Abstract
Delineation of pavement cracks is essential for the damage assessment and maintenance of pavements. Existing methods are not sufficiently robust to interferences including varied illumination, non-uniform intensity, and complex texture noise. An integrated system for the automatic extraction of pavement cracks based on progressive curvilinear structure filtering and optimized segmentation techniques is proposed in this paper. Considering phase congruency and path morphological transformation, a phase congruency guided multi-scale path anisotropy filtering (PCmPA) method is first developed to generate a crack saliency map, significantly enhancing crack structures and eliminating isotropic texture noise. Phase congruency guided multi-scale free-form anisotropic filter (PCmFFA) is then presented as an extended curvilinear structure filter considering context information to enhance PCmPA. Finally, to accurately identify crack pixels and background, the two independent global filtering responses are incorporated with the phase congruency map and integrated into the graph-cuts based global optimization model with an adaptive regularization parameter. Experiments are conducted on two public pavement datasets and a self-captured laser-scanned pavement dataset, with results demonstrating that the proposed method can achieve superior performance compared to six existing algorithms.
Highlights
The demand for reliable automated pavement crack detection techniques has risen significantly with increasing use of intelligent pavement distress inspection
The algorithm is implemented in MATLAB on an Intel Core i5 processor clocked at 2.50 GHz with 8G RAM, and demos of the phase congruency guided multi-scale path anisotropy filtering (PCmPA) and Phase congruency guided multi-scale free-form anisotropic filter (PCmFFA) algorithm are made available at GitHub repository: https://github.com/DrEdwardLee/ PCmPA-PCmFFA
An integrated system for the automatic delineation of pavement cracks was presented in this paper, in which crack pixels are extracted by solving an optimized segmentation framework merged crack geometric prior information
Summary
The demand for reliable automated pavement crack detection techniques has risen significantly with increasing use of intelligent pavement distress inspection. Detection of them early can provide a reliable decision-making basis for efficient management and maintenance of structured road networks, which is of great significance in reducing the economic burden induced by subsequent deterioration and eliminating safety hazards. Intelligent pavement crack detection techniques are drawing increasing attention because of its essential for the health monitoring and. Assessment of civil infrastructures [1]–[4]. These techniques incorporate concepts from other curvilinear object detection tasks including vessel segmentation [5], cartographic extraction [6], road network extraction [7], and guide-wire tracking [8]. Despite a large field of application and decades of extensive research, the gap between current state-of-the-art methods and performance goals remains large
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