Pavement Crack Width Measurement Based on Laplace's Equation for Continuity and Unambiguity

Crack is one of the most important pavement condition indicators that are immediately relevant to water ingress and pavement deterioration. In practices of pavement management, crack width has been extensively referenced by highway agencies to determine pavement crack severity. Accurate measurement...

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Bibliographic Details
Published in:Computer-aided civil and infrastructure engineering 2018-02, Vol.33 (2), p.110-123
Main Authors: Wang, Wenjuan, Zhang, Allen, Wang, Kelvin C. P., Braham, Andrew F., Qiu, Shi
Format: Article
Language:English
Subjects:
Algorithms
Automation
Case studies
Crack propagation
Laplace equation
Pavement deterioration
Pavement management
Pavements
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Summary:Crack is one of the most important pavement condition indicators that are immediately relevant to water ingress and pavement deterioration. In practices of pavement management, crack width has been extensively referenced by highway agencies to determine pavement crack severity. Accurate measurement of pavement crack width is meaningful for highway agencies in understanding the mechanism of crack formation, and in predicting crack propagation. This article presents a new automatic method for measuring crack width using the binary crack map images. The proposed method introduces a new crack width definition and formulates it using the Laplace's Equation so that crack width can be continuously and unambiguously measured. Two algorithms, including the crack blob extraction algorithm and the crack boundary extraction algorithm, are developed to implement the proposed formulation in an automated fashion. Experimental tests using both synthetic data and field data are conducted to demonstrate the accuracy and reliability of the proposed method. A case study on crack width propagation is also performed to demonstrate the practical capacity of the proposed method. The results of the experimental tests and the outcome of the case study have demonstrated that the proposed method, together with the existing crack map extraction algorithms, provides a promising means for consistent and unambiguous crack width measurement supporting automated pavement condition evaluation.
ISSN:1093-9687
1467-8667
DOI:10.1111/mice.12319