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73 3-D Printhuset. The Construction of Europeâs First 3-D Printed Building. 2017. https://3-Dprinthuset.dk/ europes-first-3-D-printed-building/. Accessed July 26, 2018. Agarwal, R., S. Chandrasekaran, and M. Sridhar. Imagining Constructionâs Digital Future. Insights on Capital Projects and Infrastructure, McKinsey & Company, April 2016. Albert, A., M. Hallowell, B. Kleiner, A. Chen, and M. Golparvar-Fard. Enhancing Construction Hazard Recogni- tion with High-Fidelity Augmented Virtuality. ASCE Journal of Construction Engineering and Management, Vol. 140, No. 7, 2014. Austin, R. Unmanned Aircraft Systems: UAVs, Design, Development, and Deployment. American Institute of Aeronautics and Astronautics, Reston Va., 2010. Autodesk. Getting Started with BIM for Civil Engineering: A Guide to Your First Project. 2018. https://damassets. autodesk.net/content/dam/autodesk/www/campaigns/bim/autodesk-ebook-bim-getting-started-guide- infra-en.pdf. Accessed October 4, 2018. Autodesk. Building Information Modeling. Autodesk, Inc., San Rafael, Calif., 2002. Avsatthi, B. Construction Industry Needs Digitized Project-Management Work Flows. Archinect Firms, March 2017. https://archinect.com/HCADDS/release/construction-industry-needs-digitized-project-management- work-flows. Accessed July 23, 2018. Azuma, R., Y. Baillot, R. Behringer, S. Feiner, S. Julier, and B. MacIntyre. Recent Advances in Augmented Reality. Journal of Computer Graphics and Applications, Vol. 21, No. 6, 2001, pp. 34â47. Barfuss, S., A. Jensen, and S. Clemens. Evaluation and Development of Unmanned Aircraft (UAV) for UDOT Needs. Report UT-12.08, Utah Department of Transportation, Research Division, 2012. Behzadan, A., S. Dong, and V. Kamat. Augmented Reality Visualization: A Review of Civil Infrastructure System Applications. Advanced Engineering Informatics, Vol. 29, No. 2, 2015, pp. 252â267. Blazina, E. North Hills Firm Develops Robot to Help with Bridge Construction. Pittsburgh Post-Gazette, October 30, 2017. Bock, T. The Future of Construction Automation: Technological Disruption and the Upcoming Ubiquity of Robotics. Journal of Automation in Construction, Vol. 59, 2015, pp. 113â121. California Department of Transportation. Guidelines for Implementing Automated Machine Guidance. 2013. http://www.dot.ca.gov/hq/construc/amg/. Accessed July 26, 2018. Campbell, D. Six Ways Virtual Reality Construction Technology Can Save You Money Now. Connect and Con- struct. Autodesk BIM 360, June 2017. [. https://connect.bim360.autodesk.com/virtual-reality-construction- technology-saves-money. Accessed October 4, 2018. Carroll, E. and D. Rathbone. Using an Unmanned Airborne Data Acquisition System (ADAS) for Traffic Surveillance, Monitoring, and Management.â In Proceedings from 2002 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2002, pp. 145â157. Cleaver, L. Oldcastle Materials Creates AWARE to Save Lives. ForConstructionPros.com, 2016. https:// www.forconstructionpros.com/asphalt/article/12181842/oldcastle-materials-creates-aware-to-save-lives. Accessed July 12, 2018. Coifman, B., M. McCord, R. Mishalani, and K. Redmill. Surface Transportation Surveillance from Unmanned Aerial Vehicles. Paper presented at 83rd Annual Meeting of the Transportation Research Board, January 11â15, 2004, Washington, D.C. Construction World. Seven Ways Robotics Is Transforming the Construction Industry. 2017. http://www.construction world.org/6-ways-robotics-transforming-construction-industry/. Accessed July 25, 2018. Dodge Data and Analytics. Smart Market Report: The Business Value of BIM for Owners. McGraw Hill Construction, Bedford, Mass., 2014. http://i2sl.org/elibrary/documents/Business_Value_of_BIM_for_ Owners_SMR_%282014%29.pdf. Accessed July 10, 2018. References
74 Emerging Technologies for Construction Delivery Dudek, C. and G. Ullman. Flashing Messages, Flashing Lines, and Alternating Once Line on Changeable Message Signs. Transportation Research Record, Vol. 1803, 2002, pp. 94â101. Dye Management. Monitoring Highway Assets with Remote Technology. Final report. Michigan Department of Transportation, Lansing, 2014. Edara, P., C. Sun, C. Keller, and Y. Hou. Evaluation of Dynamic Message Signs on Rural Freeways: Case Study of a Full Freeway Closure. ASCE Journal of Transportation Engineering, Vol. 140, No. 1, 2014. Federal Highway Administration (FHWA). EDC-5: Unmanned Aerial Systems (UAS). Federal Highway Adminis- tration Every Day Countsâ5 Initiative. 2018. https://www.fhwa.dot.gov/innovation/everydaycounts/edc_5/ uas.cfm. Accessed July 26, 2018. FHWA. Every Day Counts: Creating Efficiency through Technology and Collaboration. EDC-3 final report. Wash- ington, D.C., 2017. FHWA. 3-D Engineered Models for Construction. EDC-2 fact sheet, Washington, D.C., 2016. FHWA. 3-D Engineered Models for ConstructionâUnderstanding the Benefits of 3-D Modeling in Construction: The Wisconsin Case Study. Tech Brief FHWA-HIF-13-050. Washington, D.C., 2013a. FHWA. Automated Machine Guidance with Use of 3-D Models. FHWA Tech Brief, Washington, D.C., 2013b. ForConstructionPros.com. Wacher Neuson RTX SC3 Trench Roller with Compatec. 2018. https://www. forconstructionpros.com/equipment/compaction/trench-rollers/product/12027255/wacker-neuson- corporation-wacker-neuson-rtx-sc3-trench-roller-with-compatec. Accessed September 20, 2018. Gambatese, J., H. Lee, and C. Nnaji. Work Zone Intrusion Alert Technologies: Assessment and Practical Guidance. Final report. SPR 70. Oregon Department of Transportation Research Section, Salem, 2017. Georgel, P., P. Schroeder, S. Benhimane, and S. Hinterstoisser. An Industrial Augmented Reality Solution for Discrepancy Check. In Proceedings of the 6th IEEE and ACM International Symposium on Mixed and Augmented Reality, Japan, 2007. Georgia Department of Transportation. Variable Speed Limits (VSL): Slow Down to Get There Faster. 2018. http://www.dot.ga.gov/DriveSmart/SafetyOperation/Pages/VSL.aspx. Accessed July 20, 2018. Golparvar-Fard, M., J. Bohn, J. Teizer, S. Savarese, and F. Peña-Mora. Evaluation of Image-Based Modeling and Laser Scanning Accuracy for Emerging Automated Performance Monitoring Techniques. Automation in Construction, Vol. 20, No. 8, 2011, pp. 1143â1155. Golparvar-Fard, M., F. Pena-Mora, C. Arboleda, and S. Lee. Visualization of Construction Progress Monitor- ing with 4-D Simulation Model Overlaid on Time-Lapsed Photographs. Journal of Computing in Civil Engineering, Vol. 23, No. 6, 2009, pp. 391â404. Goulias, D., and M. L. Scott. Effective Implementation of Ground Penetrating Radar for Condition Assessment and Monitoring of Critical Infrastructure Components of Bridges and Highways .Final report. Project SP309B4R. Maryland Department of Transportation, State Highway Administration, 2015. Haas, C. T., R. L. Tucker, K. S. Saidi, and N. A. Balli. The Value of Handheld Computers in Construction. Report for the Center for Construction Industry Studies, University of Texas at Austin, 2002. Hannon, J. NCHRP Synthesis 372: Emerging Technologies for Construction Delivery. National Cooperative High- way Research Program, Transportation Research Board of the National Academies, Washington, D.C., 2007. Hedmond, S. Cool Tools: Cordless Hard Hat 360 Degree Light Attachment. Construction Junkie, 2017. https:// www.constructionjunkie.com/blog/2017/5/2/cool-tools-cordless-hard-hat-360-degree-light-attachment. Accessed September 23, 2018. Highway Builder. Bridging the Gap Through Robotic Innovation. Spring 2018. http://hwybldr.com/wp-content/ uploads/2018/04/HBSPRING2018.pdf. Accessed September 23, 2018. Jeganathan, C., et al. Remote Sensing and GIS for Civil Engineering Applications and Human Development. International Journal of Advancement in Remote Sensing, GIS, and Geography, Vol. 5, No. 1, 2017, pp. 1â18. Landers, J. Accelerating Innovation. Civil Engineering Magazine, October 2015, pp. 66â71. Maier, F., J. Mallela, H. Torres, J. M. Ruiz, and G. Chang. Automation in Highway Construction, Part II: Design Guidance and Guide Specification Manual. Report FHWA-HRT-16-031. FHWA, Office of Infrastructure Research and Technology, McLean, Va., 2018, p. 130. McKinsey Global Institute. Reinventing Construction: A Route to Higher Productivity. Capital Projects & Infrastructure Practice. McKinsey & Company, February 2017a. https://www.mckinsey.com/â¼/media/ McKinsey/Industries/Capital%20Projects%20and%20Infrastructure/Our%20Insights/Reinventing %20construction%20through%20a%20productivity%20revolution/MGI-Reinventing-Construction- Executive-summary.ashx. Accessed September 4, 2018. McKinsey Global Institute. A Future That Works: Automation, Employment, and Productivity. McKinsey & Company, January 2017b. https://www.mckinsey.com/â¼/media/mckinsey/featured%20insights/Digital%20 Disruption/Harnessing%20automation%20for%20a%20future%20that%20works/MGI-A-future-that- works-Executive-summary.ashx. Accessed June 25, 2018. Minnesota Department of Transportation. Work Zone Intrusion Warning System: System Requirements. Systems Engineering for Work Zone Challenges Project, 2015. https://www.dot.state.mn.us/its/projects/2011-2015/ solvingworkzonechallenges/systemreqchallenge1.pdf. Accessed July 24, 2018.
References 75 Nnaji, C., J. Gambatese, and H. W. Lee. Work Zone Intrusion: Technology to Reduce Injuries and Fatalities. Professional Safety. American Society of Safety Engineers, April 2018. OâBrien, W., B. Sankaran, F. Leite, N. Khwaja, I. De Sande Palma, P. Goodrum, K. Molenaar, G. Nevett, and J. Johnson. NCHRP Research Report 831: Civil Integrated Management (CIM) for Departments of Transpor- tation. National Cooperative Highway Research Program, Transportation Research Board of the National Academies, Washington, D.C., 2016. Ogle, J. NCHRP Synthesis 367: Technologies for Improving Safety Data. National Cooperative Transportation Program, Transportation Research Board of the National Academies, Washington, D.C., 2007 Olsen, M., G. Roe, C. Glennie, F. Persi, M. Reedy, D. Hurwitz, K. Williams, H. Tuss, A. Squellati, and M. Knodler. NCHRP Research Report 748: Guidelines for the Use of Mobile LIDAR in Transportation Applications. National Cooperative Highway Program,Transportation Research Board of the National Academies, Washington, D.C., 2013. Pecoraro, J., C. Harper, and C. Wang, âUnmanned Aircraft Systems in Construction and Agriculture: Uses, Benefits, Challenges, and Why Companies Choose to Invest. Journal of Construction Engineering and Project Management, Vol. 7, No. 2, 2017, pp. 34â44. Pistorius C. The Impact of Emerging Technologies on the Construction Industry. Innovation Insight, Vol. 4, No. 17, 2017. Rankohi, S., and L. Waugh. Review and Analysis of Augmented Reality Literature for Construction Industry. Visualization in Engineering, Vol. 1, No. 9, 2013. Rizos. C. Introducing the Global Positioning System. In Manual of Geospatial Science and Technology (J. D. Bossler, J. R. Jenson, R. B. McMaster, and C. Rizos, eds.). London: Taylor and Francis, 2002. Rotolo, D., D. Hicks, and B. Martin. What Is an Emerging Technology? Research Policy, Vol. 44, No. 10, 2015, pp. 1827â1843. Shin, D., and P. Dunston. Identification of Application Areas for Augmented Reality in Industrial Construction Based on Technology Suitability. Journal of Automation in Construction, Vol. 17, No. 7, 2008, pp. 882â894. Teizer, J. Status Quo and Open Challenges in Vision-Based Sensing and Tracking of Temporary Resources on Infrastructure Construction Sites. Advanced Engineering Informatics, Vol. 29, No. 2, 2015, pp. 225â238. Ullman, G., C. Dudek, and B. Ullman. Development of a Field Guide for Portable Changeable Message Sign Use in Work Zones. Technical report. Texas Transportation Institute, Texas Department of Transportation Research and Technology Implementation Office, Austin, Tex., 2005. U.S. Department of Transportation. Effects on Intelligent Transportation Systems and Planning and Deployment in a Connected Vehicle Environment. FHWA, 2018. https://ops.fhwa.dot.gov/publications/fhwahop18014/ fhwahop18014.pdf. Accessed October 4, 2018. Vonderohe, A. P. Implementation of GPS Controlled Highway Construction Equipment Phase II. Final report, Project 0657-32-24, Wisconsin Department of Transportation, 2009. Washington State Department of Transportation. Highway Surveying Manual. M-22-97. Environmental and Engineering Service Center, Design Office, 2005. Weisner, K., B. Cawley, and A. Sindlinger. The Age of e-Construction. Public Roads, FHWA-HRT-17-005, Vol. 81, No. 1, JulyâAugust 2017. White, D., C. Jahren, P. Vennapusa, C. Westort, A. Alhasan, Y. Turkan, F. Guo, J. Hannon, A. Dubree, and T. Sulbaran. Use of Automated Machine Guidance within the Transportation Industry. NCHRP Web-Only Document 250, National Cooperative Highway Research Program,Transportation Research Board of the National Academies, Washington, D.C., 2018. Whyte, J., and D. Nikolic. Virtual Reality and the Built Environment, 2nd ed. Routledge, New York, 2018.