A Review on Using Opportunities of Augmented Reality and Virtual Reality in Construction Project Management

Azhar, S., Khalfan, M., & Maqsood, T. (2015). Building information modelling (BIM): Now and beyond. Construction Economics and Building, 12(4), pp. 15–28.AzharS.KhalfanM.MaqsoodT.2015Building information modelling (BIM): Now and beyondConstruction Economics and Building124152810.5130/AJCEB.v12i4.3032Search in Google Scholar

Bae, H., Golparvar-Fard, M., & White, J. (2013). High-precision vision-based mobile augmented reality system for context-aware architectural, engineering, construction and facility management (AEC/FM) applications. Visualization in Engineering, 1(1), p. 3.BaeH.Golparvar-FardM.WhiteJ.2013High-precision vision-based mobile augmented reality system for context-aware architectural, engineering, construction and facility management (AEC/FM) applicationsVisualization in Engineering11310.1186/2213-7459-1-3Search in Google Scholar

Behzadi, A. (2016). Using augmented and virtual reality technology in the construction industry. American Journal of Engineering Research, 5(12), pp. 350–353.BehzadiA.2016Using augmented and virtual reality technology in the construction industryAmerican Journal of Engineering Research512350353Search in Google Scholar

Bhoir, S., & Esmaeili, B. (2015). State-of-the-art review of virtual reality environment applications in construction safety. In: AEI 2015, Milwaukee, WI, March 24–27, pp. 457–468.BhoirS.EsmaeiliB.2015State-of-the-art review of virtual reality environment applications in construction safetyIn:AEI 2015Milwaukee, WIMarch 24–2745746810.1061/9780784479070.040Search in Google Scholar

Bouchlaghem, D., Shang, H., Whyte, J., & Ganah, A. (2005). Visualisation in architecture, engineering and construction (AEC). Automation in Construction, 14(3), pp. 287–295.BouchlaghemD.ShangH.WhyteJ.GanahA.2005Visualisation in architecture, engineering and construction (AEC)Automation in Construction14328729510.1016/j.autcon.2004.08.012Search in Google Scholar

Bulearca, M., & Tamarjan, D. (2010). Augmented reality: A sustainable marketing tool. Global Business and Management Research: An International Journal, 2(2), pp. 237–252.BulearcaM.TamarjanD.2010Augmented reality: A sustainable marketing toolGlobal Business and Management Research: An International Journal22237252Search in Google Scholar

Chantawit, D., Hadikusumo, B. H., Charoenngam, C., & Rowlinson, S. (2005). 4DCAD-Safety: Visualizing project scheduling and safety planning. Construction Innovation, 5(2), pp. 99–114.ChantawitD.HadikusumoB. H.CharoenngamC.RowlinsonS.20054DCAD-Safety: Visualizing project scheduling and safety planningConstruction Innovation529911410.1108/14714170510815203Search in Google Scholar

Cheng, T., & Teizer, J. (2013). Real-time resource location data collection and visualization technology for construction safety and activity monitoring applications. Automation in Construction, 34, pp. 3–15.ChengT.TeizerJ.2013Real-time resource location data collection and visualization technology for construction safety and activity monitoring applicationsAutomation in Construction3431510.1016/j.autcon.2012.10.017Search in Google Scholar

Chi, H.-L., Kang, S.-C., & Wang, X. (2013). Research trends and opportunities of augmented reality applications in architecture, engineering, and construction. Automation in Construction, 33, pp. 116–122.ChiH.-L.KangS.-C.WangX.2013Research trends and opportunities of augmented reality applications in architecture, engineering, and constructionAutomation in Construction3311612210.1016/j.autcon.2012.12.017Search in Google Scholar

Chittaro, L., Corbett, C. L., McLean, G., & Zangrando, N. (2018). Safety knowledge transfer through mobile virtual reality: A study of aviation life preserver donning. Safety Science, 102, pp. 159–168.ChittaroL.CorbettC. L.McLeanG.ZangrandoN.2018Safety knowledge transfer through mobile virtual reality: A study of aviation life preserver donningSafety Science10215916810.1016/j.ssci.2017.10.012Search in Google Scholar

Demirkesen, S., & Arditi, D. (2015). Construction safety personnel’s perceptions of safety training practices. International Journal of Project Management, 33(5), pp. 1160–1169.DemirkesenS.ArditiD.2015Construction safety personnel’s perceptions of safety training practicesInternational Journal of Project Management3351160116910.1016/j.ijproman.2015.01.007Search in Google Scholar

Dong, A., Maher, M. L., & Daruwala, Y. (2006). Construction defect reporting using mobile and digital workbench technologies. Available at https://digitalcollections.qut.edu.au/1661/.DongA.MaherM.L.DaruwalaY.2006Construction defect reporting using mobile and digital workbench technologiesAvailable at https://digitalcollections.qut.edu.au/1661/.Search in Google Scholar

Dunleavy, M., & Dede, C. (2014). Augmented reality teaching and learning. In: Spector, J., Merrill, M., Elen, J., & Bishop, M. (eds.), Handbook of Research on Educational Communications and Technology. Springer, New York, NY, pp. 735–745.DunleavyM.DedeC.2014Augmented reality teaching and learningIn:SpectorJ.MerrillM.ElenJ.BishopM.(eds.)Handbook of Research on Educational Communications and TechnologySpringerNew York, NY73574510.1007/978-1-4614-3185-5_59Search in Google Scholar

Dunston, P. S., & Wang, X. (2011). An iterative methodology for mapping mixed reality technologies to AEC operations. Journal of Information Technology in Construction (ITcon), 16(30), pp. 509–528.DunstonP. S.WangX.2011An iterative methodology for mapping mixed reality technologies to AEC operationsJournal of Information Technology in Construction (ITcon)1630509528Search in Google Scholar

Escamilla, E., & Ostadalimakhmalbaf, M. (2016). Capacity building for sustainable workforce in the construction industry. The Professional Constructor, 41(1), pp. 51–71.EscamillaE.OstadalimakhmalbafM.2016Capacity building for sustainable workforce in the construction industryThe Professional Constructor4115171Search in Google Scholar

Fan, C., Xiao, F., & Yan, C. (2015). A framework for knowledge discovery in massive building automation data and its application in building diagnostics. Automation in Construction, 50, pp. 81–90.FanC.XiaoF.YanC.2015A framework for knowledge discovery in massive building automation data and its application in building diagnosticsAutomation in Construction50819010.1016/j.autcon.2014.12.006Search in Google Scholar

Fang, Y., Teizer, J., & Marks, E. (2014). A framework for developing an as-built virtual environment to advance training of crane operators. In: Paper presented at the Construction Research Congress 2014: Construction in a Global Network, Atlanta, GA, 19–21 May 2014.FangY.TeizerJ.MarksE.2014A framework for developing an as-built virtual environment to advance training of crane operatorsInPaper presented at the Construction Research Congress 2014: Construction in a Global NetworkAtlanta, GA19–21 May 201410.1061/9780784413517.004Search in Google Scholar

Golparvar-Fard, M., Peña-Mora, F., & Savarese, S. (2009). D4AR–a 4-dimensional augmented reality model for automating construction progress monitoring data collection, processing and communication. Journal of Information Technology in Construction, 14(13), pp. 129–153.Golparvar-FardM.Peña-MoraF.SavareseS.2009D4AR–a 4-dimensional augmented reality model for automating construction progress monitoring data collection, processing and communicationJournal of Information Technology in Construction1413129153Search in Google Scholar

Golparvar-Fard, M., Peña-Mora, F. A., & Savarese, S. (2015). Four-dimensional augmented reality models for interactive visualization and automated construction progress monitoring: Google Patents.Golparvar-FardM.Peña-MoraF. A.SavareseS.2015Four-dimensional augmented reality models for interactive visualization and automated construction progress monitoring: Google PatentsSearch in Google Scholar

Gordon, C., Boukamp, F., Huber, D., Latimer, E., Park, K., & Akinci, B. (2003). Combining reality capture technologies for construction defect detection: A case study. In: Paper presented at the EIA9: E-Activities and Intelligent Support in Design and the Built Environment, 9th EuropIA International Conference, October, 2003, pp. 99–108.GordonC.BoukampF.HuberD.LatimerE.ParkK.AkinciB.2003Combining reality capture technologies for construction defect detection: A case studyIn:Paper presented at the EIA9: E-Activities and Intelligent Support in Design and the Built Environment, 9th EuropIA International ConferenceOctober, 200399108Search in Google Scholar

Guo, H., Yu, Y., & Skitmore, M. (2017). Visualization technology-based construction safety management: A review. Automation in Construction, 73, pp. 135–144.GuoH.YuY.SkitmoreM.2017Visualization technology-based construction safety management: A reviewAutomation in Construction7313514410.1016/j.autcon.2016.10.004Search in Google Scholar

Hilfert, T., & König, M. (2016). Low-cost virtual reality environment for engineering and construction. Visualization in Engineering, 4(1), p. 2.HilfertT.KönigM.2016Low-cost virtual reality environment for engineering and constructionVisualization in Engineering41210.22260/ISARC2015/0020Search in Google Scholar

Hilfert, T., Teizer, J., & König, M. (2016). First person virtual reality for evaluation and learning of construction site safety. In: Paper presented at the ISARC. Proceedings of the International Symposium on Automation and Robotics in Construction, Auburn, United States.HilfertT.TeizerJ.KönigM.2016First person virtual reality for evaluation and learning of construction site safetyIn:Paper presented at the ISARC. Proceedings of the International Symposium on Automation and Robotics in ConstructionAuburn, United States10.22260/ISARC2016/0025Search in Google Scholar

Hou, L., Wang, X., & Truijens, M. (2013). Using augmented reality to facilitate piping assembly: An experiment-based evaluation. Journal of Computing in Civil Engineering, 29(1), p. 05014007.HouL.WangX.TruijensM.2013Using augmented reality to facilitate piping assembly: An experiment-based evaluationJournal of Computing in Civil Engineering2910501400710.1061/(ASCE)CP.1943-5487.0000344Search in Google Scholar

HSE International. (2017). Government initiatives grant for virtual and augmented reality development (AWE) in construction. Available at https://hseinternational.co.uk/government-initiative-grants-1m-virtual-augmented-reality-development-awe-construction/ Retrieved 23 May, 2017.HSE International2017Government initiatives grant for virtual and augmented reality development (AWE) in constructionAvailable at https://hseinternational.co.uk/government-initiative-grants-1m-virtual-augmented-reality-development-awe-construction/ Retrieved 23 May, 2017.Search in Google Scholar

Huang, T., Kong, C., Guo, H. L., Baldwin, A., & Li, H. (2007). A virtual prototyping system for simulating construction processes. Automation in Construction, 16(5), pp. 576–585.HuangT.KongC.GuoH. L.BaldwinA.LiH.2007A virtual prototyping system for simulating construction processesAutomation in Construction16557658510.1016/j.autcon.2006.09.007Search in Google Scholar

Hui, P., Wei, J., & Peylo, C. (2017). System and method for mobile augmented reality task scheduling: Google Patents.HuiP.WeiJ.PeyloC.2017System and method for mobile augmented reality task scheduling: Google PatentsSearch in Google Scholar

Izkara, J. L., Pérez, J., Basogain, X., & Borro, D. (2007). Mobile augmented reality, an advanced tool for the construction sector. In: Paper presented at the Proceedings of the 24th W78 Conference, Maribor, Slovenia.IzkaraJ. L.PérezJ.BasogainX.BorroD.2007Mobile augmented reality, an advanced tool for the construction sectorInPaper presented at the Proceedings of the 24th W78 ConferenceMaribor, SloveniaSearch in Google Scholar

Jayaram, S., Connacher, H. I., & Lyons, K. W. (1997). Virtual assembly using virtual reality techniques. Computer-Aided Design, 29(8), pp. 575–584.JayaramS.ConnacherH. I.LyonsK. W.1997Virtual assembly using virtual reality techniquesComputer-Aided Design29857558410.1016/S0010-4485(96)00094-2Search in Google Scholar

Kamat, V. R., Martinez, J. C., Fischer, M., Golparvar-Fard, M., Peña-Mora, F., & Savarese, S. (2010). Research in visualization techniques for field construction. Journal of Construction Engineering and Management, 137(10), pp. 853–862.KamatV. R.MartinezJ. C.FischerM.Golparvar-FardM.Peña-MoraF.SavareseS.2010Research in visualization techniques for field constructionJournal of Construction Engineering and Management1371085386210.1061/(ASCE)CO.1943-7862.0000262Search in Google Scholar

Kerzner, H., & Kerzner, H. R. (2017). Project Management: A Systems Approach to Planning, Scheduling, and Controlling. John Wiley & Sons, Hoboken, NJ.KerznerH.KerznerH. R.2017Project Management: A Systems Approach to Planning, Scheduling, and ControllingJohn Wiley & SonsHoboken, NJSearch in Google Scholar

Kim, C., Park, T., Lim, H., & Kim, H. (2013). On-site construction management using mobile computing technology. Automation in Construction, 35, pp. 415–423.KimC.ParkT.LimH.KimH.2013On-site construction management using mobile computing technologyAutomation in Construction3541542310.1016/j.autcon.2013.05.027Search in Google Scholar

Klopfer, E., Squire, K., & Jenkins, H. (2002). Environmental detectives: PDAs as a window into a virtual simulated world. In: Paper presented at the Proceedings of the IEEE International Workshop on Wireless and Mobile Technologies in Education 2002, Tokushima, Japan, 30–30 August, 2002.KlopferE.SquireK.JenkinsH.2002Environmental detectives: PDAs as a window into a virtual simulated worldInPaper presented at the Proceedings of the IEEE International Workshop on Wireless and Mobile Technologies in Education 2002Tokushima, Japan30–30 August, 2002Search in Google Scholar

Knutt, E. (2017). Balfour Beatty and energy specialist Cape embrace VR safety training. Available at https://www.healthandsafetyatwork.com/training/balfour-beatty-cape-embrace-virtual-reality.KnuttE.2017Balfour Beatty and energy specialist Cape embrace VR safety trainingAvailable at https://www.healthandsafetyatwork.com/training/balfour-beatty-cape-embrace-virtual-reality.Search in Google Scholar

Koch, C., Neges, M., König, M., & Abramovici, M. (2014). Natural markers for augmented reality-based indoor navigation and facility maintenance. Automation in Construction, 48, pp. 18–30.KochC.NegesM.KönigM.AbramoviciM.2014Natural markers for augmented reality-based indoor navigation and facility maintenanceAutomation in Construction48183010.1016/j.autcon.2014.08.009Search in Google Scholar

Kopp, S., Jung, B., Lessmann, N., & Wachsmuth, I. (2003). Max-a multimodal assistant in virtual reality construction. KI, 17(4), p. 11.KoppS.JungB.LessmannN.WachsmuthI.2003Max-a multimodal assistant in virtual reality constructionKI17411Search in Google Scholar

Kumaran, G. S., Santhi, K., & Anand, P. (2007). Impact of augmented reality (AR) in civil engineering. Advanced Materials Research, 18–19, pp. 63–68.KumaranG. S.SanthiK.AnandP.2007Impact of augmented reality (AR) in civil engineeringAdvanced Materials Research18–19636810.4028/0-87849-450-2.63Search in Google Scholar

Kwon, O.-S., Park, C.-S., & Lim, C.-R. (2014). A defect management system for reinforced concrete work utilizing BIM, image-matching and augmented reality. Automation in Construction, 46, pp. 74–81.KwonO.-S.ParkC.-S.LimC.-R.2014A defect management system for reinforced concrete work utilizing BIM, image-matching and augmented realityAutomation in Construction46748110.1016/j.autcon.2014.05.005Search in Google Scholar

Le, Q. T., Pedro, A., Lim, C., Park, H., Park, C., & Kim, H. (2015a). A framework for using mobile based virtual reality and augmented reality for experiential construction safety education. International Journal of Engineering Education, 31(3), pp. 713–725.LeQ. T.PedroA.LimC.ParkH.ParkC.KimH.2015aA framework for using mobile based virtual reality and augmented reality for experiential construction safety educationInternational Journal of Engineering Education313713725Search in Google Scholar

Le, Q. T., Pedro, A., & Park, C. S. (2015b). A social virtual reality based construction safety education system for experiential learning. Journal of Intelligent & Robotic Systems, 79(3–4), pp. 487–506.LeQ. T.PedroA.ParkC. S.2015bA social virtual reality based construction safety education system for experiential learningJournal of Intelligent & Robotic Systems793–448750610.1007/s10846-014-0112-zSearch in Google Scholar

Lee, K. (2012). Augmented reality in education and training. TechTrends, 56(2), pp. 13–21.LeeK.2012Augmented reality in education and trainingTechTrends562132110.1007/s11528-012-0559-3Search in Google Scholar

Lee, J.-Y., Kwon, O.-S., Choi, J.-S., & Park, C.-S. (2012). A study on construction defect management using augmented reality technology. In: Paper presented at the Information Science and Applications (ICISA), 2012 International Conference on, Suwon, Korea.LeeJ.-Y.KwonO.-S.ChoiJ.-S.ParkC.-S.2012A study on construction defect management using augmented reality technologyInPaper presented at the Information Science and Applications (ICISA), 2012 International Conference onSuwon, Korea10.1109/ICISA.2012.6220933Search in Google Scholar

Li, R. Y. M. (2018). Virtual Reality and Construction Safety. An Economic Analysis on Automated Construction Safety. Springer, Singapore, pp. 117–136.LiR. Y. M.2018Virtual Reality and Construction SafetyAn Economic Analysis on Automated Construction SafetySpringerSingapore11713610.1007/978-981-10-5771-7_6Search in Google Scholar

Li, X., Yi, W., Chi, H.-L., Wang, X., & Chan, A. P. (2018). A critical review of virtual and augmented reality (VR/AR) applications in construction safety. Automation in Construction, 86, pp. 150–162.LiX.YiW.ChiH.-L.WangX.ChanA. P.2018A critical review of virtual and augmented reality (VR/AR) applications in construction safetyAutomation in Construction8615016210.1016/j.autcon.2017.11.003Search in Google Scholar

Lin, T.-J., Duh, H. B.-L., Li, N., Wang, H.-Y., & Tsai, C.-C. (2013). An investigation of learners’ collaborative knowledge construction performances and behavior patterns in an augmented reality simulation system. Computers & Education, 68, pp. 314–321.LinT.-J.DuhH. B.-L.LiN.WangH.-Y.TsaiC.-C.2013An investigation of learners’ collaborative knowledge construction performances and behavior patterns in an augmented reality simulation systemComputers & Education6831432110.1016/j.compedu.2013.05.011Search in Google Scholar

Loijens, L. W., Brohm, D., & Domurath, N. (2017). What is augmented reality? In: Loijens, Leanne W. S. (ed.), Augmented Reality for Food Marketers and Consumers. Wageningen Academic Publishers, Wageningen, p. 356.LoijensL. W.BrohmD.DomurathN.2017What is augmented reality?In:LoijensLeanne W. S.(ed.)Augmented Reality for Food Marketers and ConsumersWageningen Academic PublishersWageningen35610.3920/978-90-8686-842-1_1Search in Google Scholar

Meža, S., Turk, Ž., & Dolenc, M. (2015). Measuring the potential of augmented reality in civil engineering. Advances in Engineering Software, 90, pp. 1–10.MežaS.TurkŽDolencM.2015Measuring the potential of augmented reality in civil engineeringAdvances in Engineering Software9011010.1016/j.advengsoft.2015.06.005Search in Google Scholar

Olsson, T., Kärkkäinen, T., Lagerstam, E., & Ventä-Olkkonen, L. (2012). User evaluation of mobile augmented reality scenarios. Journal of Ambient Intelligence and Smart Environments, 4(1), pp. 29–47.OlssonT.KärkkäinenT.LagerstamE.Ventä-OlkkonenL.2012User evaluation of mobile augmented reality scenariosJournal of Ambient Intelligence and Smart Environments41294710.3233/AIS-2011-0127Search in Google Scholar

Omar, T., & Nehdi, M. L. (2016). Data acquisition technologies for construction progress tracking. Automation in Construction, 70, pp. 143–155.OmarT.NehdiM. L.2016Data acquisition technologies for construction progress trackingAutomation in Construction7014315510.1016/j.autcon.2016.06.016Search in Google Scholar

Park, C.-S., & Kim, H.-J. (2013). A framework for construction safety management and visualization system. Automation in Construction, 33, pp. 95–103.ParkC.-S.KimH.-J.2013A framework for construction safety management and visualization systemAutomation in Construction339510310.1016/j.autcon.2012.09.012Search in Google Scholar

Park, C.-S., Lee, D.-Y., Kwon, O.-S., & Wang, X. (2013). A framework for proactive construction defect management using BIM, augmented reality and ontology-based data collection template. Automation in Construction, 33, pp. 61–71.ParkC.-S.LeeD.-Y.KwonO.-S.WangX.2013A framework for proactive construction defect management using BIM, augmented reality and ontology-based data collection templateAutomation in Construction33617110.1016/j.autcon.2012.09.010Search in Google Scholar

Park, C. S., Le, Q. T., Pedro, A., & Lim, C. R. (2015). Interactive building anatomy modeling for experiential building construction education. Journal of Professional Issues in Engineering Education and Practice, 142(3), p. 04015019.ParkC. S.LeQ. T.PedroA.LimC. R.2015Interactive building anatomy modeling for experiential building construction educationJournal of Professional Issues in Engineering Education and Practice14230401501910.1061/(ASCE)EI.1943-5541.0000268Search in Google Scholar

Pejoska, J., Bauters, M., Purma, J., & Leinonen, T. (2016). Social augmented reality: Enhancing context-dependent communication and informal learning at work. British Journal of Educational Technology, 47(3), pp. 474–483.PejoskaJ.BautersM.PurmaJ.LeinonenT.2016Social augmented reality: Enhancing context-dependent communication and informal learning at workBritish Journal of Educational Technology47347448310.1111/bjet.12442Search in Google Scholar

Peters, C., Postlethwaite, D., & Wallace, M. W. (2016). Systems and methods providing enhanced education and training in a virtual reality environment: Google Patents.PetersC.PostlethwaiteD.WallaceM. W.2016Systems and methods providing enhanced education and training in a virtual reality environment: Google PatentsSearch in Google Scholar

Rankohi, S., & Waugh, L. (2013). Review and analysis of augmented reality literature for construction industry. Visualization in Engineering, 1(1), p. 9.RankohiS.WaughL.2013Review and analysis of augmented reality literature for construction industryVisualization in Engineering11910.1186/2213-7459-1-9Search in Google Scholar

Reddy, S., Estrin, D., & Srivastava, M. (2010). Recruitment framework for participatory sensing data collections. In: Paper presented at the International Conference on Pervasive Computing, Helsinki, Finland.ReddyS.EstrinD.SrivastavaM.2010Recruitment framework for participatory sensing data collectionsInPaper presented at the International Conference on Pervasive ComputingHelsinki, Finland10.1007/978-3-642-12654-3_9Search in Google Scholar

Rozenfeld, O., Sacks, R., Rosenfeld, Y., & Baum, H. (2010). Construction job safety analysis. Safety Science, 48(4), pp. 491–498.RozenfeldO.SacksR.RosenfeldY.BaumH.2010Construction job safety analysisSafety Science48449149810.1016/j.ssci.2009.12.017Search in Google Scholar

Rumane, A. R. (2016). Quality Management in Construction Projects. CRC Press, Boca Raton, FL.RumaneA. R.2016Quality Management in Construction ProjectsCRC PressBoca Raton, FL10.1201/b10351Search in Google Scholar

Sacks, R., Whyte, J., Swissa, D., Raviv, G., Zhou, W., & Shapira, A. (2015). Safety by design: Dialogues between designers and builders using virtual reality. Construction Management and Economics, 33(1), pp. 55–72.SacksR.WhyteJ.SwissaD.RavivG.ZhouW.ShapiraA.2015Safety by design: Dialogues between designers and builders using virtual realityConstruction Management and Economics331557210.1080/01446193.2015.1029504Search in Google Scholar

Sampaio, A. Z., Ferreira, M. M., Rosário, D. P., & Martins, O. P. (2010). 3D and VR models in Civil Engineering education: Construction, rehabilitation and maintenance. Automation in Construction, 19(7), pp. 819–828.SampaioA. Z.FerreiraM. M.RosárioD. P.MartinsO. P.20103D and VR models in Civil Engineering education: Construction, rehabilitation and maintenanceAutomation in Construction19781982810.1016/j.autcon.2010.05.006Search in Google Scholar

Sampaio, A. Z., & Martins, O. P. (2014). The application of virtual reality technology in the construction of bridge: The cantilever and incremental launching methods. Automation in Construction, 37, pp. 58–67.SampaioA. Z.MartinsO. P.2014The application of virtual reality technology in the construction of bridge: The cantilever and incremental launching methodsAutomation in Construction37586710.1016/j.autcon.2013.10.015Search in Google Scholar

Science. (Producer). (2017, 21 April 2018). 3M Virtual Reality Simulation Adds New Dimension to Safety Training. Available at https://www.youtube.com/watch?v=yhR-_TY6j50.Science. (Producer). (2017, 21 April 2018).3M Virtual Reality Simulation Adds New Dimension to Safety TrainingAvailable at https://www.youtube.com/watch?v=yhR-_TY6j50.Search in Google Scholar

Sekizuka, R., Koiwai, K., Saiki, S., Yamazaki, Y., Tsuji, T., & Kurita, Y. (2017). A virtual training system of a hydraulic excavator using a remote controlled excavator with augmented reality. In: Paper presented at the Proceedings of the 2017 IEEE/SICE International Symposium on System Integration (SII), Taipei, Taiwan, 11–14 December, 2017.SekizukaR.KoiwaiK.SaikiS.YamazakiY.TsujiT.KuritaY.2017A virtual training system of a hydraulic excavator using a remote controlled excavator with augmented realityInPaper presented at the Proceedings of the 2017 IEEE/SICE International Symposium on System Integration (SII)Taipei, Taiwan11–14 December, 201710.1109/SII.2017.8279336Search in Google Scholar

Shen, W., Hao, Q., Mak, H., Neelamkavil, J., Xie, H., Dickinson, J., et al. (2010). Systems integration and collaboration in architecture, engineering, construction, and facilities management: A review. Advanced Engineering Informatics, 24(2), pp. 196–207.ShenW.HaoQ.MakH.NeelamkavilJ.XieH.DickinsonJ.2010Systems integration and collaboration in architecture, engineering, construction, and facilities management: A reviewAdvanced Engineering Informatics24219620710.1016/j.aei.2009.09.001Search in Google Scholar

Sidani, A. Z., Duarte, J., Dinis, F. M., Baptista, J. S., Martins, J. P., & Soeiro, A. (2018). The Impact of BIM-based virtual and augmented reality interfaces on health and safety in construction projects: Protocol for a systematic review. International Journal of Occupational and Environmental Safety, 2(1), pp. 67–74.SidaniA. Z.DuarteJ.DinisF. M.BaptistaJ. S.MartinsJ. P.SoeiroA.2018The Impact of BIM-based virtual and augmented reality interfaces on health and safety in construction projects: Protocol for a systematic reviewInternational Journal of Occupational and Environmental Safety21677410.24840/2184-0954_002.001_0008Search in Google Scholar

Stricker, D., Klinker, G., & Reiners, D. (2001). Augmented reality for exterior construction applications. In: Barfield, W., & Caudell, T. (eds.), Fundamentals of Wearable Computers and Augmented Reality. Lawrence Erlbaum Associates Publishers, Mahwah, NJ, pp. 379–427.StrickerD.KlinkerG.ReinersD.2001Augmented reality for exterior construction applicationsIn:BarfieldW.CaudellT.(eds.)Fundamentals of Wearable Computers and Augmented RealityLawrence Erlbaum Associates PublishersMahwah, NJ379427Search in Google Scholar

Tang, A., Owen, C., Biocca, F., & Mou, W. (2003). Comparative effectiveness of augmented reality in object assembly. In: Paper presented at the Proceedings of the SIGCHI Conference on Human Factors in Computing Systems, Ft. Lauderdale, Florida, USA: ACM.TangA.OwenC.BioccaF.MouW.2003Comparative effectiveness of augmented reality in object assemblyIn:Paper presented at the Proceedings of the SIGCHI Conference on Human Factors in Computing SystemsFt Lauderdale, Florida, USAACM10.1145/642611.642626Search in Google Scholar

Turkan, Y., Bosche, F., Haas, C. T., & Haas, R. (2012). Automated progress tracking using 4D schedule and 3D sensing technologies. Automation in Construction, 22, pp. 414–421.TurkanY.BoscheF.HaasC. T.HaasR.2012Automated progress tracking using 4D schedule and 3D sensing technologiesAutomation in Construction2241442110.1016/j.autcon.2011.10.003Search in Google Scholar

Van Krevelen, D., & Poelman, R. (2010). A survey of augmented reality technologies, applications and limitations. International Journal of Virtual Reality, 9(2), p. 1.Van KrevelenD.PoelmanR.2010A survey of augmented reality technologies, applications and limitationsInternational Journal of Virtual Reality92110.20870/IJVR.2010.9.2.2767Search in Google Scholar

Wang, X. (2009). Augmented reality in architecture and design: Potentials and challenges for application. International Journal of Architectural Computing, 7(2), pp. 309–326.WangX.2009Augmented reality in architecture and design: Potentials and challenges for applicationInternational Journal of Architectural Computing7230932610.1260/147807709788921985Search in Google Scholar

Wang, X., & Dunston, P. S. (2007). Design, strategies, and issues towards an augmented reality-based construction training platform. Journal of Information Technology in Construction (ITcon), 12(25), pp. 363–380.WangX.DunstonP. S.2007Design, strategies, and issues towards an augmented reality-based construction training platformJournal of Information Technology in Construction (ITcon)1225363380Search in Google Scholar

Wang, X., Love, P. E., Kim, M. J., Park, C.-S., Sing, C.-P., & Hou, L. (2013). A conceptual framework for integrating building information modeling with augmented reality. Automation in Construction, 34, pp. 37–44.WangX.LoveP. E.KimM. J.ParkC.-S.SingC.-P.HouL.2013A conceptual framework for integrating building information modeling with augmented realityAutomation in Construction34374410.1016/j.autcon.2012.10.012Search in Google Scholar

Wang, W.-C., Weng, S.-W., Wang, S.-H., & Chen, C.-Y. (2014a). Integrating building information models with construction process simulations for project scheduling support. Automation in Construction, 37, pp. 68–80.WangW.-C.WengS.-W.WangS.-H.ChenC.-Y.2014aIntegrating building information models with construction process simulations for project scheduling supportAutomation in Construction37688010.1016/j.autcon.2013.10.009Search in Google Scholar

Wang, X., Truijens, M., Hou, L., Wang, Y., & Zhou, Y. (2014b). Integrating augmented reality with building information modeling: Onsite construction process controlling for liquefied natural gas industry. Automation in Construction, 40, pp. 96–105.WangX.TruijensM.HouL.WangY.ZhouY.2014bIntegrating augmented reality with building information modeling: Onsite construction process controlling for liquefied natural gas industryAutomation in Construction409610510.1016/j.autcon.2013.12.003Search in Google Scholar

Whyte, J. (2003a). Industrial applications of virtual reality in architecture and construction. Journal of Information Technology in Construction (ITcon), 8(4), pp. 43–50.WhyteJ.2003aIndustrial applications of virtual reality in architecture and constructionJournal of Information Technology in Construction (ITcon)844350Search in Google Scholar

Whyte, J. (2003b). Innovation and users: Virtual reality in the construction sector. Construction Management and Economics, 21(6), pp. 565–572.WhyteJ.2003bInnovation and users: Virtual reality in the construction sectorConstruction Management and Economics21656557210.1080/0144619032000113690Search in Google Scholar

Williams, G., Gheisari, M., Chen, P.-J., & Irizarry, J. (2014). BIM2MAR: An efficient BIM translation to mobile augmented reality applications. Journal of Management in Engineering, 31(1), p. A4014009.WilliamsG.GheisariM.ChenP.-J.IrizarryJ.2014BIM2MAR: An efficient BIM translation to mobile augmented reality applicationsJournal of Management in Engineering311A401400910.1061/(ASCE)ME.1943-5479.0000315Search in Google Scholar

Wong, J., Wang, X., Li, H., & Chan, G. (2014). A review of cloud-based BIM technology in the construction sector. Journal of Information Technology in Construction, 19, pp. 281–291.WongJ.WangX.LiH.ChanG.2014A review of cloud-based BIM technology in the construction sectorJournal of Information Technology in Construction19281291Search in Google Scholar

Woodward, C., Hakkarainen, M., Korkalo, O., Kantonen, T., Aittala, M., Rainio, K., et al. (2010). Mixed reality for mobile construction site visualization and communication. In: Paper presented at the Proceedings of 10th International Conference on Construction Applications of Virtual Reality (CONVR2010), Sendai, Japan, 4–5 November, 2010.WoodwardC.HakkarainenM.KorkaloO.KantonenT.AittalaM.RainioK.2010Mixed reality for mobile construction site visualization and communicationInPaper presented at the Proceedings of 10th International Conference on Construction Applications of Virtual Reality (CONVR2010)Sendai, Japan4–5 November, 2010Search in Google Scholar

Yeh, K.-C., Tsai, M.-H., & Kang, S.-C. (2012). On-site building information retrieval by using projection-based augmented reality. Journal of Computing in Civil Engineering, 26(3), pp. 342–355.YehK.-C.TsaiM.-H.KangS.-C.2012On-site building information retrieval by using projection-based augmented realityJournal of Computing in Civil Engineering26334235510.1061/(ASCE)CP.1943-5487.0000156Search in Google Scholar

Zaher, M., Greenwood, D., & Marzouk, M. (2018). Mobile augmented reality applications for construction projects. Construction Innovation, 18(2), pp. 152–166.ZaherM.GreenwoodD.MarzoukM.2018Mobile augmented reality applications for construction projectsConstruction Innovation18215216610.1108/CI-02-2017-0013Search in Google Scholar

Zhao, D., & Lucas, J. (2015). Virtual reality simulation for construction safety promotion. International Journal of Injury Control and Safety Promotion, 22(1), pp. 57–67.ZhaoD.LucasJ.2015Virtual reality simulation for construction safety promotionInternational Journal of Injury Control and Safety Promotion221576710.1080/17457300.2013.86185324471426Search in Google Scholar

Zhou, F., Duh, H. B.-L., & Billinghurst, M. (2008). Trends in augmented reality tracking, interaction and display: A review of ten years of ISMAR. In: Paper presented at the Proceedings of the 7th IEEE/ACM International Symposium on Mixed and Augmented Reality, Washington, DC, USA: IEEE Computer Society, 2008.ZhouF.DuhH. B.-L.BillinghurstM.2008Trends in augmented reality tracking, interaction and display: A review of ten years of ISMARInPaper presented at the Proceedings of the 7th IEEE/ACM International Symposium on Mixed and Augmented RealityWashington, DC, USAIEEE Computer Society2008Search in Google Scholar