MicroCrackAttentionNeXt: Advancing Microcrack Detection in Wave Field Analysis Using Deep Neural Networks through Feature Visualization
- URL: http://arxiv.org/abs/2411.10015v1
- Date: Fri, 15 Nov 2024 07:50:01 GMT
- Title: MicroCrackAttentionNeXt: Advancing Microcrack Detection in Wave Field Analysis Using Deep Neural Networks through Feature Visualization
- Authors: Fatahlla Moreh, Yusuf Hasan, Bilal Zahid Hussain, Mohammad Ammar, Sven Tomforde,
- Abstract summary: This study builds upon the previous benchmark SpAsE-Net, an asymmetric encoder-decoder network for micro-crack detection.
The impact of various activation and loss functions were examined through feature space visualization using the manifold discovery and analysis (MDA) algorithm.
The optimized architecture and training methodology achieved an accuracy of 86.85%.
- Score: 1.0136215038345013
- License:
- Abstract: Micro Crack detection using deep neural networks (DNNs) through an automated pipeline using wave fields interacting with the damaged areas is highly sought after. These high-dimensional spatio-temporal crack data are limited, and these datasets have large dimensions in the temporal domain. The dataset presents a substantial class imbalance, with crack pixels constituting an average of only 5% of the total pixels per sample. This extreme class imbalance poses a challenge for deep learning models with the different micro-scale cracks, as the network can be biased toward predicting the majority class, generally leading to poor detection accuracy. This study builds upon the previous benchmark SpAsE-Net, an asymmetric encoder-decoder network for micro-crack detection. The impact of various activation and loss functions were examined through feature space visualization using the manifold discovery and analysis (MDA) algorithm. The optimized architecture and training methodology achieved an accuracy of 86.85%.
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