Advanced search
Publication Cover
International Journal of Construction Management Volume 23, 2023 - Issue 14
Submit an article Journal homepage
583
Views
2
CrossRef citations to date
0
Altmetric
Articles

RFID platform for construction materials management

Safa Dardouria Laboratoire de Mécanique Multiphysique Multiéchelle, LaMcube, UMR 9013, Centrale Lille, CNRS, Université de Lille, Lille, France
,
Samer BuHamdana Laboratoire de Mécanique Multiphysique Multiéchelle, LaMcube, UMR 9013, Centrale Lille, CNRS, Université de Lille, Lille, France
,
Wassim Al Balkhya Laboratoire de Mécanique Multiphysique Multiéchelle, LaMcube, UMR 9013, Centrale Lille, CNRS, Université de Lille, Lille, FranceCorrespondence[email protected]
,
Zakaria Dakhlib Department of Engineering, Institute for Manufacturing, University of Cambridge, Cambridge, UK
,
Thomas Danela Laboratoire de Mécanique Multiphysique Multiéchelle, LaMcube, UMR 9013, Centrale Lille, CNRS, Université de Lille, Lille, France
&
Zoubeir Lafhaja Laboratoire de Mécanique Multiphysique Multiéchelle, LaMcube, UMR 9013, Centrale Lille, CNRS, Université de Lille, Lille, France
Pages 2509-2519 | Published online: 06 May 2022

References

  • A Comparison of Popular Arduino Boards | Arduino | Maker Pro. n.d. [accessed 2021 Jun 16]. https://maker.pro/arduino/tutorial/a-comparison-of-popular-arduino-boards.
  • Abas M, Khattak SB, Habib T, Nadir U. 2020. Assessment of critical risk and success factors in construction supply chain: a case of Pakistan. Int J Constr Manage. DOI: 10.1080/15623599.2020.1783597.
  • Abdyaseer Kadhum A, Mohammed Abdulhussein M. 2021. Implementation dc motor as servomotor by using Arduino and optical rotary encoder. Mater Today. 49(8):1–5.
  • Ahmed KB, Kumar D. 2019. Intelligent transportation system using RFID to reduce congestion, ambulance priority and stolen vehicle tracking. 2019 4th International Conference on Information Systems and Computer Networks, ISCON 2019; Mathura, UP, India. p. 84–87.
  • Akter R, Khandaker MJH, Ahmed S, Mugdho MM, Haque AKMB. 2020. RFID based smart transportation system with android application. 2nd International Conference on Innovative Mechanisms for Industry Applications, ICIMIA 2020 – Conference Proceedings; Bangalore, India. p. 614–619.
  • Al Balkhy W, Sweis R, Lafhaj Z. 2021. Barriers to adopting lean construction in the construction industry – the case of Jordan. Buildings. 11(6):222.
  • Alvarez-Narciandi G, Laviada J, Pino MR, Las-Heras F. 2018. Phase acquisition techniques for RFID multistatic setups. Sensors Actuators, A Phys. 270:97–107.
  • Anak Rechie RM, Kassim M, Ya’Acob N, Mohamad R. 2020. RFID monitoring system and management on deer husbandry. IOP Conf Ser Earth Environ Sci. 540(1):012072.
  • Andrade L, Figueiredo J, Tlemçani M. 2021. A new RFID‐identification strategy applied to the marble extraction industry. Electronics (Switzerland). 10(4):491–416.
  • Azmi N, Kamarudin LM, Zakaria A, Ndzi DL, Rahiman MHF, Zakaria SMMS, Mohamed L. 2021. RF-based moisture content determination in rice using machine learning techniques. Sensors. 21(5):1875–1820.
  • Björk A, Erlandsson M, Häkli J, Jaakkola K, Nilsson Å, Nummila K, Puntanen V, Sirkka A. 2011. Monitoring environmental performance of the forestry supply chain using RFID. Comput Ind. 62(8-9):830–841.
  • Borgese M, Dicandia FA, Costa F, Genovesi S, Manara G. 2017. An inkjet printed chipless RFID sensor for wireless humidity monitoring. IEEE Sensors J. 17(15):4699–4707.
  • Cai H, Andoh AR, Su X, Li S. 2014. A boundary condition based algorithm for locating construction site objects using RFID and GPS. Adv Eng Inf. 28(4):455–468.
  • Caizzone S, DiGiampaolo E. 2015. Wireless passive RFID crack width sensor for structural health monitoring. IEEE Sensors J. 15(12):6767–6774.
  • Caldas CH, Menches CL, Reyes PM, Navarro L, Vargas DM. 2015. Materials management practices in the construction industry. Pract Period Struct Des Constr. 20(3):04014039.
  • Centea D, Singh I, Boer J. 2020. RFID in manufacturing: an implementation case in the SEPT learning factory. Procedia Manuf. 51:543–548.
  • Chae MJ, Yun S, Han SH, Kwon SW. 2010. A case study for integrating lean six-sigma and RFID applications in construction processes through simulation approach. Construction Research Congress 2010: Innovation for Reshaping Construction Practice – Proceedings of the 2010 Construction Research Congress; Banff, Alberta, Canada. p. 246–256.
  • Chae S, Kano N. 2005. A location system with RFID technology in building construction site. 22nd International Symposium on Automation and Robotics in Construction, ISARC 2005; Ferrara, Italy.
  • Chen Q, Adey BT, Haas C, Hall DM. 2020. Using look-ahead plans to improve material flow processes on construction projects when using BIM and RFID technologies. CI. 20(3):471–508.
  • Chien YR, Chen YX. 2018. An RFID-based smart nest box: an experimental study of laying performance and behavior of individual hens. Sensors. 18(3):859.
  • Chin S, Yoon S, Choi C, Cho C. 2008. RFID + 4D CAD for progress management of structural steel works in high-rise buildings. J Comput Civ Eng. 22(2):74–89.
  • Choi SH, Yang YX, Yang B, Cheung HH. 2015. Item-level RFID for enhancement of customer shopping experience in apparel retail. Comput Ind. 71:10–23.
  • Chung WWS, Tariq S, Mohandes SR, Zayed T. 2020. IoT-based application for construction site safety monitoring. Int J Constr Manage. DOI: 10.1080/15623599.2020.1847405.
  • Chung YW. 2012. Modeling and performance analysis of movement-based group location management using RFID sensing in public transportation systems. Sensors (Basel). 12(12):16077–16098.
  • Dakhli Z, Lafhaj Z. 2017. Efficient logistics enabled by smart solutions in tunneling. Underground Space. 2(4):227–233.
  • Danel T, Lafhaj Z, Puppala A, Lienard S, Richard P. 2021. Proposal for tower crane productivity indicators based on data analysis in the era of construction 4.0. Buildings. 11(1):21.
  • Dave B, Kubler S, Främling K, Koskela L. 2016. Opportunities for enhanced lean construction management using Internet of Things standards. Autom Constr. 61:86–97.
  • Demiralp G, Guven G, Ergen E. 2012. Analyzing the benefits of RFID technology for cost sharing in construction supply chains: a case study on prefabricated precast components. Autom Constr. 24:120–129.
  • Dewangga P, Suhono S. 2020, November 19. Internet of Things in the field of smart farming: benefits and challenges. 7th International Conference on ICT for Smart Society: AIoT for Smart Society, ICISS 2020 – Proceeding; Bandung, Indonesia.
  • Domdouzis K, Kumar B, Anumba C. 2007. Radio-Frequency Identification (RFID) applications: a brief introduction. Adv Eng Inf. 21(4):350–355.
  • Ekanayake EMAC, Shen GQP, Kumaraswamy MM, Owusu EK. 2020. Identifying supply chain vulnerabilities in industrialized construction: an overview. Int J Constr Manage. DOI: 10.1080/15623599.2020.1728487.
  • Eom KH, Hyun KH, Lin S, Kim JW. 2014. The meat freshness monitoring system using the smart RFID tag. Int J Distrib Sensor Netw. 10(7):591812.
  • ERABUILD. 2006. Review of the current state of Radio Frequency Identification (RFID) technology, its use and potential future use in construction. RFID In Construction, July.
  • Ergen E, Akinci B, East B, Kirby J. 2007. Tracking components and maintenance history within a facility utilizing radio frequency identification technology. J Comput Civ Eng. 21(1):11–20.
  • Fadzir TMAM, Mansor H, Gunawan TS, Janin Z. 2019, April 11. Development of school bus security system based on RFID and GSM technologies for Klang Valley Area. 2018 IEEE 5th International Conference on Smart Instrumentation, Measurement and Application, ICSIMA 2018; Songkla, Thailand.
  • Floyd RE. 2015. RFID in transportation. IEEE Potentials. 34(5):19–21.
  • Gaba A, Panwar A, Singh R, Gehlot A, Garg V. 2018. An approach to monitor construction site based on radio frequency identification and Internet of Things. Adv Intell Syst Comput. 624:1629–1639.
  • Goodrum PM, McLaren MA, Durfee A. 2006. The application of active radio frequency identification technology for tool tracking on construction job sites. Autom Constr. 15(3):292–302.
  • Grau D, Zeng L, Xiao Y. 2012. Automatically tracking engineered components through shipping and receiving processes with passive identification technologies. Autom Constr. 28:36–44.
  • Haddara M, Staaby A. 2018. RFID applications and adoptions in healthcare: a review on patient safety. Procedia Comput Sci. 138:80–88.
  • Huang RY, Tsai TY. 2011. Development of an RFID system for tracking construction residual soil in Taiwan. Proceedings of the 28th International Symposium on Automation and Robotics in Construction, ISARC 2011; Seoul, Korea. p. 935–940.
  • Ibn-Homaid NT. 2002. A comparative evaluation of construction and manufacturing materials management. Int J Project Manage. 20(4):263–270.
  • Iturralde D, Peralta P, Cabrera A, Delgado G. 2020. Performance analysis of radio frequency identification technology in race timing systems. Communications in Computer and Information Science, 1195 CCIS, First International Conference, ICAT 2019; Quito, Ecuador. 104–112.
  • Jahan A, Edwards KL, Bahraminasab M. 2016. Materials selection in the context of design problem-solving. In: Jahan A, Edwards KL, Bahraminasab M, editors. Multi-criteria decision analysis for supporting the selection of engineering materials in product design. Amsterdam: Elsevier; p. 25–40.
  • Jankowski-Mihułowicz P, Węglarski M. 2015. Interrogation zone determination in HF RFID systems with multiplexed antennas. Archiv Electr Eng. 64(3):459–470.
  • Jaselskis EJ, Anderson MR, Jahren CT, Rodriguez Y, Njos S. 1995. Radio-frequency identification applications in construction industry. J Constr Eng Manage. 121(2):189–196.
  • Kaneko T, Hamada K, Kondo T. 2007. Development of construction logistics system using radio frequency identification. Automation and Robotics in Construction – Proceedings of the 24th International Symposium on Automation and Robotics in Construction; Madras, India. p. 55–62.
  • Kaur M, Sandhu M, Mohan N, Sandhu PS. 2011. RFID technology principles, advantages, limitations & its applications. IJCEE. 3(1):151–157.
  • Kim C, Ju Y, Kim H, Kim JH. 2009. Resource management in civil construction using RFID technologies. 2009 26th International Symposium on Automation and Robotics in Construction, ISARC 2009; Austin, Texas. p. 105–108.
  • Kishan Kondaveeti H, Kumar Kumaravelu N, Dayal Vanambathina S, Ellison Mathe S, Vappangi S. 2021. A systematic literature review on prototyping with Arduino: applications, challenges, advantages, and limitations. Comput Sci Rev. 40:100364.
  • Ko HS, Azambuja M, Felix Lee H. 2016. Cloud-based materials tracking system prototype integrated with radio frequency identification tagging technology. Autom Constr. 63:144–154.
  • Kolaja J, Ehlerova JK. 2019. Effectivity of sports timing RFID system, field study. 2019 IEEE International Conference on RFID Technology and Applications, RFID-TA 2019; Pisa, Italy. p. 220–223.
  • Lalitha P, Kumari S. 2021. RFID technology in health-IoT. In: Balas VE, Pal S, editors. Healthcare paradigms in the Internet of Things ecosystem. London, UK: Elsevier; p. 223–250.
  • Landaluce H, Arjona L, Perallos A, Falcone F, Angulo I, Muralter F. 2020. A review of IoT sensing applications and challenges using RFID and wireless sensor networks. Sensors. 20(9):2495.
  • Lee D, Lee S. 2021. Digital twin for supply chain coordination in modular construction. Appl Sci. 11(13):5909.
  • Lee H-S, Lee K-P, Park M, Baek Y, Lee S. 2012. RFID-based real-time locating system for construction safety management. J Comput Civ Eng. 26(3):366–377.
  • Leon-Salas WD, Halmen C. 2016. A RFID sensor for corrosion monitoring in concrete. IEEE Sensors J. 16(1):32–42.
  • Li X, Shen GQ, Wu P, Fan H, Wu H, Teng Y. 2018. RBL-PHP: simulation of lean construction and information technologies for prefabrication housing production. J Manage Eng. 34(2):04017053.
  • Li X, Zhang J, Song J, Han X. 2019. Design of security management system based on RFID temporary grounding wire borrowing. Proceedings of 2019 IEEE 3rd Advanced Information Management, Communicates, Electronic and Automation Control Conference, IMCEC 2019; Chongqing, China. p. 832–836.
  • Liu Y, Yang Y, Wei J, Wang X. 2015. An examination on RFID innovation diffusions in Chinese public intelligent transportation services. IJMC. 13(5):549–566.
  • Lopez-Carmona MA, Marsa-Maestre I, de la Hoz E, Velasco JR. 2010. Using RFID to enhance security in off-site data storage. Sensors 10(9):8010–8027.
  • Lorite GS, Selkälä T, Sipola T, Palenzuela J, Jubete E, Viñuales A, Cabañero G, Grande HJ, Tuominen J, Uusitalo S, et al. 2017. Novel, smart and RFID assisted critical temperature indicator for supply chain monitoring. J Food Eng. 193:20–28.
  • Majrouhi SJ. 2012. Influence of RFID technology on automated management of construction materials and components. Sci Iran. 19(3):381–392.
  • Mansour H, Aminudin E, Mansour T. 2021. Implementing industry 4.0 in the construction industry- strategic readiness perspective. Int J Constr Manage. DOI: 10.1080/15623599.2021.1975351.
  • Mao J, Li B, Li Y, Wu X. 2011. An RFID-based outdoor advertising management system. 2011 IEEE International Conference on Cyber Technology in Automation, Control, and Intelligent Systems, p. 186–189.
  • Marindra AMJ, Tian GY. 2018. Chipless RFID sensor tag for metal crack detection and characterization. IEEE Trans Microwave Theory Technol. 66(5):2452–2462.
  • Martínez-Sala AS, Egea-López E, García-Sánchez F, García-Haro J. 2009. Tracking of returnable packaging and transport units with active RFID in the grocery supply chain. Comput Ind. 60(3):161–171.
  • Masohor SMAS, Bakar MZHA, Yamin WSAW, Wahab MHA, Ahmad MS, Ma’Radzi AA, Ibrahim TNT, Choon CC. 2020. Tracking system using RFID for hiking activity with IoT technology. J Phys Conf Ser. 1529(5):52030.
  • Mastronardi G, Tato SI. 2020, June 1. HoSè: Hospital security – how to make the surgical site safer using RFID blockchain and biometric techniques. IEEE Medical Measurements and Applications, MeMeA 2020 – Conference Proceedings; Bari, Italy.
  • McCarthy JF, Nguyen DH, Rashid AM, Soroczak S. 2002. Proactive displays & the experience UbiComp project. SIGGROUP Bull. 23(3):38–41.
  • Mehami J, Nawi M, Zhong RY. 2018. Smart automated guided vehicles for manufacturing in the context of Industry 4.0. Procedia Manuf. 26:1077–1086.
  • Mennecke B, Townsend A. 2005. Radio frequency identification tagging as a mechanism of creating a viable producer’s brand in the cattle industry. MATRIC Research Paper 05-MRP 8. [accessed 2022 May 3]. https://www.card.iastate.edu/products/publications/pdf/05mrp8.pdf.
  • Mohammed S, Alkeelani AH. 2019, July 1. Locker security system using keypad and RFID. Proceedings of 2019 International Conference of Computer Science and Renewable Energies, ICCSRE 2019; Agadir, Morocco.
  • Motamedi A, Hammad A. 2009. Lifecycle management of facilities components using radio frequency identification and building information model [2009-18]. J Inf Technol Constr. 14:238–262. https://www.itcon.org/paper/2009/18.
  • Moussaoui SE, Lafhaj Z, Leite F, Fléchard J, Linéatte B. 2021. Construction logistics centres proposing kitting service: organization analysis and cost mapping. Buildings. 11(3):105.
  • Nainan S, Parekh R, Shah T. 2013. RFID technology based attendance management system. Int J Comput Sci Issues. 10(1):516–521.
  • Oke AE, Arowoiya VA, Akomolafe OT. 2020. Influence of the Internet of Things’ application on construction project performance. Int J Constr Manage. DOI: 10.1080/15623599.2020.1807731.
  • Olivieri H, Seppänen O, Peltokorpi A. 2017. Real-time tracking of production control: requirements and solutions. IGLC 2017 – Proceedings of the 25th Annual Conference of the International Group for Lean Construction; Heraklion, Greece. p. 671–678.
  • Pichorim SF, Gomes NJ, Batchelor JC. 2018. Two solutions of soil moisture sensing with RFID for landslide monitoring. Sensors (Switzerland). 18(2):452.
  • Prakash Chandar S, Anal P, Ganapathyramasamy N. 2016. Developing of RFID automation technique in material management for various construction project. Int J Chem Sci. 14(S1):164–174. www.sadgurupublications.com.
  • Rayhana R, Xiao G, Liu Z. 2021. RFID sensing technologies for smart agriculture. IEEE Instrum Meas Mag. 24(3):50–60.
  • Razavi SN, Haas CT. 2011. Using reference RFID tags for calibrating the estimated locations of construction materials. Autom Constr. 20(6):677–685.
  • Sarkar D, Patel H, Dave B. 2020. Development of integrated cloud-based Internet of Things (IoT) platform for asset management of elevated metro rail projects. Int J Constr Manage. DOI: 10.1080/15623599.2020.1762035.
  • Sharma DK, Mahto RV, Harper C, Alqattan S. 2020. Role of RFID technologies in transportation projects: a review. IJTIP. 12(4):349–377.
  • Song J, Haas CT, Caldas CH. 2007. A proximity-based method for locating RFID tagged objects. Adv Eng Inf. 21(4):367–376.
  • Song J, Haas CT, Caldas C, Ergen E, Akinci B. 2006. Automating the task of tracking the delivery and receipt of fabricated pipe spools in industrial projects. Autom Constr. 15(2):166–177.
  • Sun CI, Chang KS, Huang JT. 2021. Rescue notification system with accurate location estimation for injuries in city Marathons. J Location Based Serv. 15(2):142–168.
  • Teizer J, Allread BS, Fullerton CE, Hinze J. 2010. Autonomous pro-active real-time construction worker and equipment operator proximity safety alert system. Autom Constr. 19(5):630–640.
  • Teizer J, Neve H, Li H, Wandahl S, König J, Ochner B, König M, Lerche J. 2020. Construction resource efficiency improvement by Long Range Wide Area Network tracking and monitoring. Autom Constr. 116:103245.
  • Ullah M, Sarkar B. 2020. Recovery-channel selection in a hybrid manufacturing-remanufacturing production model with RFID and product quality. Int J Prod Econ. 219:360–374.
  • Urso O, Chiacchio F, Compagno L, D’Urso D. 2020. An RFID application for the process mapping automation. Procedia Manuf. 42:8–15.
  • Valero E, Adán A, Cerrada C. 2015. Evolution of RFID applications in construction: a literature review. Sensors (Basel). 15(7):15988–16008.
  • Wickboldt AK, Piramuthu S. 2012. Patient safety through RFID: vulnerabilities in recently proposed grouping protocols. J Med Syst. 36(2):431–435.
  • Won D, Chi S, Park MW. 2020. UAV-RFID integration for construction resource localization. KSCE J Civ Eng. 24(6):1683–1695.
  • Wong KHM, Hui PCL, Chan ACK. 2006. Cryptography and authentication on RFID passive tags for apparel products. Comput Ind. 57(4):342–349.
  • Wu W, Yang H, Li Q, Chew D. 2013. An integrated information management model for proactive prevention of struck-by-falling-object accidents on construction sites. Autom Constr. 34:67–74.
  • Xiao Z, Tan X, Chen X, Chen S, Zhang Z, Zhang H, Wang J, Huang Y, Zhang P, Zheng L, et al. 2015. An implantable RFID sensor tag toward continuous glucose monitoring. IEEE J Biomed Health Inform. 19(3):910–919.
  • Yabuki N, Oyama T. 2007. Application of radio frequency identification technology for management of light weight temporary facility members. Congress on Computing in Civil Engineering, Proceedings, p. 697–704.
  • Yan Q. 2015. Research on fresh produce food cold chain logistics tracking system based on RFID. AJFST. 7(3):191–194.
  • Yang H, Chew DAS, Wu W, Zhou Z, Li Q. 2012. Design and implementation of an identification system in construction site safety for proactive accident prevention. Accid Anal Prev. 48:193–203.
  • Yin SYL, Tserng HP, Wang JC, Tsai SC. 2009. Developing a precast production management system using RFID technology. Autom Constr. 18(5):677–691.
  • Zacharewicz G, Deschamps JC, Francois J. 2011. Distributed simulation platform to design advanced RFID based freight transportation systems. Comput Ind. 62(6):597–612.
  • Zhang L, Atkins AS. 2015. A decision support application in tracking construction waste using rule-based reasoning and RFID technology. Int J Comput Intell Syst. 8(1):128–137.
  • Zhou J, Shi J. 2009. Performance evaluation of object localization based on active radio frequency identification technology. Comput Ind. 60(9):669–676.
  • Zhu X, Mukhopadhyay SK, Kurata H. 2012. A review of RFID technology and its managerial applications in different industries. J Eng Technol Manage. 29(1):152–167.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.