Automating Inspection of Highway Pavement Surfaces
Publication: Journal of Transportation Engineering
Volume 119, Issue 1
Abstract
Reliable, complete, and up‐to‐date information concerning the state of pavement surface is necessary for any cost‐effective highway pavement management program. An automatic imaging system based on state‐of‐the‐art video imaging technology using the shadow moire method for the quantitative inspection of highway pavement surface has been developed which includes image‐analysis software for performing image enhancement and the analysis of the moire fringe patterns. The pavement surface reconstruction algorithm presented herein uses two moire interferograms of any point on the surface to obtain overlapping information for surface‐elevation determination. The prototype system possesses a high degree of automation and gives enhanced pictures and accurate results. Also, such surface geometry information as profile, rut depth, and washboard depth may be obtained efficiently and effectively.
Get full access to this article
View all available purchase options and get full access to this article.
References
1.
Bourbakis, N. G. (1989). “A parallel‐symmetric thinning algorithm.” Pattern Recognit., 22(4), 387–396.
2.
Chiang, C. (1975). “Moire topography.” Applied Optics, Vol. 14, No. 1, 177–179.
3.
Cline, H. E., Lorensen, W. E., and Holik, A. S. (1984). “Automatic moire contouring.” Appl. Optics, 23(10), 1454–1459.
4.
Hilditch, C. J. (1969). “Linear skeletons from square cupboards.” Machine Intelligence IV, B. Meltzer and D. Michie, eds., Edinburgh Univ. Press, Edinburgh, Scotland, 403–420.
5.
Idesawa, M., Yatagai, T., and Soma, T. (1977). “Scanning moire method and automatic measurement of 3‐D shapes.” Appl. Optics, 16(8), 2152–2162.
6.
Jaerisch, W., and Makosch, G. (1973). “Optical contour mapping of surfaces.” Appl. Optics, 12(7), 1552–1557.
7.
Livnat, A., Kafri, O., and Erez, G. (1980). “Hills and valleys analysis in optical mapping and its application to moire contouring.” Appl. Optics, 19(19), 3396–3400.
8.
Meadows, D. M., Johnson, W. O., and Allen, J. B. (1970). “Generation of surface contours by moire patterns.” Appl. Optics, 9(4), 942–947.
9.
Naccache, N. J., and Shinghal, R. (1984). “SPTA: A proposed algorithm for thinning binary patterns.” IEEE Trans. Syst. Man, Cybern., SMC‐14, (3), 409–418.
10.
“Our nation's highway: Selected facts and figures.” (1987). No. 7558‐106, Federal Highway Administration, Washington, D.C.
11.
Pavlidis, T. (1980). “A thinning algorithm for discrete binary images.” Comput. Graphics Image Processing, 13, 142–157.
12.
Pflug, L., and Oesch, S. (1986). “Moire applied to real time inspection of highways.” J. Transp. Engr., ASCE, 112(2), 163–171.
13.
Pirodda, L. (1982). “Shadow and project moire techniques for absolute or relative mapping of surface shapes.” Opt. Engrg., 21(4), 640–649.
14.
Proc. for the Automated Pavement Distress Data Collection Equipment Seminar. (1990). Iowa State University, Ames, Iowa, 359–384.
15.
Stefanelli, R., and Rosenfeld, A. (1971). “Some parallel thinning algorithms for digital pictures.” J. Assoc. Comput. Mach., 18(2), 255–264.
16.
Zhang, T. Y., and Suen, C. Y. (1984). “A fast parallel algorithm for thinning digital patterns.” Commun. ACM, 27(3), 236–239.
Information & Authors
Information
Published In
Copyright
Copyright © 1993 American Society of Civil Engineers.
History
Received: Aug 9, 1991
Published online: Jan 1, 1993
Published in print: Jan 1993
Authors
Metrics & Citations
Metrics
Citations
Download citation
If you have the appropriate software installed, you can download article citation data to the citation manager of your choice. Simply select your manager software from the list below and click Download.