health monitoring, Computer Science - Artificial Intelligence, Semi-supervised damage detection, one-class support vector machines, TK1-9971, Machine Learning (cs.LG), machine learning, Artificial Intelligence (cs.AI), machine learning; one-class support vector machines; Semi-supervised damage detection; structural health monitoring; variational autoencoder, variational autoencoder, Electrical engineering. Electronics. Nuclear engineering
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