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B-BACN: Bayesian Boundary-Aware Convolutional Network for Crack Characterization

Authors :
Rathnakumar, Rahul
Pang, Yutian
Liu, Yongming
Rathnakumar, Rahul
Pang, Yutian
Liu, Yongming
Publication Year :
2023

Abstract

Accurately detecting crack boundaries is crucial for reliability assessment and risk management of structures and materials, such as structural health monitoring, diagnostics, prognostics, and maintenance scheduling. Uncertainty quantification of crack detection is challenging due to various stochastic factors, such as measurement noises, signal processing, and model simplifications. A machine learning-based approach is proposed to quantify both epistemic and aleatoric uncertainties concurrently. We introduce a Bayesian Boundary-Aware Convolutional Network (B-BACN) that emphasizes uncertainty-aware boundary refinement to generate precise and reliable crack boundary detections. The proposed method employs a multi-task learning approach, where we use Monte Carlo Dropout to learn the epistemic uncertainty and a Gaussian sampling function to predict each sample's aleatoric uncertainty. Moreover, we include a boundary refinement loss to B-BACN to enhance the determination of defect boundaries. The proposed method is demonstrated with benchmark experimental results and compared with several existing methods. The experimental results illustrate the effectiveness of our proposed approach in uncertainty-aware crack boundary detection, minimizing misclassification rate, and improving model calibration capabilities.<br />Comment: 34 pages, 10 figures, 4 tables

Details

Database :
OAIster
Publication Type :
Electronic Resource
Accession number :
edsoai.on1381602046
Document Type :
Electronic Resource