An Automatic Pavement Surface Distress Inspection System

Volume 2, Issue 10 (November 2005)

Click here to download this paper now for $25 PDF (844K)

View License Agreement

ISSN: 1546-962X
CODEN: JAIOAD
Published Online: 13 July 2005
Page Count: 11

An Automatic Pavement Surface Distress Inspection System

Huang, Y
Center for Transportation Research, University of Texas at Austin, Austin, Texas

Xu, B
Center for Transportation Research, University of Texas at Austin, Austin, Texas

(Received 19 October 2004; accepted 22 April 2005)

Abstract

This paper presents a customized image-processing algorithm for the high-speed and real-time detection of pavement surface distresses. The algorithm was developed based on the “grid cell” analysis, in which a pavement image is divided into a grid of 8 × 8 pixel cells, and each cell is classified as a non-crack cell or a crack cell based on the statistics of the grayscales of the cell pixels. A crack cell can be regarded as a seed for crack formation. Adjacent crack seeds or seed clusters are connected to a crack segment. Each segment has it own direction and contrast traced from all seed in the path. A full crack is a connection of nearby segments with similar directions and contrasts. Most importantly, there must be a clear crack path along these segments. Because many operations are performed on the grid cells rather than on the original image, the algorithm can detect the cracks in the current image during the time when the camera is capturing a new image. Therefore, the survey can run at real time at a highway speed. The trial test results showed a good repeatability and accuracy when the system conducts multiple surveys and runs at different speeds and different weather conditions.

Keywords:
asphalt pavement, cracking distress, seed cluster, crack detection

Paper ID: JAI13048
DOI: 10.1520/JAI13048
ASTM International is a member of CrossRef.

Author Title An Automatic Pavement Surface Distress Inspection System Symposium Pavement Surface Condition/Performance Assessment: Reliability and Relevancy of Procedures and Tech, 2004-12-07 Committee E17

		SEDL / Journals / Journal of ASTM International (JAI) / Citation Page Volume 2, Issue 10 (November 2005) Click here to download this paper now for $25 PDF (844K) View License Agreement ISSN: 1546-962X CODEN: JAIOAD Published Online: 13 July 2005 Page Count: 11 An Automatic Pavement Surface Distress Inspection System Huang, Y Center for Transportation Research, University of Texas at Austin, Austin, Texas Xu, B Center for Transportation Research, University of Texas at Austin, Austin, Texas (Received 19 October 2004; accepted 22 April 2005) Abstract This paper presents a customized image-processing algorithm for the high-speed and real-time detection of pavement surface distresses. The algorithm was developed based on the “grid cell” analysis, in which a pavement image is divided into a grid of 8 × 8 pixel cells, and each cell is classified as a non-crack cell or a crack cell based on the statistics of the grayscales of the cell pixels. A crack cell can be regarded as a seed for crack formation. Adjacent crack seeds or seed clusters are connected to a crack segment. Each segment has it own direction and contrast traced from all seed in the path. A full crack is a connection of nearby segments with similar directions and contrasts. Most importantly, there must be a clear crack path along these segments. Because many operations are performed on the grid cells rather than on the original image, the algorithm can detect the cracks in the current image during the time when the camera is capturing a new image. Therefore, the survey can run at real time at a highway speed. The trial test results showed a good repeatability and accuracy when the system conducts multiple surveys and runs at different speeds and different weather conditions. Keywords: asphalt pavement, cracking distress, seed cluster, crack detection Paper ID: JAI13048 DOI: 10.1520/JAI13048 ASTM International is a member of CrossRef. Author Title An Automatic Pavement Surface Distress Inspection System Symposium Pavement Surface Condition/Performance Assessment: Reliability and Relevancy of Procedures and Tech, 2004-12-07 Committee E17