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Page 48
Suggested Citation:"References." National Academies of Sciences, Engineering, and Medicine. 2020. Electronic Ticketing of Materials for Construction Management. Washington, DC: The National Academies Press. doi: 10.17226/25839.
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Suggested Citation:"References." National Academies of Sciences, Engineering, and Medicine. 2020. Electronic Ticketing of Materials for Construction Management. Washington, DC: The National Academies Press. doi: 10.17226/25839.
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Page 49
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Suggested Citation:"References." National Academies of Sciences, Engineering, and Medicine. 2020. Electronic Ticketing of Materials for Construction Management. Washington, DC: The National Academies Press. doi: 10.17226/25839.
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Page 50

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48 Arango, C., and Morales, C. A. 2015. Comparison between multicopter UAV and total station for estimating stockpile volumes. The International Archives of Photogrammetry, Remote Sensing and Spatial Information Sciences, 40(1), 131. Christie, G. A., Kochersberger, K. B., Abbott, A. L., and Westman, E. C. 2015. Image-based 3D reconstructions for stockpile volume measurement. Mining Engineering, 67(1). De Melo, R. R. S., Costa, D. B., Álvares, J. S., and Irizarry, J. 2017. Applicability of unmanned aerial system (UAS) for safety inspection on construction sites. Safety Science, 98, 174–185. Department of Transportation: Federal Motor Carrier Safety Administration—Electronic Documents and Signatures. 2018. Federal Register, Vol. 83, No. 73, Mon., April 16, 2018. https://www.govinfo.gov/content/ pkg/FR-2018-04-16/pdf/2018-07749.pdf Domdouzis, K., Kumar, B., and Anumba, C. 2007. Radio-Frequency Identification (RFID) applications: A brief introduction. Advanced Engineering Informatics, 21(4), 350–355. Duque, L., Seo, J., and Wacker, J. 2018. Synthesis of unmanned aerial vehicle applications for infrastructures. Journal of Performance of Constructed Facilities, 32(4), 04018046. El-Omari, S., and Moselhi, O. 2011. Integrating automated data acquisition technologies for progress reporting of construction projects. Automation in Construction, 20(6), 699–705. Federal Highway Administration. 2015. EDC-3 Summit Summary and Baseline Report (Report No. FHWA-15- CAI-005). Washington, D.C.: U.S. Department of Transportation. Federal Highway Administration. 2017a. e-Construction and Partnering: A Vision for the Future. Washington, D.C.: U.S. Department of Transportation. https://www.fhwa.dot.gov/innovation/everydaycounts/edc_4/ epartnering.cfm. Federal Highway Administration. 2017b. EDC-4 Summit Summary and Baseline Report (Report No. FHWA-17- CAI-006). Washington, D.C.: U.S. Department of Transportation. Federal Highway Administration. 2018a. Automation in Highway Construction: Final Report—Volume I, Implementation Challenges at State Departments of Transportation and Success Stories (Report No. FHWA- HRT-16-030). Washington, D.C.: U.S. Department of Transportation. Federal Highway Administration. 2018b. e-Construction and Partnering: A Vision for the Future—Peer-to- Peer Exchange: Indiana, Oregon, Pennsylvania, Utah, and Wisconsin Departments of Transportation (Report No. FHWA-HIF-19-004). Washington, D.C.: U.S. Department of Transportation. Federal Highway Administration. 2018c. On-Ramp to Innovation: Every Day Counts. Washington, D.C.: U.S. Department of Transportation. Federal Highway Administration. 2019a. e-Construction and Partnering: A Vision for the Future—Peer-to-Peer Exchange: Alabama, Minnesota, Missouri, Nebraska, Oregon, and Utah Departments of Transportation (Report No. FHWA-HIF-19-022). Washington, D.C.: U.S. Department of Transportation. Federal Highway Administration. 2019b. e-Construction and Partnering: A Vision for the Future—Peer-to-Peer Exchange: Virginia and Pennsylvania Departments of Transportation (Report No. FHWA-HIF-19-023). Washington, D.C.: U.S. Department of Transportation. Gavin, J., Lo, A., and Humphries, A. 2004. An automated system for tracking the haul of construction materials. Annual Conference of the Transportation Association of Canada. Quebec City, Quebec, September 19–22, 2004. Greenwood, W. W., Lynch, J. P., and Zekkos, D. 2019. Applications of UAVs in civil infrastructure. Journal of Infrastructure Systems, 25(2), 04019002. Huang, R. Y., and Tsai, T. Y. 2011. Development of an RFID system for tracking construction residual soil in Taiwan. In Proceedings of the 28th International Symposium on Automation and Robotics in Construction (ISARC 2011), Seoul, Korea (Vol. 29). References

References 49 Huang, R. Y., Tsai, T. Y., and Wang, H. H. 2019. Developing an RFID-based tracking system to improve the control of construction surplus soil disposal in Taiwan. Journal of the Chinese Institute of Engineers, 42(2), 175–188. Hubbard, B., Wang, H., Leasure, M., Ropp, T., Lofton, T., Hubbard, S., and Lin, S. 2015. Feasibility study of UAV use for RFID material tracking on construction sites. In Proc., ASCE Annual International Confer- ence (pp. 669–676). Iowa Department of Transportation. 2016. “Iowa DOT: Tablets, E-ticketing improve construction accountability for concrete loads.” https://www.equipmentworld.com/iowa-dot-tablets-e-ticketing-improve-construction- accountability-for-concrete-loads/. Accessed May 18, 2019. Jaselskis, E. J., Anderson, M. R., Jahren, C. T., Rodriguez, Y., and Njos, S. 1995. Radio-frequency identifica- tion applications in construction industry. Journal of Construction Engineering and Management, 121(2), 189–196. Jaselskis, E. J., and El-Misalami, T. 2003. Implementing radio frequency identification in the construction process. Journal of Construction Engineering and Management, 129(6), 680–688. Kasim, N. 2015. Intelligent materials tracking system for construction projects management. Journal of Engi- neering and Technological Sciences, 47(2), 218–230. Kasim, N., Latiffi, A. A., and Fathi, M. S. 2013. RFID technology for materials management in construction projects—A review. International Journal of Construction Engineering and Management, 2, 7–12. Khaloo, A., Lattanzi, D., Cunningham, K., Dell’Andrea, R., and Riley, M. 2018. Unmanned aerial vehicle inspection of the Placer River Trail Bridge through image-based 3D modelling. Structure and Infrastruc- ture Engineering, 14(1), 124–136. Landers, J. 2015. Accelerating innovation. Civil Engineering, 85(9), 66–71. Lee, H. W., Harapanahalli, B. A., Nnaji, C., Kim, J., and Gambatese, J. 2018. Feasibility of using QR Codes in highway construction document management. Transportation Research Record, 2672(26), 114–123. Lee, J. H., and McCullouch, B. 2008. Automating Material Delivery Records (Report No. FHWA/IN/ JTRP-2007/26). West Lafayette, Ind.: Purdue University. Lee, J. H., Song, J. H., Oh, K. S., and Gu, N. 2013. Information lifecycle management with RFID for material control on construction sites. Advanced Engineering Informatics, 27(1), 108–119. Lu, W., Huang, G. Q., and Li, H. 2011. Scenarios for applying RFID technology in construction project manage- ment. Automation in Construction, 20(2), 101–106. Moselhi, O., and El-Omari, S. 2006. Integrating bar coding and RFID to automate data collection from construction sites. In Joint International Conference on Computing and Decision Making in Civil and Building Engineering (pp. 1734–1741). Nasir, H., Haas, C. T., Young, D. A., Razavi, S. N., Caldas, C., and Goodrum, P. 2010. An implementation model for automated construction materials tracking and locating. Canadian Journal of Civil Engineering, 37(4), 588–599. National Coordination Office for Space-Based Positioning, Navigation, and Timing. n.d. The Global Positioning System. Retrieved from https://www.gps.gov/systems/gps/. Accessed May 17, 2019. Navon, R., and Shpatnitsky, Y. 2005. A model for automated monitoring of road construction. Construction Management and Economics, 23(9), 941–951. Newcomer, C., Withrow, J., Sturgill, R. E., and Dadi, G. B. 2019. Towards an automated asphalt paving construc- tion inspection operation. In Advances in Informatics and Computing in Civil and Construction Engineering (pp. 593–600). Springer, Cham. Nikolow, P. 2012. 1D, 2D, and 3D Barcodes. http://www.mobiliodevelopment.com/1d-2d-3d-barcodes/. Accessed May 17, 2019. Nipa, T. J., Rouhanizadeh, B., and Kermanshachi, S. 2019. Utilization and Implementation of the E-ticketing Technology to Electronically Track the Delivery of Construction Materials. Canadian Society of Civil Engineering Annual Conference. Montreal, June 12–15, 2019. Peyret, F., and Tasky, R. 2003. Asphalt quality parameters traceability using electronic tags and GPS. Nist Special Publication Sp, 155–160. Razavi, S. N., and Haas, C. T. 2011. Using reference RFID tags for calibrating the estimated locations of con- struction materials. Automation in Construction, 20(6), 677–685. Sardroud, J. M. 2012. Influence of RFID technology on automated management of construction materials and components. Scientia Iranica, 19(3), 381–392. Shehab, T. 2009. Automated measurement of earthwork volume in construction projects. Construction Inno- vation, 9(3), 341–358. Shehab, T., Moselhi, O., and Nasr, E. 2009. Barcode-assisted system for document management of construction projects. International Journal of Construction Education and Research, 5(1), 45–60. Shepard, L. 2017. E-ticketing in Iowa. Retrieved from https://www.fhwa.dot.gov/construction/econstruction/ peer_exchange/edc3peer.cfm. Accessed May 18, 2019.

50 Electronic Ticketing of Materials for Construction Management Song, J., Haas, C. T., and Caldas, C. H. 2006. Tracking the location of materials on construction job sites. Journal of Construction Engineering and Management, 132(9), 911–918. Taneja, S., Akinci, B., Garrett, J. H., Soibelman, L., Ergen, E., Pradhan, A., Tang, P, Berges, M., Atasoy, G., Liu, X., Shahandashti, S. M., and Anil, E. B. 2010. Sensing and field data capture for construction and facility opera- tions. Journal of Construction Engineering and Management, 137(10), 870–881. Taylor, T., and Maloney, W. 2013. NCHRP Synthesis 450: Forecasting Highway Construction Staffing Require- ments. Transportation Research Board, Washington, D.C. Valero, E., Adán, A., and Cerrada, C. 2015. Evolution of RFID applications in construction: A literature review. Sensors, 15(7), 15988–16008. Zhou, S., and Gheisari, M. 2018. Unmanned aerial system applications in construction: A systematic review. Construction Innovation, 18(4), 453–468. Zhou, Z., Irizarry, J., and Lu, Y. 2018. A multidimensional framework for unmanned aerial system applications in construction project management. Journal of Management in Engineering, 34(3), 04018004.

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Electronic Ticketing of Materials for Construction Management Get This Book
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Collecting paper load delivery tickets at highway construction projects is an outdated practice that exposes construction inspectors to many safety hazards. State transportation agencies (STAs) have looked for decades toward automating this process through electronic ticketing, or e-ticketing.

The TRB National Cooperative Highway Research Program's NCHRP Synthesis 545: Electronic Ticketing of Materials for Construction Management examines the current state of practice of e-ticketing among STAs.

Further, a survey was taken as part of the synthesis and found that 10 states have completed projects with e-ticketing and additional ones are piloting the technology.

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