Abating the Barriers to the Deployment of Radio Frequency Identification for Construction Project Delivery in South Africa
The use of technological innovations has been touted to be beneficial in the delivery of construction projects. Particularly, Radio Frequency Identification (RFID) technology is widely regarded to be of immense advantage for the management of construction projects. This study focused on evaluating the barriers to the use of RFID technology for the delivery of construction projects. Using Gauteng Province in South Africa as the study area, questionnaire was used in eliciting responses from construction professionals which made up the population of the study. Retrieved data were analyzed using Mean Item Score and One-Sample t-test. Findings from the study showed that the most significant barriers to the deployment of RFID for construction project delivery are high cost and lack of awareness. Conclusively, the study made recommendations that would aid in the abatement of the barriers to the use of RFID technology for construction project delivery.
[1] F. Rangelova, “Fundamentals of economics in sustainable construction”, Bultest Standard Ltd. Bulgaria, 2015.
[2] M. Ikuabe, A. Oke, “Contractors’ opportunism: construction professionals’ awareness of influencing factors” Journal of Engineering, Design and Technology, Vol. 17, No.1, pp. 102-114, 2019.
[3] Z. Mustapha, C. Aigbavboa, W. Thwala, “Small and Medium-Sized Enterprises Contractors’ Health and Safety Performance”, International Conference of Socio-economic Researchers, Johannesburg, South Africa, 2016.
[4] M. Sultan, S. Kajewski, “The Yemen construction industry: Readying the industry for the successful implementation of sustainability”, Proceedings of the International Conference on Smart and Sustainable Built Environment, Brisbane, Australia, 19–21 November, 2013.
[5] D. Aghimien, C. Aigbavboa, A. Oke A. “Digitalisation for effective construction project delivery in South Africa”, Proceedings of the contemporary construction conference: Innovative and dynamic built environment. Coventry, United Kingdom, 5 – 6 July, 2018
[6] CIDB., Construction quality in South Africa; A client perspective. 2011. Retrieved on 7th September, 2021 from http://www.cidb.org.za/publications/Documents/Construction%20Quality%20in%20South%20Africa%20-%20A%20Client%20Perspective.pdf
[7] M. Ikuabe, D. Aghimien, C. Aigbavboa, A, Oke, “Exploring the adoption of digital technology at the different phases of construction projects in South Africa”, Proceedings of the International Conference on Industrial Engineering and Operations Management, Dubai, UAE, March pp. 10-12, 2020.
[8] K. Simu, “How Digitalization Will Change the Construction Industry”, 2016. (online) TechniaTranscat. Available at: https://www.techniatranscat.com/blog/how-digitalization-will-change-the-construction-industry (Accessed 23 Aug. 2021).
[9] M. Kamara, C. Anumba, O. Evbuomwan, “Process Model for Client requirements processing in construction”, Business Process Management Journal, Vol. 6, No. 3, pp. 251-279, 2000.
[10] McKinsey Global Institute., “A route to higher productivity. Reinventing construction”, 2017. (online) mckinsey & company. Available at: https://www.mckinsey.com/~/media/McKinsey/Industries/Capital%20Projects%20and%20Infrastructure/Our%20Insights/Reinventing%20construction%20through%20a%20productivity%20revolution/MGI-Reinventing-construction-A-route-to-higher-productivity-Full-report.ashx (Accessed 20 August. 2019).
[11] M. Sutton, “Digitization of construction sector worth $1.7 trillion” - ITP.net. 2018. (online) ITP.net. Available at: http://www.itp.net/617479-digitization-of-construction-sector-worth-$17-trillion (Accessed 23 Aug. 2021).
[12] K. Hampson, J. Kraatz, A. Sanchez, “R&D Investment and Impact in the global construction industry”, Abingdon, Oxford: Routlege, 2014.
[13] M. Roberi, “The History of RFID Technology”, RFID journal. 2005. Accessed 28 August 2021 http://www.rfidjournal.com/articles/view?1338/
[14] R. Wing, “RFID Applications in Construction and Facilities Management.” ITcon, Vol. 11, pp. 711-721, 2006.
[15] E. Valero, A. Adan, C. Cerreda, “Evolution of RFID Applications in Construction: A Literature Review”, Sensors, Vol. 15: pp. 15988-16008, 2015.
[16] N. Li, B. Becerik-Gerber, “Life-Cycle Approach for Implementing RFID Technology in Construction: Learning from Academic and Industry Use Cases”, Journal of Construction and Engineering Management, Vol. 137, pp. 1089-1098, 2011.
[17] A. Ghorbel, M. Ghorbel, M. Jmaiel, “Privacy in cloud computing environments: a survey and research challenges”, The Journal of Supercomputing, Vol. 73 No. 6, pp.2763-2800, 2017.
[18] R. Want, “The Magic of RFID: Just how do those little things work anyway?”, Queue, Vol. 2 No. 7, pp.40-48, 2004.
[19] W. Lu, G. Huang, H. Li, “Scenarios for applying RFID technology in construction project management”, Automation in Construction, Vol. 20 No. 2, pp. 101-106, 2011.
[20] N. Kasim, A. Latiffil, M. Fathi, “RFID Technology for Materials Management in Construction Projects – A Review”, International Journal of Construction Engineering and Management, Vol. 2 No. 4, pp. 7-12, 2013.
[21] A. Jung, J. Lee. “A systematic review of RFID applications and diffusion: key areas and public policy issues”, Journal of Open Innovation: Technology, Market, and Complexity, Vol. 1, No. 9, 2015.
[22] S. Chae, T. Yoshida, “Application of RFID technology to prevention of collision accident with heavy equipment”, Automation in Construction, Vol. 19 No. 3, pp. 368-374, 2010.
[23] G. Avoine, I. Coisel, T. Martin, “Time measurement threatens privacy-friendly RFID authentication protocols”, In International workshop on radio frequency identification: Security and privacy issues, pp. 138-157, Springer, Berlin, Heidelberg, 2010.
[24] D. Owunwanne, “Radio Frequency Identification (RFID) technology: gaining a competitive value through cloud computing”, International Journal of Management & Information Systems (IJMIS), Vol. 20 No. 2, pp. 37-44, 2016.
[25] T. Osunsami, A. Oke, C. Aigbavboa, “Fusing RFID with Mobile technology for Enhanced Safety of Construction Project Team Members”, Proceedings of the International Conference on Industrial Engineering and Operations Management Pretoria / Johannesburg, South Arica, October 29 – November 1, 2018.
[26] A. Borhani, “Individual and organizational factors influencing technology adoption for construction safety”, Master’s dissertation submitted to University of Washington, 2016.
[27] P. Tan, “Towards a culturally sensitive and deeper understanding of “rote learning” and memorization of adult learners”, Journal of Studies in International Education, Vol. 15 No. 2, pp. 124–145, 2011.
[28] M. Tavakol, R. Dennick, “Making sense of Cronbach’s Alpha”, International Journal of Medical Education, Vol. 2, pp. 53-55, 2011.
[29] J. Pallant, “SPSS survival manual: A step-by-step guide to data analysis using SPSS for Windows (Version 12)”, Crow’s Nest: Allen & Unwin, 2005.
[1] F. Rangelova, “Fundamentals of economics in sustainable construction”, Bultest Standard Ltd. Bulgaria, 2015.
[2] M. Ikuabe, A. Oke, “Contractors’ opportunism: construction professionals’ awareness of influencing factors” Journal of Engineering, Design and Technology, Vol. 17, No.1, pp. 102-114, 2019.
[3] Z. Mustapha, C. Aigbavboa, W. Thwala, “Small and Medium-Sized Enterprises Contractors’ Health and Safety Performance”, International Conference of Socio-economic Researchers, Johannesburg, South Africa, 2016.
[4] M. Sultan, S. Kajewski, “The Yemen construction industry: Readying the industry for the successful implementation of sustainability”, Proceedings of the International Conference on Smart and Sustainable Built Environment, Brisbane, Australia, 19–21 November, 2013.
[5] D. Aghimien, C. Aigbavboa, A. Oke A. “Digitalisation for effective construction project delivery in South Africa”, Proceedings of the contemporary construction conference: Innovative and dynamic built environment. Coventry, United Kingdom, 5 – 6 July, 2018
[6] CIDB., Construction quality in South Africa; A client perspective. 2011. Retrieved on 7th September, 2021 from http://www.cidb.org.za/publications/Documents/Construction%20Quality%20in%20South%20Africa%20-%20A%20Client%20Perspective.pdf
[7] M. Ikuabe, D. Aghimien, C. Aigbavboa, A, Oke, “Exploring the adoption of digital technology at the different phases of construction projects in South Africa”, Proceedings of the International Conference on Industrial Engineering and Operations Management, Dubai, UAE, March pp. 10-12, 2020.
[8] K. Simu, “How Digitalization Will Change the Construction Industry”, 2016. (online) TechniaTranscat. Available at: https://www.techniatranscat.com/blog/how-digitalization-will-change-the-construction-industry (Accessed 23 Aug. 2021).
[9] M. Kamara, C. Anumba, O. Evbuomwan, “Process Model for Client requirements processing in construction”, Business Process Management Journal, Vol. 6, No. 3, pp. 251-279, 2000.
[10] McKinsey Global Institute., “A route to higher productivity. Reinventing construction”, 2017. (online) mckinsey & company. Available at: https://www.mckinsey.com/~/media/McKinsey/Industries/Capital%20Projects%20and%20Infrastructure/Our%20Insights/Reinventing%20construction%20through%20a%20productivity%20revolution/MGI-Reinventing-construction-A-route-to-higher-productivity-Full-report.ashx (Accessed 20 August. 2019).
[11] M. Sutton, “Digitization of construction sector worth $1.7 trillion” - ITP.net. 2018. (online) ITP.net. Available at: http://www.itp.net/617479-digitization-of-construction-sector-worth-$17-trillion (Accessed 23 Aug. 2021).
[12] K. Hampson, J. Kraatz, A. Sanchez, “R&D Investment and Impact in the global construction industry”, Abingdon, Oxford: Routlege, 2014.
[13] M. Roberi, “The History of RFID Technology”, RFID journal. 2005. Accessed 28 August 2021 http://www.rfidjournal.com/articles/view?1338/
[14] R. Wing, “RFID Applications in Construction and Facilities Management.” ITcon, Vol. 11, pp. 711-721, 2006.
[15] E. Valero, A. Adan, C. Cerreda, “Evolution of RFID Applications in Construction: A Literature Review”, Sensors, Vol. 15: pp. 15988-16008, 2015.
[16] N. Li, B. Becerik-Gerber, “Life-Cycle Approach for Implementing RFID Technology in Construction: Learning from Academic and Industry Use Cases”, Journal of Construction and Engineering Management, Vol. 137, pp. 1089-1098, 2011.
[17] A. Ghorbel, M. Ghorbel, M. Jmaiel, “Privacy in cloud computing environments: a survey and research challenges”, The Journal of Supercomputing, Vol. 73 No. 6, pp.2763-2800, 2017.
[18] R. Want, “The Magic of RFID: Just how do those little things work anyway?”, Queue, Vol. 2 No. 7, pp.40-48, 2004.
[19] W. Lu, G. Huang, H. Li, “Scenarios for applying RFID technology in construction project management”, Automation in Construction, Vol. 20 No. 2, pp. 101-106, 2011.
[20] N. Kasim, A. Latiffil, M. Fathi, “RFID Technology for Materials Management in Construction Projects – A Review”, International Journal of Construction Engineering and Management, Vol. 2 No. 4, pp. 7-12, 2013.
[21] A. Jung, J. Lee. “A systematic review of RFID applications and diffusion: key areas and public policy issues”, Journal of Open Innovation: Technology, Market, and Complexity, Vol. 1, No. 9, 2015.
[22] S. Chae, T. Yoshida, “Application of RFID technology to prevention of collision accident with heavy equipment”, Automation in Construction, Vol. 19 No. 3, pp. 368-374, 2010.
[23] G. Avoine, I. Coisel, T. Martin, “Time measurement threatens privacy-friendly RFID authentication protocols”, In International workshop on radio frequency identification: Security and privacy issues, pp. 138-157, Springer, Berlin, Heidelberg, 2010.
[24] D. Owunwanne, “Radio Frequency Identification (RFID) technology: gaining a competitive value through cloud computing”, International Journal of Management & Information Systems (IJMIS), Vol. 20 No. 2, pp. 37-44, 2016.
[25] T. Osunsami, A. Oke, C. Aigbavboa, “Fusing RFID with Mobile technology for Enhanced Safety of Construction Project Team Members”, Proceedings of the International Conference on Industrial Engineering and Operations Management Pretoria / Johannesburg, South Arica, October 29 – November 1, 2018.
[26] A. Borhani, “Individual and organizational factors influencing technology adoption for construction safety”, Master’s dissertation submitted to University of Washington, 2016.
[27] P. Tan, “Towards a culturally sensitive and deeper understanding of “rote learning” and memorization of adult learners”, Journal of Studies in International Education, Vol. 15 No. 2, pp. 124–145, 2011.
[28] M. Tavakol, R. Dennick, “Making sense of Cronbach’s Alpha”, International Journal of Medical Education, Vol. 2, pp. 53-55, 2011.
[29] J. Pallant, “SPSS survival manual: A step-by-step guide to data analysis using SPSS for Windows (Version 12)”, Crow’s Nest: Allen & Unwin, 2005.
@article{"International Journal of Architectural, Civil and Construction Sciences:80838", author = "Matthew O. Ikuabe and Ayodeji E. Oke and Clinton O. Aigbavboa and Douglas O. Aghimien and Tshepo P. Mokori", title = "Abating the Barriers to the Deployment of Radio Frequency Identification for Construction Project Delivery in South Africa", abstract = "The use of technological innovations has been touted to be beneficial in the delivery of construction projects. Particularly, Radio Frequency Identification (RFID) technology is widely regarded to be of immense advantage for the management of construction projects. This study focused on evaluating the barriers to the use of RFID technology for the delivery of construction projects. Using Gauteng Province in South Africa as the study area, questionnaire was used in eliciting responses from construction professionals which made up the population of the study. Retrieved data were analyzed using Mean Item Score and One-Sample t-test. Findings from the study showed that the most significant barriers to the deployment of RFID for construction project delivery are high cost and lack of awareness. Conclusively, the study made recommendations that would aid in the abatement of the barriers to the use of RFID technology for construction project delivery.", keywords = "Barriers, construction, project delivery, RFID.", volume = "16", number = "6", pages = "160-4", }
