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Yıl 2023, , 81 - 106, 01.09.2023
https://doi.org/10.18400/tjce.1322972

Öz

Kaynakça

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  • Mutikanga, H. E., Abdul Nabi, M., Ali, G. G., El-adaway, I. H., and Caldwell, A., Postaward Construction and Contract Management of Engineering, Procurement, and Construction Hydropower Projects: Two Case Studies from Uganda, Journal of Management in Engineering 38, 05022012 2022.
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  • Feng, T., Yu, X., Chai, Y., and Liu, Y., Smart Contract Model for Complex Reality Transaction, International Journal of Crowd Science 3, 184–197 2019.
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Operational Barriers against the Use of Smart Contracts in Construction Projects

Yıl 2023, , 81 - 106, 01.09.2023
https://doi.org/10.18400/tjce.1322972

Öz

As an emerging but embryonic way of contract administration, smart contracts can play a prominent role in managing construction projects in an effective manner. However, there are still some barriers preventing the implementation of them in the life cycles of construction projects. This study investigates operational barriers against the adoption of smart contracts in construction projects and explores the challenges in this process. Operational barriers against smart contract implementation are identified through a comprehensive literature review and a focus group discussion is performed to refine the identified barriers. These barriers are evaluated through fuzzy analytical hierarchy process analysis. Finally, a framework is proposed for the adoption of smart contracts effectively in construction projects. 20 operational barriers were attained based on four main barrier categories: technical, financial, security/technological, and time. The results show that financial and technical aspects establish the most significant categories hindering the adoption of smart contracts, while expensive and clunky drafting and registration process, and cost of upskilling are the most significant barriers. Overall, the proposed framework might be useful for practitioners and project managers, who decide to use smart contracts in managing construction projects. The motive behind understanding critical operational barriers is to assist construction practitioners in automating contract execution processes. This study provides a basis for recommending the necessary strategies for the use of smart contracts in the industry to researchers in the construction management field.

Kaynakça

  • Zhang, Y., Wang, T., and Yuen, K. V., Construction Site Information Decentralized Management Using Blockchain and Smart Contracts, Computer-Aided Civil and Infrastructure Engineering 37, 1450–1467 2022.
  • Ahn, S., Shokri, S., Lee, S., Haas, C. T., and Haas, R. C. G., Exploratory Study on the Effectiveness of Interface-Management Practices in Dealing with Project Complexity in Large-Scale Engineering and Construction Projects, Journal of Management in Engineering 33, 1–12 2017.
  • Arcadis, Global Construction Disputes Report 2022, 2022. [Online]. Available: https://www.arcadis.com/en/knowledge-hub/perspectives/global/global-construction-disputes-report.
  • Demirkesen, S. and Ozorhon, B., Measuring Project Management Performance: Case of Construction Industry, EMJ - Engineering Management Journal 29, 258–277 2017.
  • Liu, L., Comparative Analysis of the Mechanism of Engineering Project Management Standardization, in IOP Conference Series: Earth and Environmental Science, 2020, 526, 012218.
  • Wu, Q., Sheng, W., Wei, F., Liu, H., and Wen, H., Identification of Smart Construction Features and Impacts on Engineering Project Performance, in Conference Proceedings of the 10th International Symposium on Project Management, 2022, 837–842.
  • Tang, L., Xiahou, X., Li, K., Li, Q., and Hu, X., Research on the Relationship Between Flexible Contract Term Setting Method and Setting Effect of Environmental Protection PPP Project, EMJ - Engineering Management Journal 00, 1–13 2022.
  • Meier, O. and Sannajust, A., The Smart Contract Revolution: A Solution for the Holdup Problem?, Small Business Economics 57, 1073–1088 2021.
  • Mahmudnia, D., Arashpour, M., and Yang, R., Blockchain in Construction Management: Applications, Advantages and Limitations, Automation in Construction 140, 104379 2022.
  • Mutikanga, H. E., Abdul Nabi, M., Ali, G. G., El-adaway, I. H., and Caldwell, A., Postaward Construction and Contract Management of Engineering, Procurement, and Construction Hydropower Projects: Two Case Studies from Uganda, Journal of Management in Engineering 38, 05022012 2022.
  • Mckinsey Global Insititute, Reinventing Construction: A Route to Higher Productivity, 2017.
  • Sinha, A. K. and Jha, K. N., Critical Analysis of Contract Clauses in Road Sector: Case Study, Journal of Legal Affairs and Dispute Resolution in Engineering and Construction 12, 05020005 2020.
  • Winanri, R. P., Susanti, B., and Juliantina, I., Comparison Analysis Between Traditional and Long Segment Contracts on National Road Preservation Activities in Indonesia, Engineering, Technology & Applied Science Research 9, 4230–4234 2019.
  • Li, J., Greenwood, D., and Kassem, M., Blockchain in the Built Environment and Construction Industry: A Systematic Review, Conceptual Models and Practical Use Cases, Automation in Construction 102, 288–307 2019.
  • Xu, Y., Chong, H. Y., and Chi, M., A Review of Smart Contracts Applications in Various Industries: A Procurement Perspective, Advances in Civil Engineering 2021, 2021.
  • Negi, D., Sah, A., Rawat, S., Choudhury, T., and Khanna, A., Block Chain Platforms and Smart Contracts, in EAI/Springer Innovations in Communication and Computing, In Blockchain Applications in IoT Ecosystem. EAI/Springer Innovations in Communication and Computing. Springer, Cham., 2021, 65–76.
  • Salmerón-Manzano, E. and Manzano-Agugliaro, F., The Role of Smart Contracts in Sustainability: Worldwide Research Trends, Sustainability (Switzerland) 11, 2019.
  • Ge, X., Smart Payment Contract Mechanism Based on Blockchain Smart Contract Mechanism, Scientific Programming 2021, 2021.
  • Milani, F., Garcia-Banuelos, L., Filipova, S., and Markovska, M., Modelling Blockchain-Based Business Processes: A Comparative Analysis of BPMN vs CMMN, Business Process Management Journal 27, 638–657 2021.
  • Gurgun, A. P., Genc, M. I., Koc, K., and Arditi, D., Exploring the Barriers against Using Cryptocurrencies in Managing Construction Supply Chain Processes, Buildings 12, 357 2022.
  • Sigalov, K. et al., Automated Payment and Contract Management in the Construction Industry by Integrating Building Information Modeling and Blockchain-Based Smart Contracts, Applied Sciences 11, 7653 2021.
  • Bolhassan, D. N., Changsaar, C., Khoso, A. R., Siawchuing, L., Bamgbade, J. A., and Hing, W. N., Towards Adoption of Smart Contract in Construction Industry in Malaysia, Pertanika Journal of Science and Technology 30, 141–160 2022.
  • Feng, T., Yu, X., Chai, Y., and Liu, Y., Smart Contract Model for Complex Reality Transaction, International Journal of Crowd Science 3, 184–197 2019.
  • McNamara, A. J. and Sepasgozar, S. M. E., Intelligent Contract Adoption in the Construction Industry: Concept Development, Automation in Construction 122, 103452 2021.
  • Szabo, N., Smart Contracts, 1994. https://www.fon.hum.uva.nl/rob/Courses/InformationInSpeech/CDROM/Literature/LOTwinterschool2006/szabo.best.vwh.net/smart.contracts.html.
  • Szabo, N., Formalizing and Securing Relationships on Public Networks, First Monday 2, 1997 [Online]. Available: Szabo, N.
  • Norton Rose Fulbright, Smart Contracts: Coding the Fine Print | Global Law Firm | Norton Rose Fulbright, 2016. .
  • Hamledari, H. and Fischer, M., Role of Blockchain-Enabled Smart Contracts in Automating Construction Progress Payments, Journal of Legal Affairs and Dispute Resolution in Engineering and Construction 13, 04520038 2021.
  • Karamanlıoğlu, A., Concept of Smart Contracts – A Legal Perspective, Kocaeli Üniversitesi Sosyal Bilimler Dergisi 35, 29–42 2018.
  • Fernandez-Vazquez, S., Rosillo, R., de la Fuente, D., and Puente, J., Blockchain in Sustainable Supply Chain Management: An Application of the Analytical Hierarchical Process (AHP) Methodology, Business Process Management Journal 28, 1277–1300 2022.
  • Salmon, B., How Do Smart Contracts Work? An Introduction to Smart Contracts, 2017. .
  • Ravishankar, B., Kulkarni, P., and Vishnudas, M. V., Blockchain-based Database to Ensure Data Integrity in Cloud Computing Environments, 2020 International Conference on Mainstreaming Block Chain Implementation, ICOMBI 2020 2020.
  • Hamledari, H. and Fischer, M., Measuring the Impact of Blockchain and Smart Contracts on Construction Supply Chain Visibility, Advanced Engineering Informatics 50, 101444 2021.
  • Chong, H. Y. and Diamantopoulos, A., Integrating Advanced Technologies to Uphold Security of Payment: Data Flow Diagram, Automation in Construction 114, 2020.
  • Mason, J. and Escott, H., Smart Contracts in Construction: Views and Perceptions of Stakeholders, Proceedings of FIG Conference 1–27 2018.
  • Nanayakkara, S., Perera, S., and Sepani, S., Stakeholders’ Perspective on Blockchain and Smart Contracts Solutions for Construction Supply Chains, The CIB World Building Congress 2019 2019.
  • Li, J. and Kassem, M., Applications of Distributed Ledger Technology (DLT) and Blockchain-Enabled Smart Contracts in Construction, Automation in Construction 132, 2021.
  • Li, J., Kassem, M., Ciribini, A. L. C., and Bolpagni, M., A Proposed Approach Integrating DLT, BIM, IOT and Smart Contracts: Demonstration Using A Simulated Installation Task, International Conference on Smart Infrastructure and Construction 2019, ICSIC 2019: Driving Data-Informed Decision-Making 2019, 275–282 2019.
  • Rathnayake, I., Wedawatta, G., and Tezel, A., Smart Contracts in the Construction Industry: A Systematic Review, Buildings 12, 2082 2022.
  • Shang, G., Pheng, L. S., and Zhong Xia, R. L., Adoption of smart contracts in the construction industry: an institutional analysis of drivers and barriers, Construction Innovation 2023.
  • Ameyaw, E. E., Edwards, D. J., Kumar, B., Thurairajah, N., Owusu-Manu, D.-G., and Oppong, G. D., Critical Factors Influencing Adoption of Blockchain-Enabled Smart Contracts in Construction Projects, Journal of Construction Engineering and Management 149, 1–16 2023.
  • Gurgun, A. P. and Koc, K., Administrative risks challenging the adoption of smart contracts in construction projects, Engineering, Construction and Architectural Management 29, 989–1015 2022.
  • Ahmadisheykhsarmast, S. and Sonmez, R., A Smart Contract System for Security of Payment of Construction Contracts, Automation in Construction 120, 103401 2020.
  • Luo, H., Das, M., Wang, J., and Cheng, J. C. P., Construction Payment Automation through Smart Contract-Based Blockchain Framework, Proceedings of the 36th International Symposium on Automation and Robotics in Construction, ISARC 2019 1254–1260 2019.
  • Yu, Y., Chan, A. P. C., Chen, C., and Darko, A., Critical Risk Factors of Transnational Public-Private Partnership Projects: Literature Review, Journal of Infrastructure Systems 24, 04017042 2018.
  • Hong, Y. and Chan, D. W. M., Research Trend of Joint Ventures in Construction: A Two-Decade Taxonomic Review, Journal of Facilities Management 12, 118–141 2014.
  • Koc, K. and Gurgun, A. P., Stakeholder-Associated Life Cycle Risks in Construction Supply Chain, Journal of Management in Engineering 37, 04020107 2021.
  • Mason, J., Intelligent Contracts and the Construction Industry, Journal of Legal Affairs and Dispute Resolution in Engineering and Construction 9, 04517012 2017.
  • Perera, S., Nanayakkara, S., Rodrigo, M. N. N., Senaratne, S., and Weinand, R., Blockchain Technology: Is It Hype or Real in the Construction Industry?, Journal of Industrial Information Integration 17, 100125 2020.
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  • Koulinas, G. K., Marhavilas, P. K., Demesouka, O. E., Vavatsikos, A. P., and Koulouriotis, D. E., Risk Analysis and Assessment in the Worksites Using the Fuzzy-Analytical Hierarchy Process and A Quantitative Technique – A Case Study for the Greek Construction Sector, Safety Science 112, 96–104 2019.
  • Beltrão, L. M. P. and Carvalho, M. T. M., Prioritizing Construction Risks Using Fuzzy AHP in Brazilian Public Enterprises, Journal of Construction Engineering and Management 145, 05018018 2019.
  • Yadav, G. and Desai, T. N., A Fuzzy AHP Approach to Prioritize the Barriers of Integrated Lean Six Sigma, International Journal of Quality and Reliability Management 34, 1167–1185 2017.
  • Budayan, C., Okudan, O., and Dikmen, I., Identification and prioritization of stage-level KPIs for BOT projects – evidence from Turkey, International Journal of Managing Projects in Business 13, 1311–1337 2020.
  • Ekmekcioğlu, Ö., Koc, K., Dabanli, I., and Deniz, A., Prioritizing urban water scarcity mitigation strategies based on hybrid multi-criteria decision approach under fuzzy environment, Sustainable Cities and Society 87, 104195 2022.
  • Darko, A., Chan, A. P. C., Ameyaw, E. E., Owusu, E. K., Pärn, E., and Edwards, D. J., Review of application of analytic hierarchy process (AHP) in construction, International Journal of Construction Management 19, 436–452 2019.
  • Okudan, O. and Budayan, C., Assessment of project characteristics affecting risk occurences in construction projects using fuzzy AHP, Sigma Journal of Engineering and Natural Sciences 38, 1447–1462 2020.
  • Gold, B. and Vassell, C., Using Risk Management to Balance Agile Methods: A Study of the Scrum Process, in 2015 2nd International Conference on Knowledge-Based Engineering and Innovation (KBEI), Nov. 2015, 49–54.
  • Rajadurai, R. and Vilventhan, A., Integrating Road Information Modeling (RIM) and Geographic Information System (GIS) for Effective Utility Relocations in Infrastructure Projects, Engineering, Construction and Architectural Management 2021.
  • Hasan, A., Elmualim, A., Rameezdeen, R., Baroudi, B., and Marshall, A., An Exploratory Study on the Impact of Mobile ICT on Productivity in Construction Projects, Built Environment Project and Asset Management 8, 320–332 2018.
  • Yu, J. and Leung, M. yung, Exploring Factors of Preparing Public Engagement for Large-Scale Development Projects via A Focus Group Study, International Journal of Project Management 33, 1124–1135 2015.
  • Etemadi, N., Van Gelder, P., and Strozzi, F., An ISM Modeling of Barriers for Blockchain/Distributed Ledger Technology Adoption in Supply Chains towards Cybersecurity, Sustainability 13, 4672 2021.
  • Yamashita, K., Nomura, Y., Zhou, E., Pi, B., and Jun, S., Potential Risks of Hyperledger Fabric Smart Contracts, 2019.
  • Wong, L.-W., Tan, G. W.-H., Lee, V.-H., Ooi, K.-B., and Sohal, A., Psychological and System-Related Barriers to Adopting Blockchain for Operations Management: An Artificial Neural Network Approach, IEEE Transactions on Engineering Management 1–15 2021.
  • Deebak, B. D. and AL-Turjman, F., Privacy-Preserving in Smart Contracts Using Blockchain and Artificial Intelligence for Cyber Risk Measurements, Journal of Information Security and Applications 58, 102749 2021.
  • Zhao, H., Zhang, M., Wang, S., Li, E., Guo, Z., and Sun, D., Security Risk and Response Analysis of Typical Application Architecture of Information and Communication Blockchain, Neural Computing and Applications 33, 7661–7671 2021.
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Toplam 98 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Yapı İşletmesi
Bölüm Araştırma Makaleleri
Yazarlar

Handan Künkcü 0000-0001-9839-640X

Kerim Koc 0000-0002-6865-804X

Asli Pelin Gurgun 0000-0002-0026-4685

Houljakbe Houlteurbe Dagou Bu kişi benim 0000-0003-1249-2615

Erken Görünüm Tarihi 5 Temmuz 2023
Yayımlanma Tarihi 1 Eylül 2023
Gönderilme Tarihi 8 Kasım 2022
Yayımlandığı Sayı Yıl 2023

Kaynak Göster

APA Künkcü, H., Koc, K., Gurgun, A. P., Dagou, H. H. (2023). Operational Barriers against the Use of Smart Contracts in Construction Projects. Turkish Journal of Civil Engineering, 34(5), 81-106. https://doi.org/10.18400/tjce.1322972
AMA Künkcü H, Koc K, Gurgun AP, Dagou HH. Operational Barriers against the Use of Smart Contracts in Construction Projects. tjce. Eylül 2023;34(5):81-106. doi:10.18400/tjce.1322972
Chicago Künkcü, Handan, Kerim Koc, Asli Pelin Gurgun, ve Houljakbe Houlteurbe Dagou. “Operational Barriers Against the Use of Smart Contracts in Construction Projects”. Turkish Journal of Civil Engineering 34, sy. 5 (Eylül 2023): 81-106. https://doi.org/10.18400/tjce.1322972.
EndNote Künkcü H, Koc K, Gurgun AP, Dagou HH (01 Eylül 2023) Operational Barriers against the Use of Smart Contracts in Construction Projects. Turkish Journal of Civil Engineering 34 5 81–106.
IEEE H. Künkcü, K. Koc, A. P. Gurgun, ve H. H. Dagou, “Operational Barriers against the Use of Smart Contracts in Construction Projects”, tjce, c. 34, sy. 5, ss. 81–106, 2023, doi: 10.18400/tjce.1322972.
ISNAD Künkcü, Handan vd. “Operational Barriers Against the Use of Smart Contracts in Construction Projects”. Turkish Journal of Civil Engineering 34/5 (Eylül 2023), 81-106. https://doi.org/10.18400/tjce.1322972.
JAMA Künkcü H, Koc K, Gurgun AP, Dagou HH. Operational Barriers against the Use of Smart Contracts in Construction Projects. tjce. 2023;34:81–106.
MLA Künkcü, Handan vd. “Operational Barriers Against the Use of Smart Contracts in Construction Projects”. Turkish Journal of Civil Engineering, c. 34, sy. 5, 2023, ss. 81-106, doi:10.18400/tjce.1322972.
Vancouver Künkcü H, Koc K, Gurgun AP, Dagou HH. Operational Barriers against the Use of Smart Contracts in Construction Projects. tjce. 2023;34(5):81-106.