Comparisons of Five Computational Methods for Transverse Profiles

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Volume 36, Issue 5 (September 2008)

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ISSN: 0090-3973
Page Count: 8

Comparisons of Five Computational Methods for Transverse Profiles
Chen, Dar Hao
Professor, School of Highway Engineering, Changsha University of Science and Technology, Hunan

Li, Zheng
Pavement Engineer, Texas Department of Transportation, TX

Abstract

Pavement funding allocation and rehabilitation/maintenance decisions are often based on the degree of rutting. Thus it is critical to have accurate rut measurement. In this study, five different sensor setups and computation algorithms were investigated which include: (1) 5-sensor stringline, (2) 3-sensor average, (3) 5-sensor maximum, (4) 7-sensor stringline, and (5) 7-sensor maximum. The 94 transverse profiles utilized in this study included six profiles from the standard 3.7-m wide pavement (with a well-defined rut basin) and 88 profiles from narrow pavements with a possible edge drop off. It was found that the 5-sensor maximum method yielded the best accuracy for both standard 3.7-m wide and narrow pavements. It is surprising to find that the 3-sensor average yielded better results than the 5-sensor stringline method. Also, regardless of the number of sensors (either 5 or 7) or pavement width (standard or narrow), the stringline method always underestimated the rutting. Based on the available data and analyses performed, it is concluded that, without altering the existing sensor configuration, the accuracy would improve significantly by changing the computation algorithm from 5-sensor stringline to 5-sensor maximum.

Keywords:
rut, transverse profile, profiler, stringline, edge drop off

Paper ID: JTE101665
DOI: 10.1520/JTE101665
ASTM International is a member of CrossRef.

Author Title Comparisons of Five Computational Methods for Transverse Profiles Symposium , 0000-00-00 Committee E17

		Home Journals STPs Manuals Topics Subscriptions/Pricing Digital Library / Journals / Journal of Testing and Evaluation (JTE) / Citation Page Volume 36, Issue 5 (September 2008) Click here to download this paper now for $25 PDF (456K) View License Agreement ISSN: 0090-3973 Page Count: 8 Comparisons of Five Computational Methods for Transverse Profiles Chen, Dar Hao Professor, School of Highway Engineering, Changsha University of Science and Technology, Hunan Li, Zheng Pavement Engineer, Texas Department of Transportation, TX Abstract Pavement funding allocation and rehabilitation/maintenance decisions are often based on the degree of rutting. Thus it is critical to have accurate rut measurement. In this study, five different sensor setups and computation algorithms were investigated which include: (1) 5-sensor stringline, (2) 3-sensor average, (3) 5-sensor maximum, (4) 7-sensor stringline, and (5) 7-sensor maximum. The 94 transverse profiles utilized in this study included six profiles from the standard 3.7-m wide pavement (with a well-defined rut basin) and 88 profiles from narrow pavements with a possible edge drop off. It was found that the 5-sensor maximum method yielded the best accuracy for both standard 3.7-m wide and narrow pavements. It is surprising to find that the 3-sensor average yielded better results than the 5-sensor stringline method. Also, regardless of the number of sensors (either 5 or 7) or pavement width (standard or narrow), the stringline method always underestimated the rutting. Based on the available data and analyses performed, it is concluded that, without altering the existing sensor configuration, the accuracy would improve significantly by changing the computation algorithm from 5-sensor stringline to 5-sensor maximum. Keywords: rut, transverse profile, profiler, stringline, edge drop off Paper ID: JTE101665 DOI: 10.1520/JTE101665 ASTM International is a member of CrossRef. Author Title Comparisons of Five Computational Methods for Transverse Profiles Symposium , 0000-00-00 Committee E17