Quantification of Pavement Rut Depth Using Stereovision Technology
Publication: Journal of Surveying Engineering
Volume 123, Issue 2
Abstract
An attempt to investigate the potential capabilities and accuracy of the PC-based stereovision system in quantification of pavement rut depth was performed. This process was demonstrated using three rutted sections of flexible pavement. Selected highway pavement sections were chosen, using representative criteria that assured randomness in the studied parameters, for semiautomatic rut depth quantification. Surface measurements were represented by two-dimensional and three-dimensional plots, as well as contour maps for the rutted areas. Results obtained by this technique were compared with those obtained by the manual conventional method using a straightedge to check accuracy. Comparison with the manual (conventional) method showed that stereovision using dual charged-coupled device cameras mounted on a stand on a moving vehicle has a consistent potential accuracy of about one pixel (i.e., about 1.5 cm) on average in measuring the rut depth for the three sections. This result was compatible with the human operator's ability to point to the conjugate image points, which has a potential accuracy of about one to two pixels. Advantages of using the stereovision technique to quantify rut depth include remoteness, safety, and real-time potential due to the use of digital images.
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References
1.
Abdel-Aziz, Y. I., and Karara, H. M. (1974). “Photogrammetric potential of nonmetric cameras.”Photogrammetry Series No. 36, Civil Engineering Studies, Univ. of Illinois, Urbana, Ill.
2.
Abdul-Jabbar, G. T. (1995). “Field inspection and laboratory testing of highway pavement rutting in Jordan,” M/Sc thesis, Jordan Univ. of Sci. and Technol. (J.U.S.T.), Irbid, Jordan.
3.
American Association of State Highway Officials. (1962). “Road test, Report 5,”HRB Spec. Rep., 61E, AASHO, Washington, D.C., 67–70.
4.
Benson, K. R., Elkins, G. E., Uddin, W., and Hudson, W. R. (1988). “Comparison of methods and equipment to conduct pavement distress surveys.”Transp. Res. Record 1196, Transp. Res. Board, Washington, D.C., 40–50.
5.
EPIX, Inc. (1993). Silicon video mux: user's manual, Version 6.8, Northbrook, Ill.
6.
Faig, W., Shih, T. Y., and Liu, X. S.(1990). “A non-metric stereo camera system and its calibration.”Proc., 1990 ACSM-ASPRS Ann. Convention, American Society for Photogrammetry and Remote Sensing (ASPRS) and American Congress on Surveying and Mapping (ACSM), Denver, Colo., 5, 18–25.
7.
Fraser, C. S.(1982). “On the use of non-metric cameras in analytical close range photogrammetry.”The Can. Surveyor, 36(3), 259–279.
8.
Fryer, J. G. (1989). “Camera calibration in non-topographic photogrammetry.”Non topographic photogrammetry, 2nd Ed., Am. Soc. for Photogrammetry and Remote Sensing, Falls Church, Va., 59–70.
9.
Goulias, D. G., Castedo, H., and Hudson, W. R. (1990). “Pavement distress survey in SHRP LTPP study.”Transp. Res. Record 1260, Transp. Res. Board, Washington, D.C., 4–13.
10.
Hanson, D. I. (1984). “Asphalt Mix Control in New Mexico.”Proc., FHWA Tri-Regional Pavement Rehabilitation Conf., Federal Highway Administration, U.S. Department of Transportation, Oklahoma City, Okla.
11.
Hintz, R. J., Karakadas, C., and Kang, J. M.(1989). “Analysis of pavement cracking and rutting using close-range photography.”Photogrammetric Engrg. and Remote Sensing (PE&RS), 55(2), 217–221.
12.
Krugler, P., Mounce, J., and Bentenson, W. (1988). “Asphalt pavement rutting in the western states: Two Texas lectures and the WASHTO report.”Spec. Study 26.0, Texas State Dept. of Hgwys. and Public Transp., Austin, Tex.
13.
MacCarley, C. A., Need, D., and Neiman, R. L. (1993). “Video cameras for roadway surveillance, technology review, test methods, and results.”Transp. Res. Record 1410, Transp. Res. Board, Washington, D.C., 80–89.
14.
Morris, J. (1973). “The prediction of permanent deformation in asphalt concrete pavement.”Rep., Transport Group, Dept. of Civ. Engrg., Univ. of Waterloo, Ontario, Canada.
15.
Obaidat, M. T. (1994). “Video metrology for documentation of engineering construction.” PhD dissertation, University of Illinois, Urbana, Ill.
16.
Obaidat, M. T., and Wong, K. W.(1996a). “Automated knowledge-based system for stereo video metrology.”J. Surv. Engrg., ASCE, 122(2), 47–64.
17.
Obaidat, M. T., and Wong, K. W.(1996b). “Geometric calibration of CCD camera using planar object.”J. Surv. Engrg., ASCE, 122(3), 97–113.
18.
Page, G. C. (1984). “Rutting: Causes and prevention.”Proc., FHWA Tri-Regional Pavement Rehabilitation Conf., Federal Highway Administration, U.S. Department of Transportation, Oklahoma City, Okla.
19.
PASCO Corp. (1984). “PASCO road survey system for pavement maintenance and repair planning.”Rep., Road Survey Dept., PASCO Corp., Tokyo, Japan.
20.
Shahin, M. Y., and Walther, J. A. (1990). “Pavement maintenance management for roads and streets using the paver system.”USACERL Tech. Rep. M 90/05, Constr. Engrg. Res. Lab., Champaign, Ill., 179–181.
21.
Wong, K. W. (1980). “Basic mathematics of photogrammetry.”Manual of Photogrammetry, Fourth Am. Soc. of Photogrammetry, Falls Church, Va., 37–102.
22.
Wyoming State Highway Department. (1982). “Rutting investigation.”Rep., Materials Laboratory, Cheyenne, Wyo.
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Copyright © 1997 American Society of Civil Engineers.
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Published online: May 1, 1997
Published in print: May 1997
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