Autonomous defect estimation in aluminum plate and prognosis through stochastic process modeling
Mrudul Jambulkar, Shivam Ojha, Amit Shelke, Anowarul Habib

TL;DR
This paper introduces a new method for detecting and predicting damage in aluminum plates using unsupervised learning and stochastic modeling, enabling efficient and accurate structural health monitoring.
Contribution
A novel unsupervised framework combining k-means clustering and a multi-phase gamma process for defect estimation and prognosis in aluminum plates.
Findings
The method accurately localizes and sizes surface defects without labeled data.
The gamma process effectively models the stochastic progression of damage over time.
The approach maintains low computational complexity while achieving high accuracy.
Abstract
The structural integrity and longevity of aluminum alloy components in lightweight engineering require accurate and efficient damage detection and prognosis methods. Traditional supervised machine learning (ML) techniques often face limitations due to dependency on large datasets, risk of overfitting, and high computational costs. To overcome these challenges, this study proposes an unsupervised learning framework that combines k-means clustering with a multi-phase gamma process to detect and model damage in aluminum plates. Scanning Acoustic Microscopy (SAM) images serve as the data source, from which comprehensive features are extracted in time, frequency, and time-frequency domains using Short-Time Fourier Transform (STFT). The K-means algorithm enables precise localization and sizing of surface defects without prior labels, while the gamma process captures the stochastic progression…
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Taxonomy
TopicsStructural Health Monitoring Techniques · Ultrasonics and Acoustic Wave Propagation · Non-Destructive Testing Techniques
