Defect Segmentation in Concrete Structures Combining Registered Infrared and Visible Images: A Comparative Experimental Study

Pozzer, Sandra; Souza, Marcos Paulo Vieira de; Hena, Bata; Rezayiye, Reza Khoshkbary; Hesam, Setayesh; López, Fernando; Maldague, Xavier

doi:10.3390/engproc2021008029

The 16th International Workshop on Advanced Infrared Technology &Amp;amp; Applications 2021

DOI: 10.3390/engproc2021008029

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Defect Segmentation in Concrete Structures Combining Registered Infrared and Visible Images: A Comparative Experimental Study

Sandra Pozzer

Marcos Paulo Vieira de Souza

Bata Hena

et al.

Abstract: This study investigates the semantic segmentation of common concrete defects when using different imaging modalities. One pre-trained Convolutional Neural Network (CNN) model was trained via transfer learning and tested to detect concrete defect indications, such as cracks, spalling, and internal voids. The model’s performance was compared using datasets of visible, thermal, and fused images. The data were collected from four different concrete structures and built using four infrared cameras that have differe… Show more

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2024

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Computer Vision Method for Automatic Detection of Microstructure Defects of Concrete

Beskopylny,

Stel’makh,

Shcherban’

et al. 2024

Sensors

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The search for structural and microstructural defects using simple human vision is associated with significant errors in determining voids, large pores, and violations of the integrity and compactness of particle packing in the micro- and macrostructure of concrete. Computer vision methods, in particular convolutional neural networks, have proven to be reliable tools for the automatic detection of defects during visual inspection of building structures. The study’s objective is to create and compare computer vision algorithms that use convolutional neural networks to identify and analyze damaged sections in concrete samples from different structures. Networks of the following architectures were selected for operation: U-Net, LinkNet, and PSPNet. The analyzed images are photos of concrete samples obtained by laboratory tests to assess the quality in terms of the defection of the integrity and compactness of the structure. During the implementation process, changes in quality metrics such as macro-averaged precision, recall, and F1-score, as well as IoU (Jaccard coefficient) and accuracy, were monitored. The best metrics were demonstrated by the U-Net model, supplemented by the cellular automaton algorithm: precision = 0.91, recall = 0.90, F1 = 0.91, IoU = 0.84, and accuracy = 0.90. The developed segmentation algorithms are universal and show a high quality in highlighting areas of interest under any shooting conditions and different volumes of defective zones, regardless of their localization. The automatization of the process of calculating the damage area and a recommendation in the “critical/uncritical” format can be used to assess the condition of concrete of various types of structures, adjust the formulation, and change the technological parameters of production.

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Computer Vision Method for Automatic Detection of Microstructure Defects of Concrete

Beskopylny,

Stel’makh,

Shcherban’

et al. 2024

Sensors

View full text Add to dashboard Cite

show abstract

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Defect Segmentation in Concrete Structures Combining Registered Infrared and Visible Images: A Comparative Experimental Study

Cited by 1 publication

References 9 publications

Computer Vision Method for Automatic Detection of Microstructure Defects of Concrete

Computer Vision Method for Automatic Detection of Microstructure Defects of Concrete

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