Blockchain-based smart contract for smart payment in construction: A focus on the payment freezing and disbursement cycle

Liupengfei WU, Weisheng LU, Jinying XU

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Front. Eng ›› 2022, Vol. 9 ›› Issue (2) : 177-195. DOI: 10.1007/s42524-021-0184-y
RESEARCH ARTICLE
RESEARCH ARTICLE

Blockchain-based smart contract for smart payment in construction: A focus on the payment freezing and disbursement cycle

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Abstract

Late payment, and indeed no payment, is a rampant and chronic problem that has plagued the global construction industry for too long. Recent development in blockchain technology, particularly its smart contract, seems to provide a new opportunity to improve this old problem. However, this opportunity is largely unexploited. This study aims to develop a blockchain-based smart contract (BBSC) system for smart payment in the construction industry by focusing on the fundamental cycle of payment freezing (sometimes also synonymously called payment guarantees) and disbursement application. Firstly, a BBSC framework, containing three processes of (a) initiation and configuration, (b) payment freezing, and (c) disbursement application, is developed. Next, based on the framework, the system architecture of the BBSC system, containing three layers of (1) Infrastructure as a Service (IaaS), (2) Blockchain as a Service (BaaS), and (3) Software as a Service (SaaS) is proposed and elabora-ted. Finally, based on the system architecture, a BBSC prototype system is developed using a real-life modular construction project as a case study. It was found that the prototype system can improve the certainty and efficiency of the progress payment, thereby enabling smart payment in construction transactions. Without advocating radical changes (e.g., the contractual relationships or the intermediate role of banks in modern construction projects), the prototype can be developed into a real-life BBSC system that can work compatibly with current advancements in the field. Future works are recommended to fine-tune the findings and translate and implement them in real-life applications.

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blockchain / construction project / smart contract / smart payment / payment dispute

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Liupengfei WU, Weisheng LU, Jinying XU. Blockchain-based smart contract for smart payment in construction: A focus on the payment freezing and disbursement cycle. Front. Eng, 2022, 9(2): 177‒195 https://doi.org/10.1007/s42524-021-0184-y

References

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[1]
Abdul-Rahman H, Takim R, Min W S (2009). Financial-related causes contributing to project delays. Journal of Retail & Leisure Property, 8(3): 225–238
CrossRef Google scholar
[2]
Ahmadisheykhsarmast S, Sonmez R (2020). A smart contract system for security of payment of construction contracts. Automation in Construction, 120: 103401
CrossRef Google scholar
[3]
Ansah S K (2011). Causes and effects of delayed payments by clients on construction projects in Ghana. Journal of Construction Project Management and Innovation, 1(1): 27–45
[4]
Badroldin M K A M, Hamid A R A, Raman S A, Zakaria R, Mohandes S R (2016). Late payment practices in the Malaysian construction industry. Malaysian Journal of Civil Engineering, 28(SI 3): 149–162
CrossRef Google scholar
[5]
Chong H Y, Diamantopoulos A (2020). Integrating advanced tech-nologies to uphold security of payment: Data flow diagram. Automation in Construction, 114: 103158
CrossRef Google scholar
[6]
Das M, Luo H, Cheng J C (2020a). Securing interim payments in construction projects through a blockchain-based framework. Automation in Construction, 118: 103284
CrossRef Google scholar
[7]
Das M, Tao X, Cheng J C (2020b). A secure and distributed construction document management system using blockchain. In: Proceedings of the 18th International Conference on Computing in Civil and Building Engineering. Cham: Springer, 850–862
[8]
Elghaish F, Abrishami S, Hosseini M R (2020). Integrated project delivery with blockchain: An automated financial system. Automation in Construction, 114: 103182
CrossRef Google scholar
[9]
Elghaish F A K (2020). An Automated IPD Cost Management System: BIM and Blockchain Based Solution. Dissertation for the Doctoral Degree. Portsmouth: University of Portsmouth
[10]
Fox S (2016). Why construction needs smart contracts. Available at: thenbs.com/knowledge/why-construction-needs-smart-contracts
[11]
Hamledari H, Fischer M (2021a). Construction payment automation using blockchain-enabled smart contracts and reality capture technologies. Automation in Construction, 132: 103926
CrossRef Google scholar
[12]
Hamledari H, Fischer M (2021b). Role of blockchain-enabled smart contracts in automating construction progress payments. Journal of Legal Affairs and Dispute Resolution in Engineering and Construction, 13(1): 04520038
CrossRef Google scholar
[13]
Hamledari H, Fischer M (2021c). The application of blockchain-based crypto assets for integrating the physical and financial supply chains in the construction & engineering industry. Automation in Construction, 127: 103711
CrossRef Google scholar
[14]
Hong Kong Development Bureau (HKDB) (2015). Proposed security of payment legislation for the construction industry. Available at: devb.gov.hk/filemanager/en/content_880/SOPL_Consultation_Document.pdf.
[15]
Hyperledger Fabric (2019). Using FabToken. Available at: fabric-documentations.readthedocs.io/en/latest/token/FabToken.html
[16]
Laryea S A (2010). Challenges and opportunities facing contractors in Ghana. In: West Africa Built Environment Research Conference. Accra, 215–226
[17]
Li X, Wu L, Zhao R, Lu W, Xue F (2021). Two-layer Adaptive Blockchain-based Supervision model for off-site modular housing production. Computers in Industry, 128: 103437
CrossRef Google scholar
[18]
Lu W, Li X, Xue F, Zhao R, Wu L, Yeh A G (2021a). Exploring smart construction objects as blockchain oracles in construction supply chain management. Automation in Construction, 129: 103816
CrossRef Google scholar
[19]
Lu W, Wu L, Zhao R (2021b). Rebuilding trust in the construction industry: A blockchain-based deployment framework. International Journal of Construction Management, in press, doi:10.1080/15623599.2021.1974683
[20]
Lu W, Wu L, Zhao R, Li X, Xue F (2021b). Blockchain technology for governmental supervision of construction work: Learning from digital currency electronic payment systems. Journal of Construction Engineering and Management, 147(10): 04021122
CrossRef Google scholar
[21]
Luo H, Das M, Wang J, Cheng C P (2019). Construction payment automation through smart contract-based blockchain framework. In: Proceedings of the 36th International Symposium on Automation and Robotics in Construction (ISARC). Banff: IAARC, 1254–1260
[22]
Moosavi J, Naeni L M, Fathollahi-Fard A M, Fiore U (2021). Blockchain in supply chain management: A review, bibliometric, and network analysis. Environmental Science and Pollution Research, in press, doi:10.1007/s11356-021-13094-3
Pubmed
[23]
Peters E, Subar K, Martin H (2019). Late payment and nonpayment within the construction industry: Causes, effects, and solutions. Journal of Legal Affairs and Dispute Resolution in Engineering and Construction, 11(3): 04519013
CrossRef Google scholar
[24]
Price R (2011). The problem of pay. Construction Research and Innovation, 2(2): 34–39
CrossRef Google scholar
[25]
Ramachandra T, Rotimi J O B (2015). Mitigating payment problems in the construction industry through analysis of construction payment disputes. Journal of Legal Affairs and Dispute Resolution in Engineering and Construction, 7(1): A4514005
CrossRef Google scholar
[26]
Sadeghi M, Mahmoudi A, Deng X (2021). Adopting distributed ledger technology for the sustainable construction industry: Evaluating the barriers using Ordinal Priority Approach. Environmental Science and Pollution Research, in press, doi:10.1007/s11356-021-16376-y
Pubmed
[27]
Salar A, Sönmez R (2018). Smart contracts in construction industry. In: Proceedings of the 5th International Project and Construction Management Conference (IPCMC). North Cyprus, 767–774
[28]
Sheng D, Ding L, Zhong B, Love P E, Luo H, Chen J (2020a). Construction quality information management with blockchains. Automation in Construction, 120: 103373
CrossRef Google scholar
[29]
Sheng D, Luo H, Zhong B (2020b). Formal modeling of smart contracts for quality acceptance in construction. In: Proceedings of the Creative Construction e-Conference. Budapest, 79–87
[30]
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
[31]
Wang Z, Wang T, Hu H, Gong J, Ren X, Xiao Q (2020). Blockchain-based framework for improving supply chain traceability and information sharing in precast construction. Automation in Construction, 111: 103063
CrossRef Google scholar
[32]
Wu J, Kumaraswamy M, Soo G (2008). Payment problems and regulatory responses in the construction industry. Journal of Professional Issues in Engineering Education and Practice, 134(4): 399–407
CrossRef Google scholar
[33]
Wu J, Kumaraswamy M M, Soo G (2011). Regulative measures addressing payment problems in the construction industry: A calculative understanding of their potential outcomes based on gametric models. Journal of Construction Engineering and Management, 137(8): 566–573
CrossRef Google scholar
[34]
Wu L, Lu W, Xue F, Li X, Zhao R, Tang M (2022). Linking permissioned blockchain to Internet of Things (IoT)-BIM platform for off-site production management in modular construction. Computers in Industry, 135: 103573
CrossRef Google scholar
[35]
Wunder S (2015). Revisiting the concept of payments for environmental services. Ecological Economics, 117: 234–243
CrossRef Google scholar
[36]
Xiang P, Zhou J, Zhou X, Ye K (2012). Construction project risk management based on the view of asymmetric information. Journal of Construction Engineering and Management, 138(11): 1303–1311
CrossRef Google scholar
[37]
Xue F, Lu W (2020). A semantic differential transaction approach to minimizing information redundancy for BIM and blockchain integration. Automation in Construction, 118: 103270
CrossRef Google scholar
[38]
Ye K M, Rahman H A (2010). Risk of late payment in the Malaysian construction industry. International Journal of Mechanical and Industrial Engineering, 4(5): 503–511
[39]
Zhang Z, Yuan Z, Ni G, Lin H, Lu Y (2020). The quality traceability system for prefabricated buildings using blockchain: An integrated framework. Frontiers of Engineering Management, 7(4): 528–546
CrossRef Google scholar
[40]
Zheng Z, Xie S, Dai H N, Chen W, Chen X, Weng J, Imran M (2020). An overview on smart contracts: Challenges, advances and platforms. Future Generation Computer Systems, 105: 475–491
CrossRef Google scholar
[41]
Zhong B, Wu H, Ding L, Luo H, Luo Y, Pan X (2020). Hyperledger fabric-based consortium blockchain for construction quality infor-mation management. Frontiers of Engineering Management, 7(4): 512–527
CrossRef Google scholar

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