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Deep Learning-Based Automated Image Segmentation for Concrete Petrographic Analysis

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arxiv 2005.10434 v3 pith:CLF2VEP7 submitted 2020-05-21 cs.CV cs.CYcs.LG

Deep Learning-Based Automated Image Segmentation for Concrete Petrographic Analysis

classification cs.CV cs.CYcs.LG
keywords segmentationconcreteimagecolorcolor-baseddeeptesttreatment
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The standard petrography test method for measuring air voids in concrete (ASTM C457) requires a meticulous and long examination of sample phase composition under a stereomicroscope. The high expertise and specialized equipment discourage this test for routine concrete quality control. Though the task can be alleviated with the aid of color-based image segmentation, additional surface color treatment is required. Recently, deep learning algorithms using convolutional neural networks (CNN) have achieved unprecedented segmentation performance on image testing benchmarks. In this study, we investigated the feasibility of using CNN to conduct concrete segmentation without the use of color treatment. The CNN demonstrated a strong potential to process a wide range of concretes, including those not involved in model training. The experimental results showed that CNN outperforms the color-based segmentation by a considerable margin, and has comparable accuracy to human experts. Furthermore, the segmentation time is reduced to mere seconds.

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