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Page 104
Suggested Citation:"References." National Academies of Sciences, Engineering, and Medicine. 2022. Highway Infrastructure Inspection Practices for the Digital Age. Washington, DC: The National Academies Press. doi: 10.17226/26592.
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Page 105
Suggested Citation:"References." National Academies of Sciences, Engineering, and Medicine. 2022. Highway Infrastructure Inspection Practices for the Digital Age. Washington, DC: The National Academies Press. doi: 10.17226/26592.
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Page 105
Page 106
Suggested Citation:"References." National Academies of Sciences, Engineering, and Medicine. 2022. Highway Infrastructure Inspection Practices for the Digital Age. Washington, DC: The National Academies Press. doi: 10.17226/26592.
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Page 106
Page 107
Suggested Citation:"References." National Academies of Sciences, Engineering, and Medicine. 2022. Highway Infrastructure Inspection Practices for the Digital Age. Washington, DC: The National Academies Press. doi: 10.17226/26592.
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104 Austin, R. (2010). Unmanned Aircraft Systems: UAVS Design, Development, and Deployment. American Institute of Aeronautics and Astronautics, Reston, VA. Azari, H. (2020). FHWA Nondestructive Evaluation Program Strategic Plan for FY 2019–2020. Report FHWA- HRT-20-045. FHWA, U.S. Department of Transportation. Azuma, R., Y. Baillot, R. Behringer, S. Feiner, S. Julier, and B. MacIntyre. (2001). Recent Advances in Augmented Reality. Journal of Computer Graphics and Applications, Vol. 21, No. 6, pp. 34–47. Banks, E., S. J. Cook, G. Fredrick, S. Gill, J. S. Gray, T. Larue, J. L. Milton, A. Tootle, P. Wheeler, P. R. Snyder, and Z. Waller. (2018). Successful Approaches for the Use of Unmanned Aerial System by Surface Transpor- tation Agencies. NCHRP Project 20-68A, Scan 17-01. National Cooperative Highway Research Program, Washington, D.C. Banks, L., and M. Sarmiento. (2006). Geospatial Technologies Improve Transportation Decisionmaking, Vol. 69, No. 5. FHWA-HRT-06-003. FHWA, U.S. Department of Transportation. https://www.fhwa.dot.gov/ publications/publicroads/06mar/05.cfm. Barfuss, S. L., A. Jensen, and S. Clemens. (2012). Evaluation and Development of Unmanned Aircraft (UAV) for UDOT Needs. No. UT-12.08. Utah Department of Transportation. Brooks, C., T. Oommen, R. J. Dobson, D. Dean, D. Banach, T. Havens, T. Ahlborn, S. Cook, and A. Clover. (2014). Evaluating the Use of Unmanned Aerial Vehicles for Transportation Purposes. No. RC-1616. Michigan Department of Transportation, Detroit, MI. Butler, J. A., R. Scopatz, S. Anderson, and J. Hausman. (2019). Applications of Enterprise GIS for Transportation: Guidance for a National Transportation Framework (AEGIST Guidebook). FHWA-HEP-20-014. FHWA, U.S. Department of Transportation. Campbell, D. (2017). 6 Ways Virtual Reality Construction Technology Can Save You Money Now. Connect & Construct, Autodesk BIM 360, June 2017. https://bim360resources.autodesk.com/connect-construct/ 6-ways-virtual-reality-construction-technology-can-save-you-money-now. Accessed June 22, 2021. Castro-Martínez, R. E., S. Jang, J. Kim, and A. Wentworth. (2019). Experimental Evaluation of a Low-Cost RFID- Based Sensor to Crack Propagation. Journal of Aerospace Engineering, Vol. 32, No. 2, 04019003. Chang, G., Q. Xu, J. Rutledge, B. Horan, L. Michael, D. White, and P. Vennapusa. (2011). Accelerated Implemen- tation of Intelligent Compaction Technology for Embankment Subgrade Soils, Aggregate Base, and Asphalt Pavement Materials. FHWA-IF-12-002. FHWA, U.S. Department of Transportation. Dadi, G. B., R. Sturgill, and X. Wang. (2016). NCHRP Synthesis 491: Uses of Mobile Information Technology Devices in the Field for Design, Construction, and Asset Management. Transportation Research Board, Washington, D.C. Dadi, G. B., R. Sturgill, D. Patel, C. Van Dyke, and G. Mulder. (2020). NCHRP Synthesis 545: Electronic Ticketing of Materials for Construction Management. Transportation Research Board, Washington, D.C. Dai, F., and M. Lu. (2010). Assessing the Accuracy of Applying Photogrammetry to Take Geometric Measurements on Building Products. Journal of Construction Engineering and Management, pp. 242–250. Dai, F., and M. Lu. (2012). Three-Dimensional Modeling of Site Elements by Analytically Processing Image Data Contained in Site Photos. Journal of Construction Engineering and Management, Vol. 139, No. 7, pp. 881–894. Dye Management. (2014). Monitoring Highway Assets with Remote Technology. Final Report. Michigan Department of Transportation, Lansing, MI. El-Omari, S., and O. Moselhi. (2008). Integrating 3D Laser Scanning and Photogrammetry for Progress Measurement of Construction Work. Automation in Construction, Vol. 18, No. 1, pp. 1–9. Federal Highway Administration (FHWA). (2004). Construction Program Management and Inspection Guide. https://www.fhwa.dot.gov/construction/cpmi04tc.cfm. Accessed June 1, 2021. References

References 105   Federal Highway Administration (FHWA). (2013a). Intelligent Compaction—Executive Summary. Tech Brief FHWA-HIF-13-051. FHWA, U.S. Department of Transportation. Federal Highway Administration (FHWA). (2013b). Automated Machine Guidance with Use of 3D Models: Executive Summary. Tech Brief FHWA-HIF-13-054. FHWA, U.S. Department of Transportation. Federal Highway Administration (FHWA). (2016). Guidance on Highway Preservation and Maintenance. FHWA, U.S. Department of Transportation. https://www.fhwa.dot.gov/preservation/memos/160225.cfm. Accessed June 22, 2021. Federal Highway Administration (FHWA). (2017a). EDC-3 Final Report. Report FHWA-17-CAI-005. FHWA, U.S. Department of Transportation. Federal Highway Administration (FHWA). (2017b). Utilizing 3D Digital Design Data in Highway Construction— Case Studies. FHWA, U.S. Department of Transportation. Federal Highway Administration (FHWA). (2018). Automation in Highway Construction. Tech Brief FHWA-HRT-16-032. 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106 Highway Infrastructure Inspection Practices for the Digital Age Li, N., and B. Becerik-Gerber. (2011). Life-Cycle Approach for Implementing RFID Technology in Construction: Learning from Academic and Industry Use Cases. Journal of Construction Engineering and Management, Vol. 137, No. 12, pp. 1089–1098. Lin, J. J., K. K. Han, and M. Golparvar-Fard. (2015). A Framework for Model-Driven Acquisition and Analytics of Visual Data Using UAVs for Automated Construction Progress Monitoring. Proceedings of Computing in Civil Engineering 2015, ASCE, pp. 156–160. Lucieer, A., S. M. de Jong, and D. Turner. (2014). Mapping Landslide Displacements Using Structure from Motion (SfM) and Image Correlation of Multi-Temporal UAV Photography. Progress in Physical Geography, Vol. 38, No. 1, pp. 97–116. Luhmann, T., and W. Tecklenburg. (2001). Hybride Photogrammetric and Geodetic Surveillance of Historical Buildings for an Urban Tunnel Construction. 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Historically, state departments of transportation (DOTs) have employed on-site workforces to execute infrastructure inspection using traditional inspection methods.

The TRB National Cooperative Highway Research Program's NCHRP Synthesis 582: Highway Infrastructure Inspection Practices for the Digital Age documents the various technologies - such as unmanned aircraft systems (UASs), embedded and remote sensors, intelligent machines, mobile devices, and new software applications - used by DOTs to inspect highway infrastructure during construction and maintenance of assets.

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