The geometrical parameters of a cracked concrete surface are estimated using an optical microscope and an 8-bit RGB image generated with a high resolution camera based on close distance photography. The image's pixel intensity distribution can be used to determine factors such as fracture breadth, depth, and shape. To estimate the crack's geometrical dimensions, the image is converted to 16-bit grey scale, and then a mathematical relationship connecting the intensity distribution to the depth and width is derived using the enhanced image. For the crack samples utilised in the research, this connection allows for a 10% and 15% accuracy in estimating the width and depth, respectively. For mathematical processing of picture data and statistical computations of geometric parameters of concrete cracks, OriginLab tools were employed.
If the 8-bit RGB image is synthesised from photos of fractures collected with different light directions, the accuracy should be increased even more.Author (s) Details
Yuriy Vashpanov
Department of Physics, Odessa State Academy of Civil Engineering and Architecture, Odessa, 65029, Ukraine and Public Safety Research Institute, Konyang University, Nonsan, Chungnam, 32992, Republic of Korea.
Jung-Young Son
Public Safety Research Institute, Konyang University, Nonsan, Chungnam, 32992, Republic of Korea.
Gwanghee Heo
Public Safety Research Institute, Konyang University, Nonsan, Chungnam, 32992, Republic of Korea.
Tatyana Podousova
Applied Mathematics Department, Odessa State Academy of Civil Engineering and Architecture, Odessa, 65029, Ukraine.
Yong Suk Kim
Public Safety Research Institute, Konyang University, Nonsan, Chungnam, 32992, Republic of Korea.
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