SAM-Based Approach for Automated Fabric Anisotropy Quantification in Concrete Aggregates
Zongxian Liu, Chen Chen, Huibao Huang, Jiankang Chen, Pengtao Zhang, Jianghan Xue

TL;DR
This paper introduces a new method using the Segment Anything Model (SAM) and Fourier series to automatically analyze fabric anisotropy in concrete aggregates, improving accuracy and automation.
Contribution
The novel use of SAM for aggregate segmentation and a new quantification technique combining computational geometry and Fourier series.
Findings
The SAM model achieves an F1-score of 0.842 and an IoU of 0.739 for aggregate segmentation.
The proposed method has a mean absolute error of 4.15° for orientation and 0.025 for fabric anisotropy.
Optimal SAM performance is achieved with a grid point parameter of 32.
Abstract
The reliable characterization of fabric anisotropy in concrete aggregates is critical for understanding the mechanical behavior and durability of concrete. The accurate segmentation of aggregates is essential for anisotropy assessment. However, conventional threshold-based segmentation methods exhibit high sensitivity to noise, while deep learning approaches are often constrained by the scarcity of annotated data. To address these challenges, this study introduces the Segment Anything Model (SAM) for automated aggregate segmentation, leveraging its remarkable zero-shot generalization capabilities. In addition, a novel quantification technique integrating computational geometry with second-order Fourier series is proposed to evaluate both the magnitude and orientation of fabric anisotropy. Extensive experiments conducted on a self-constructed concrete aggregate dataset demonstrated the…
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Taxonomy
TopicsInfrastructure Maintenance and Monitoring · Innovative concrete reinforcement materials · Rock Mechanics and Modeling
