Preparing construction supply chains for blockchain technology: An investigation of its potential and future directions

Algan TEZEL, Eleni PAPADONIKOLAKI, Ibrahim YITMEN, Per HILLETOFTH

PDF(2823 KB)
PDF(2823 KB)
Front. Eng ›› 2020, Vol. 7 ›› Issue (4) : 547-563. DOI: 10.1007/s42524-020-0110-8
RESEARCH ARTICLE
RESEARCH ARTICLE

Preparing construction supply chains for blockchain technology: An investigation of its potential and future directions

Author information +
History +

Abstract

Blockchain, a peer-to-peer, controlled, distributed database structure, has the potential to profoundly affect current business transactions in the construction industry through smart contracts, cryptocurrencies, and reliable asset tracking. The construction industry is often criticized for being slow in embracing emerging techno-logies and not effectively diffusing them through its supply chains. Often, the extensive fragmentation, traditional procurement structures, destructive competition, lack of collaboration and transparency, low-profit margins, and human resources are shown as the main culprits for this. As blockchain technology makes its presence felt strongly in many other industries like finance and banking, this study investigates the preparation of construction supply chains for blockchain technology through an explorative analysis. Empirical data for the study were collected through semi-structured interviews with 17 subject experts. Alongside presenting a strengths, weaknesses, opportunities, and threats analysis (SWOT), the study exhibits the requirements for and steps toward a construction supply structure facilitated by blockchain technology.

Keywords

blockchain / smart contract / supply chain management / project management / construction

Cite this article

EndNote

Ris (Procite)

Bibtex

Download citation ▾
Algan TEZEL, Eleni PAPADONIKOLAKI, Ibrahim YITMEN, Per HILLETOFTH. Preparing construction supply chains for blockchain technology: An investigation of its potential and future directions. Front. Eng, 2020, 7(4): 547‒563 https://doi.org/10.1007/s42524-020-0110-8

References

Publishing order | Descend order by publishing year | Descend order by cited within
[1]
Ahmed V, Tezel A, Aziz Z, Sibley M (2017). The future of big data in facilities management: Opportunities and challenges. Facilities, 35(13/14): 725–745
CrossRef Google scholar
[2]
Andersen B (2007). Business Process Improvement Toolbox, 2nd ed. Milwaukee: American Society for Quality (ASQ) Quality Press
[3]
Arup (2019). Blockchain and the built environment. London: Arup. Available at: arup.com/perspectives/publications/research/section
[4]
Barima O (2017). Leveraging the blockchain technology to improve construction value delivery: The opportunities, benefits and challenges. Construction Projects, 93–112
[5]
Bashir I (2017). Mastering Blockchain. Birmingham: Packt Publishing Ltd.
[6]
Bocek T, Rodrigues B B, Strasser T, Stiller B (2017). Blockchains everywhere—A use-case of blockchains in the pharma supply-chain. In: International Symposium on Integrated Network Service Management. Lisbon: IFIP/IEEE, 772–777
[7]
BRE (2018). Blockchain—Feasibility and opportunity assessment. Report 1. UK: Building Research Establishment (BRE) Group
[8]
Casey M J, Wong P (2017). Global supply chains are about to get better, thanks to blockchain. Harvard Business Review, 13: 1–6
[9]
Cheng S, Zeng B, Huang Y Z (2017). Research on application model of blockchain technology in distributed electricity market. In: IOP Conference Series: Earth and Environmental Science. IOP Publishing, 93(1): 012065
[10]
Dainty A, Leiringer R, Fernie S, Harty C (2017). BIM and the small construction firm: A critical perspective. Building Research and Information, 45(6): 696–709
CrossRef Google scholar
[11]
Gambardella A, McGahan A M (2010). Business-model innovation: General purpose technologies and their implications for industry structure. Long Range Planning, 43(2–3): 262–271
CrossRef Google scholar
[12]
Gould R (2012). Creating the Strategy: Winning and Keeping Customers in B2B Markets, 1st ed. London: Kogan Page Publishers
[13]
Graphic A (2016). Blockchain applications for smart infrastructure and construction. Available at: bitcointalk.org/index.php?topic=1348970.0
[14]
Hackius N, Petersen M (2017). Blockchain in logistics and supply chain: Trick or treat? In: Digitalization in Supply Chain Management and Logistics: Smart and Digital Solutions for an Industry 4.0 Environment. Proceedings of the Hamburg International Conference of Logistics (HICL). Berlin: epubli GmbH, 23: 3–18
[15]
Hamida B E, Brousmiche K L, Levard H, Thea E (2017). Blockchain for enterprise: Overview, opportunities and challenges. In: The 13th International Conference on Wireless and Mobile Communications. Nice, 83–88
[16]
Heiskanen A (2017). The technology of trust: How the internet of things and blockchain could usher in a new era of construction productivity. Construction Research and Innovation, 8(2): 66–70
CrossRef Google scholar
[17]
Hofmann E, Rüsch M (2017). Industry 4.0 and the current status as well as future prospects on logistics. Computers in Industry, 89: 23–34
CrossRef Google scholar
[18]
Hultgren M, Pajala F (2018). Blockchain technology in construction industry transparency and traceability in supply chain technology. Thesis Department of Real Estate and Construction Management, Royal Institute of Technology
[19]
Jacobsson M, Linderoth H C J, Rowlinson S (2017). The role of industry: An analytical framework to understand ICT transformation within the AEC industry. Construction Management and Economics, 35(10): 611–626
CrossRef Google scholar
[20]
Karafiloski E, Mishev A (2017). Blockchain solutions for big data challenges: A literature review. In: 17th International Conference on Smart Technologies. Ohrid: IEEE, 763–768
[21]
Khosrowshahi F, Arayici Y (2012). Roadmap for implementation of BIM in the UK construction industry. Engineering, Construction, and Architectural Management, 19(6): 610–635
CrossRef Google scholar
[22]
Kinnaird C, Geipel M (2017). Blockchain technology: How the inventions behind Bitcoin are enabling a network of trust for the built environment. London: Arup. Available at: arup.com/perspectives/publications/research/section
[23]
Klinc R, Dolenc M, Turk Z (2017). Role of blockchain in BIM systems. In: The 3rd International Conference on Civil and Building Engineering Informatics in conjunction with 2017 Conference on Computer Applications in Civil and Hydraulic Engineering. Taipei, 87–90
[24]
Korpela K, Hallikas J, Dahlberg T (2017). Digital supply chain transformation toward blockchain integration. In: Proceedings of the 50th Hawaii International Conference on System Sciences, 4182–4191
[25]
Koutsogiannis A, Berntsen N (2017). Blockchain and construction: The how, why and when. Available at: constructionmanagermagazine.com/technology
[26]
Kshetri N (2017). Will blockchain emerge as a tool to break the poverty chain in the global south? Third World Quarterly, 38(8): 1710–1732
CrossRef Google scholar
[27]
Kshetri N (2018). Blockchain’s roles in meeting key supply chain management objectives. International Journal of Information Management, 39: 80–89
CrossRef Google scholar
[28]
Kypriotaki K, Zamani E, Giaglis G (2015). From Bitcoin to decentralized autonomous corporations—Extending the application scope of decentralized peer-to-peer networks and blockchains. In: Proceedings of the 17th International Conference on Enterprise Information Systems. Science and Technology Publications, 284–290
[29]
Lavikka R, Kallio J, Casey T, Airaksinen M (2018). Digital disruption of the AEC industry: Technology-oriented scenarios for possible future development paths. Construction Management and Economics, 36(11): 635–650
CrossRef Google scholar
[30]
Levine M (2017). Cargo blockchains and deutsche bank. Available at: bloomberg.com/opinion/articles/2017-03-06
[31]
Li J, Greenwood D, Kassem M (2018a). Blockchain in the construction sector: A Socio-technical systems framework for the construction industry. In: Advances in Informatics and Computing in Civil and Construction Engineering. Proceedings of the 35th CIB W78 2018 Conference: IT in Design, Construction, and Management. Chicago, IL: Springer, 51–57
[32]
Li J, Greenwood D, Kassem M (2018b). Blockchain in the built environment: Analyzing current applications and developing an emergent framework. In: Creative Construction Conference. Ljubljana: Diamond Congress Ltd.
[33]
Li J, Greenwood D J, Kassem M (2019a). Blockchain in the built environment and construction industry: A systematic review, conceptual models and practical use cases. Automation in Construction, 102: 288–307
CrossRef Google scholar
[34]
Li J, Kassem M (2019) Informing implementation of distributed ledger technology (DLT) in construction: Interviews with industry and academia. In: Advances in ICT in Design, Construction and Management in Architecture, Engineering, Construction and Operations (AECO). Proceedings of the 36th CIB W78 2019 Conference. Newcastle: Northumbria University, 169–178
[35]
Li J, Kassem M, Ciribini A L C, Bolpagni M (2019b). A proposed approach integrating DLT, BIM, IOT and smart contracts: Demonstration using a simulated installation task. In: International Conference on Smart Infrastructure and Construction: Driving Data-Informed Decision-Making. Cambridge: ICE Publishing, 275–282
[36]
Linderoth H C J (2017). From visions to practice—The role of sensemaking, institutional logic and pragmatic practice. Construction Management and Economics, 35(6): 324–337
CrossRef Google scholar
[37]
Lohry M, Bodell B (2015). Blockchain enabled co-housing. Available at: medium.com/@MatthewLohry
[38]
Mathews M, Robles D, Bowe B (2017). BIM+ blockchain: A solution to the trust problem in collaboration? In: CITA BIM Gathering 2017, Dublin
[39]
Matthews J, Love P E, Heinemann S, Chandler R, Rumsey C, Olatunj O (2015). Real time progress management: Re-engineering processes for cloud-based BIM in construction. Automation in Construction, 58: 38–47
CrossRef Google scholar
[40]
Maxwell J A, Mittapalli K (2010). Realism as a stance for mixed methods research. In: Tashakkori A, Teddlie C, eds. Handbook of Mixed Methods in Social & Behavioral Research. London: Sage Publications, 145–168
[41]
Miettinen R, Paavola S (2014). Beyond the BIM utopia: Approaches to the development and implementation of building information modeling. Automation in Construction, 43: 84–91
CrossRef Google scholar
[42]
Mulligan C, Scott J Z, Warren S, Rangaswami J P (2018). Blockchain beyond the hype: A practical framework for business leaders. White Paper of the World Economic Forum
[43]
Nakamoto S (2008). Bitcoin: A peer-to-peer electronic cash system. Available at: bitcoin.org/en/bitcoin-paper
[44]
Penzes B (2018). Blockchain technology in the construction industry: Digital transformation for high productivity. Institute of Civil Engineers Report
[45]
Qian X, Papadonikolaki E (2019). The influence of the blockchain technology on trust in construction supply chain management. In: Advances in ICT in Design, Construction and Management in Architecture, Engineering, Construction and Operations (AECO). Proceedings of the 36th CIB W78 2019 Conference. Newcastle: Northumbria University, 179–188
[46]
Queiroz M, Telles R, Bonilla S (2019). Blockchain and supply chain management integration: A systematic review of the literature. Supply Chain Management, 25(2): 241–254
CrossRef Google scholar
[47]
Renz A, Solas M Z, Almeida P R, Buhler M, Gerbert P, Castagnino S, Rothballer C (2016). Shaping the future of construction: A breakthrough in mindset and technology. In: World Economic Forum (with The Boston Consulting Group), vol. 7. Geneva
[48]
Risius M, Spohrer K (2017). A blockchain research framework: What we (don’t) know, where we go from here, and how we will get there. Business & Information Systems Engineering, 59(6): 385–409
CrossRef Google scholar
[49]
Saberi S, Kouhizadeh M, Sarkis J, Shen L (2019). Blockchain technology and its relationships to sustainable supply chain management. International Journal of Production Research, 57(7): 2117–2135
CrossRef Google scholar
[50]
Sadeghi A R, Wachsmann C, Waidner M (2015). Security and privacy challenges in industrial Internet of Things. In: 52nd ACM/EDAC/IEEE Design Automation Conference. San Francisco, 1–6
[51]
Saldaña J (2009). The Coding Manual for Qualitative Researchers. London: Sage Publications
[52]
Salmon J L (2015). Ethereum to host future BIM applications? Available at: collaborativeconstruction.blogspot.com/2015/07
[53]
Schober K S, Hoff P (2016). Digitization in the construction industry—Building Europe’s road to “Construction 4.0”. Think Act. Munich: Roland Berger Gmbh, Civil Economics, Energy & Infrastructure Competence Center
[54]
Shannon-Baker P (2016). Making paradigms meaningful in mixed methods research. Journal of Mixed Methods Research, 10(4): 319–334
CrossRef Google scholar
[55]
Steiner J, Baker J (2015). Blockchain: The solution for transparency in product supply chains. Available at: provenance.org/whitepaper
[56]
Sulkowski A J (2019). Blockchain, business supply chains, sustainability, and law: The future of governance, legal frameworks, and lawyers. Delaware Journal of Corporate Law, 43(2): 303–345
[57]
Sun J, Yan J, Zhang K Z K (2016). Blockchain-based sharing services: What blockchain technology can contribute to smart cities. Financial Innovation, 2(1): 26
CrossRef Google scholar
[58]
Swan M (2015). Blokchain: Blueprint for a New Economy. Sebastopol: O’Reilly Media Inc.
[59]
Tapscott D, Tapscott A (2017). How blockchain will change organizations. MIT Sloan Management Review, 58(2): 10–13
[60]
Tapscott D, Vargas R V (2019). How blockchain will change construction. Harvard Business Review—Technology
[61]
Turk Ž, Klinc R (2017). Potentials of blockchain technology for construction management. Procedia engineering, 196: 638–645
[62]
Underwood S (2016). Blockchain beyond Bitcoin. Communications of the ACM, 59(11): 15–17
CrossRef Google scholar
[63]
Wang J, Wu P, Wang X, Shou W (2017). The outlook of blockchain technology for construction engineering management. Frontiers of Engineering Management, 4(1): 67–75
CrossRef Google scholar
[64]
Wüst K, Gervais A (2018). Do you need a blockchain? In: 2018 Crypto Valley Conference on Blockchain Technology (CVCBT). IEEE, 45–54
[65]
Zamani E D, Giaglis G M (2018). With a little help from the miners: Distributed ledger technology and market disintermediation. Industrial Management & Data Systems, 118(3): 637–652
[66]
Zhang Y, Wen J T (2017). The IoT electric business model: Using blockchain technology for the Internet of Things. Peer-to-Peer Networking and Applications, 10(4): 983–994
CrossRef Google scholar
[67]
Zheng Z, Xie S, Dai H, Chen X, Wang H (2017). An overview of Blockchain technology: Architecture, consensus, and future trends. In: Proceedings of 6th International Congress on Big Data. IEEE, 557–564

Open Access

This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made.
The images or other third party material in this article are included in the article’s Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by/4.0/.

RIGHTS & PERMISSIONS

2020 The Author(s) 2020. This article is published with open access at link.springer.com and journal.hep.com.cn
AI Summary AI Mindmap
PDF(2823 KB)

Accesses

Citations

Detail
Sections
Recommended

/