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Utilizing Geographic Information System as a Tool for Pavement Management System

Year 2016, Volume: 4 Issue: 4, - , 16.12.2016

Hana Naghawi Taqwa Alhadidi , O. Al Kilany A. Al Sharief

Abstract

Pavement management systems (PMS) have evidenced to become an essential and valuable tool for highway agencies in quantifying the overall pavement maintenance needs and presenting the alternative maintenance plans under budget limitations.  An essential phase of the development of a PMS is to collect, manage and analyse the pavement condition data, containing various structural and functional distresses, in considerably detailed format.  Recently, the infusion of the new spatial technologies such as Geographic Information System- GIS has enhanced the PMS development and implementation efforts.  The purpose of this paper is to present an analysis of the use of Geographic Information Systems (GIS) as a tool for the PMS, as a first attempt, in Amman-Jordan.

References

  • Robinson, R. (1988). A view of Road Maintenance Economics, Policy and Management in Developing Countries. Research Report 145, Transportation and Road Research Laboratory, Crowthorne, England.
  • Guidelines for Pavement Management Systems, American Association of State Highway and Transportation Officials, (1990), Washington, D.C.
  • Management and Monitoring System: Interim Final Rule, “ Federal Register, Vol. 58, No. 229, Federal Highway Administration 23 CF Parts 500 and 626, Federal Transit Administration 46 CFR Part 614, US Department of Transportation, (1993), Washington, D.C.
  • Medina, A., G.W. Flintsch, and J.P. Zaniewski. Geographic Information Systems – Based Pavement Management Systems – A Case Study. In Transportation Research Record 1652, TRB, National Research Council, Washington, D.C., 1999, pp. 151-157.
  • Golabi, k., Kulkarni, R.B. and Way, G. (1982) “A Statewide Pavement Management System,” Interfaces, 12, pp. 5-21.
  • Shahin MY (2002). Pavement Management for Airports, Roads and Parling Lots. Kluwer Academic Publishers, Massachusetts, U.S.A.
  • Terzi S (2006). “Modeling the Pavement Present Serviceability Index of Flexible Highway Pavements Using Data Mining”, J. Appl. Sci. 6(1): 193-197.
  • Jain Neelam, and P. K. Nanda, 2003 “Geographical Information System for Pavement Management Systems”, Development.net, Map Asia conference, India.
  • Medina, A., Flintsch, G.W. and Zaniewski, J.P. (1999). “ Geographic Information System-Based Pavement Management System.” Transportation Research Record 1652, TRB, Washington, D.C.
  • Application of Geographic Information Systems for Transportation, National Highway Institute (NHI) course 151029, (2003). Federal Highway Administratio, Washington D.C.
  • Antenucci, J.C., K. Brown, P.L., Croswell, M.J. Kevany and H. Archer (1991) “ Geographic Information Systems: A Guide to Technology, Van Nostrand Reinhold, New York.
  • Lewis, S. and J. Sutton, (1993)Demonstration Project No. 85: GIS/Video Imagery Application, Federal Highway Administration, Washington D.C.
  • Miles, S.B. and C.L. Ho , Applications and Issues of GIS as Tool for Civil Engineering Modeling. (1999). Journal of Computing in Civil Engineering, Vol. 13, No. 3, PP144-152.
  • Parida, M., Aggarwal, S., and Jain, S., 2005. Enhancing
  • pavement management systems using GIS. Proceedings of
  • the Institution of Civil Engineers-Transport, 158 (2)
  • L.weber, P.parreny , 2002, Albany International Airport, New York, Uses GIS for Pavement Management
  • Cline GD, Shahin MY, Burkhalter JA (2003). Automated Data Collection for Pavement Condition Index, TRB 2003 Annual Meeting CD-ROM
  • Cafiso SC, Graziano AD, Battiato S (2006). Evaluation of Pavement Surface Distress Using Digital Image Collection and Analysis, Seventh International Congress on Advances in Civil Engineering. Istanbul, Turkey “PDCA12-70 data sheet,” Opto Speed SA, Mezzovico, Switzerland.
  • Micro PAVER Version 5.3 User Manual. U.S. Army Corps of Engineers CERL, 1998.
  • Robinson, R. (1988). A view of Road Maintenance Economics, Policy and Management in Developing Countries. Research Report 145, Transportation and Road Research Laboratory, Crowthorne, England.
  • Guidelines for Pavement Management Systems, American Association of State Highway and Transportation Officials, (1990), Washington, D.C.
  • Management and Monitoring System: Interim Final Rule, “ Federal Register, Vol. 58, No. 229, Federal Highway Administration 23 CF Parts 500 and 626, Federal Transit Administration 46 CFR Part 614, US Department of Transportation, (1993), Washington, D.C.
  • Medina, A., G.W. Flintsch, and J.P. Zaniewski. Geographic Information Systems – Based Pavement Management Systems – A Case Study. In Transportation Research Record 1652, TRB, National Research Council, Washington, D.C., 1999, pp. 151-157.
  • Golabi, k., Kulkarni, R.B. and Way, G. (1982) “A Statewide Pavement Management System,” Interfaces, 12, pp. 5-21.
  • Shahin MY (2002). Pavement Management for Airports, Roads and Parling Lots. Kluwer Academic Publishers, Massachusetts, U.S.A.
  • Terzi S (2006). “Modeling the Pavement Present Serviceability Index of Flexible Highway Pavements Using Data Mining”, J. Appl. Sci. 6(1): 193-197.
  • Jain Neelam, and P. K. Nanda, 2003 “Geographical Information System for Pavement Management Systems”, Development.net, Map Asia conference, India.
  • Medina, A., Flintsch, G.W. and Zaniewski, J.P. (1999). “ Geographic Information System-Based Pavement Management System.” Transportation Research Record 1652, TRB, Washington, D.C.
  • Application of Geographic Information Systems for Transportation, National Highway Institute (NHI) course 151029, (2003). Federal Highway Administratio, Washington D.C.
  • Antenucci, J.C., K. Brown, P.L., Croswell, M.J. Kevany and H. Archer (1991) “ Geographic Information Systems: A Guide to Technology, Van Nostrand Reinhold, New York.
  • Lewis, S. and J. Sutton, (1993)Demonstration Project No. 85: GIS/Video Imagery Application, Federal Highway Administration, Washington D.C.
  • Miles, S.B. and C.L. Ho , Applications and Issues of GIS as Tool for Civil Engineering Modeling. (1999). Journal of Computing in Civil Engineering, Vol. 13, No. 3, PP144-152.
  • Parida, M., Aggarwal, S., and Jain, S., 2005. Enhancing
  • pavement management systems using GIS. Proceedings of
  • the Institution of Civil Engineers-Transport, 158 (2)
  • L.weber, P.parreny , 2002, Albany International Airport, New York, Uses GIS for Pavement Management
  • Cline GD, Shahin MY, Burkhalter JA (2003). Automated Data Collection for Pavement Condition Index, TRB 2003 Annual Meeting CD-ROM
  • Cafiso SC, Graziano AD, Battiato S (2006). Evaluation of Pavement Surface Distress Using Digital Image Collection and Analysis, Seventh International Congress on Advances in Civil Engineering. Istanbul, Turkey “PDCA12-70 data sheet,” Opto Speed SA, Mezzovico, Switzerland.
  • Micro PAVER Version 5.3 User Manual. U.S. Army Corps of Engineers CERL, 1998.

Utilizing Geographic Information System as a Tool for Pavement Management System

Year 2016, Volume: 4 Issue: 4, - , 16.12.2016

Hana Naghawi Taqwa Alhadidi , O. Al Kilany A. Al Sharief

Abstract

Pavement management systems (PMS) have evidenced to become an essential and valuable tool for highway agencies in quantifying the overall pavement maintenance needs and presenting the alternative maintenance plans under budget limitations.  An essential phase of the development of a PMS is to collect, manage and analyse the pavement condition data, containing various structural and functional distresses, in considerably detailed format.  Recently, the infusion of the new spatial technologies such as Geographic Information System- GIS has enhanced the PMS development and implementation efforts.  The purpose of this paper is to present an analysis of the use of Geographic Information Systems (GIS) as a tool for the PMS, as a first attempt, in Amman-Jordan.

References

  • Robinson, R. (1988). A view of Road Maintenance Economics, Policy and Management in Developing Countries. Research Report 145, Transportation and Road Research Laboratory, Crowthorne, England.
  • Guidelines for Pavement Management Systems, American Association of State Highway and Transportation Officials, (1990), Washington, D.C.
  • Management and Monitoring System: Interim Final Rule, “ Federal Register, Vol. 58, No. 229, Federal Highway Administration 23 CF Parts 500 and 626, Federal Transit Administration 46 CFR Part 614, US Department of Transportation, (1993), Washington, D.C.
  • Medina, A., G.W. Flintsch, and J.P. Zaniewski. Geographic Information Systems – Based Pavement Management Systems – A Case Study. In Transportation Research Record 1652, TRB, National Research Council, Washington, D.C., 1999, pp. 151-157.
  • Golabi, k., Kulkarni, R.B. and Way, G. (1982) “A Statewide Pavement Management System,” Interfaces, 12, pp. 5-21.
  • Shahin MY (2002). Pavement Management for Airports, Roads and Parling Lots. Kluwer Academic Publishers, Massachusetts, U.S.A.
  • Terzi S (2006). “Modeling the Pavement Present Serviceability Index of Flexible Highway Pavements Using Data Mining”, J. Appl. Sci. 6(1): 193-197.
  • Jain Neelam, and P. K. Nanda, 2003 “Geographical Information System for Pavement Management Systems”, Development.net, Map Asia conference, India.
  • Medina, A., Flintsch, G.W. and Zaniewski, J.P. (1999). “ Geographic Information System-Based Pavement Management System.” Transportation Research Record 1652, TRB, Washington, D.C.
  • Application of Geographic Information Systems for Transportation, National Highway Institute (NHI) course 151029, (2003). Federal Highway Administratio, Washington D.C.
  • Antenucci, J.C., K. Brown, P.L., Croswell, M.J. Kevany and H. Archer (1991) “ Geographic Information Systems: A Guide to Technology, Van Nostrand Reinhold, New York.
  • Lewis, S. and J. Sutton, (1993)Demonstration Project No. 85: GIS/Video Imagery Application, Federal Highway Administration, Washington D.C.
  • Miles, S.B. and C.L. Ho , Applications and Issues of GIS as Tool for Civil Engineering Modeling. (1999). Journal of Computing in Civil Engineering, Vol. 13, No. 3, PP144-152.
  • Parida, M., Aggarwal, S., and Jain, S., 2005. Enhancing
  • pavement management systems using GIS. Proceedings of
  • the Institution of Civil Engineers-Transport, 158 (2)
  • L.weber, P.parreny , 2002, Albany International Airport, New York, Uses GIS for Pavement Management
  • Cline GD, Shahin MY, Burkhalter JA (2003). Automated Data Collection for Pavement Condition Index, TRB 2003 Annual Meeting CD-ROM
  • Cafiso SC, Graziano AD, Battiato S (2006). Evaluation of Pavement Surface Distress Using Digital Image Collection and Analysis, Seventh International Congress on Advances in Civil Engineering. Istanbul, Turkey “PDCA12-70 data sheet,” Opto Speed SA, Mezzovico, Switzerland.
  • Micro PAVER Version 5.3 User Manual. U.S. Army Corps of Engineers CERL, 1998.
  • Robinson, R. (1988). A view of Road Maintenance Economics, Policy and Management in Developing Countries. Research Report 145, Transportation and Road Research Laboratory, Crowthorne, England.
  • Guidelines for Pavement Management Systems, American Association of State Highway and Transportation Officials, (1990), Washington, D.C.
  • Management and Monitoring System: Interim Final Rule, “ Federal Register, Vol. 58, No. 229, Federal Highway Administration 23 CF Parts 500 and 626, Federal Transit Administration 46 CFR Part 614, US Department of Transportation, (1993), Washington, D.C.
  • Medina, A., G.W. Flintsch, and J.P. Zaniewski. Geographic Information Systems – Based Pavement Management Systems – A Case Study. In Transportation Research Record 1652, TRB, National Research Council, Washington, D.C., 1999, pp. 151-157.
  • Golabi, k., Kulkarni, R.B. and Way, G. (1982) “A Statewide Pavement Management System,” Interfaces, 12, pp. 5-21.
  • Shahin MY (2002). Pavement Management for Airports, Roads and Parling Lots. Kluwer Academic Publishers, Massachusetts, U.S.A.
  • Terzi S (2006). “Modeling the Pavement Present Serviceability Index of Flexible Highway Pavements Using Data Mining”, J. Appl. Sci. 6(1): 193-197.
  • Jain Neelam, and P. K. Nanda, 2003 “Geographical Information System for Pavement Management Systems”, Development.net, Map Asia conference, India.
  • Medina, A., Flintsch, G.W. and Zaniewski, J.P. (1999). “ Geographic Information System-Based Pavement Management System.” Transportation Research Record 1652, TRB, Washington, D.C.
  • Application of Geographic Information Systems for Transportation, National Highway Institute (NHI) course 151029, (2003). Federal Highway Administratio, Washington D.C.
  • Antenucci, J.C., K. Brown, P.L., Croswell, M.J. Kevany and H. Archer (1991) “ Geographic Information Systems: A Guide to Technology, Van Nostrand Reinhold, New York.
  • Lewis, S. and J. Sutton, (1993)Demonstration Project No. 85: GIS/Video Imagery Application, Federal Highway Administration, Washington D.C.
  • Miles, S.B. and C.L. Ho , Applications and Issues of GIS as Tool for Civil Engineering Modeling. (1999). Journal of Computing in Civil Engineering, Vol. 13, No. 3, PP144-152.
  • Parida, M., Aggarwal, S., and Jain, S., 2005. Enhancing
  • pavement management systems using GIS. Proceedings of
  • the Institution of Civil Engineers-Transport, 158 (2)
  • L.weber, P.parreny , 2002, Albany International Airport, New York, Uses GIS for Pavement Management
  • Cline GD, Shahin MY, Burkhalter JA (2003). Automated Data Collection for Pavement Condition Index, TRB 2003 Annual Meeting CD-ROM
  • Cafiso SC, Graziano AD, Battiato S (2006). Evaluation of Pavement Surface Distress Using Digital Image Collection and Analysis, Seventh International Congress on Advances in Civil Engineering. Istanbul, Turkey “PDCA12-70 data sheet,” Opto Speed SA, Mezzovico, Switzerland.
  • Micro PAVER Version 5.3 User Manual. U.S. Army Corps of Engineers CERL, 1998.
There are 40 citations in total.

Details

Journal Section RV
Authors

Hana Naghawi This is me

Taqwa Alhadidi

O. Al Kilany This is me

A. Al Sharief This is me

Publication Date December 16, 2016
Published in Issue Year 2016 Volume: 4 Issue: 4

Cite

APA Naghawi, H., Alhadidi, T., Kilany, O. A., Sharief, A. A. (2016). Utilizing Geographic Information System as a Tool for Pavement Management System. International Journal of Applied Mathematics Electronics and Computers, 4(4).
AMA Naghawi H, Alhadidi T, Kilany OA, Sharief AA. Utilizing Geographic Information System as a Tool for Pavement Management System. International Journal of Applied Mathematics Electronics and Computers. March 2016;4(4).
Chicago Naghawi, Hana, Taqwa Alhadidi, O. Al Kilany, and A. Al Sharief. “Utilizing Geographic Information System As a Tool for Pavement Management System”. International Journal of Applied Mathematics Electronics and Computers 4, no. 4 (March 2016).
EndNote Naghawi H, Alhadidi T, Kilany OA, Sharief AA (March 1, 2016) Utilizing Geographic Information System as a Tool for Pavement Management System. International Journal of Applied Mathematics Electronics and Computers 4 4
IEEE H. Naghawi, T. Alhadidi, O. A. Kilany, and A. A. Sharief, “Utilizing Geographic Information System as a Tool for Pavement Management System”, International Journal of Applied Mathematics Electronics and Computers, vol. 4, no. 4, 2016.
ISNAD Naghawi, Hana et al. “Utilizing Geographic Information System As a Tool for Pavement Management System”. International Journal of Applied Mathematics Electronics and Computers 4/4 (March 2016).
JAMA Naghawi H, Alhadidi T, Kilany OA, Sharief AA. Utilizing Geographic Information System as a Tool for Pavement Management System. International Journal of Applied Mathematics Electronics and Computers. 2016;4.
MLA Naghawi, Hana et al. “Utilizing Geographic Information System As a Tool for Pavement Management System”. International Journal of Applied Mathematics Electronics and Computers, vol. 4, no. 4, 2016.
Vancouver Naghawi H, Alhadidi T, Kilany OA, Sharief AA. Utilizing Geographic Information System as a Tool for Pavement Management System. International Journal of Applied Mathematics Electronics and Computers. 2016;4(4).
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