Risks and Opportunities for Reforming Construction with Blockchain: Bibliometric Study

Mohammad Darabseh, João Poças Martins


Emerging technologies are always treated with caution, and Blockchain is no exception to this rule. The AECO (Architecture, Engineering, Construction, and Operations) sector is considered conservative when it comes to technology adoption, which is often positive in an industry that deals with a vital commodity that could harm humans or result in catastrophe. However, excessive caution also stifles innovation, as shown in the industry’s low R&D expenditure when compared to other industrial activities. In recent years, the AECO sector has benefited from the adoption of new information management tools and systems that allow professionals to develop, share and store construction data more effectively. These tools have successfully tackled many of the traditional interoperability issues that have affected the industry, but several challenges remain unsolved. Indeed, effective real-world communication depends, not only on the compatibility between data formats and systems, but also on issues such as privacy, transparency, and trust. Blockchain has been adopted in different activities as a tool to address these issues, but its impact in the construction industry remains scarce. This paper presents a bibliometric study for the available literature on Blockchain implementation in the AECO sector. In addition to the bibliometric review, content analysis for the literature retrieved is presented to provide a clear vision of the current directions regarding Blockchain technology adoption. The purpose of this article is to evaluate the maturity of Blockchain in Construction literature using statistics based on the available bibliometrics in addition to content analysis. The main results show that although the number of articles about the use of Blockchain in Construction has increased, no studies that present ready to use solutions were found. Instead, the covered studies discuss the technical capabilities of the technology and suggest possible fields of implementation, such as smart contracts and automated payments. Study limitations include the limited amount of literature that can be found on major indexing services, which cover a relatively short reference period.


Blockchain; Construction; Bibliometric Review; BIM; Construction Management; Infrastructure.


Crosby, Michael, Pradan Pattanayak, Sanjeev Verma, and Vignesh Kalyanaraman. "Blockchain technology: Beyond bitcoin." Applied Innovation 2, no. 6-10 (2016): 71.

Penzes, B., A. KirNup, C. Gage, T. Dravai, and M. Colmer. "Blockchain Technology in the Construction Industry: Digital Transformation for High Productivity." Institution of Civil Engineers (ICE), (2018).

Aria, Massimo, and Corrado Cuccurullo. “Bibliometrix : An R-Tool for Comprehensive Science Mapping Analysis.” Journal of Informetrics 11, no. 4 (November 2017): 959–975. doi:10.1016/j.joi.2017.08.007.

Turk, Žiga, and Robert Klinc. “Potentials of Blockchain Technology for Construction Management.” Procedia Engineering 196 (2017): 638–645. doi:10.1016/j.proeng.2017.08.052.

Hardin, Brad, and Dave McCool. BIM and construction management: proven tools, methods, and workflows. John Wiley & Sons, (2015).

Wang, Jun, Peng Wu, Xiangyu Wang, and Wenchi Shou. “The Outlook of Blockchain Technology for Construction Engineering Management.” Frontiers of Engineering Management 4, no. 1 (2017): 67. doi:10.15302/j-fem-2017006.

Shojaei, Alireza. “Exploring Applications of Blockchain Technology in the Construction Industry.” Edited by Didem Ozevin, Hossein Ataei, Mehdi Modares, Asli Pelin Gurgun, Siamak Yazdani, and Amarjit Singh. Proceedings of International Structural Engineering and Construction 6, no. 1 (May 2019). doi:10.14455/isec.res.2019.78.

Szabo, Nick. "Smart Contracts (1994)." Virtual School (1994).

San, Kiu Mee, Chia Fah Choy, and Wong Phui Fung. “The Potentials and Impacts of Blockchain Technology in Construction Industry: A Literature Review.” IOP Conference Series: Materials Science and Engineering 495 (June 7, 2019): 012005. doi:10.1088/1757-899x/495/1/012005.

Hargaden, Vincent, Nikolaos Papakostas, Anthony Newell, Adam Khavia, and Adam Scanlon. “The Role of Blockchain Technologies in Construction Engineering Project Management.” 2019 IEEE International Conference on Engineering, Technology and Innovation (ICE/ITMC) (June 2019). doi:10.1109/ice.2019.8792582.

Luo, Han, Moumita Das, Jun Wang, and Jack C.P. Cheng. “Construction Payment Automation through Smart Contract-Based Blockchain Framework.” Proceedings of the 36th International Symposium on Automation and Robotics in Construction (ISARC) (May 24, 2019). doi:10.22260/isarc2019/0168.

K. C. Goh, T. Y. Teoh, H. H. Goh, K. Bilal, and C. S. Chai, "Blockchain potentials in enhancing construction stakeholders collaboration, Malaysian Construction Research Journal, Article vol. 7, no. Special issue 2, pp. 177-189, 2019.

S. Graham and J. D. Hailer, “Implementation of Blockchain Technology in the Construction Industry" in Proceedings, Annual Conference - Canadian Society for Civil Engineering, (June 2019).

Safa, Mahdi, Sylvia Baeza, and Kelly Weeks. “Incorporating Blockchain Technology in Construction Management.” Strategic Direction 35, no. 10 (October 14, 2019): 1–3. doi:10.1108/sd-03-2019-0062.

Nawari, Nawari O., and Shriraam Ravindran. "Blockchain technology and BIM process: Review and potential applications." ITcon 24 (2019): 209-238.

Liu, Jiang, Osmani, and Demian. “Building Information Management (BIM) and Blockchain (BC) for Sustainable Building Design Information Management Framework.” Electronics 8, no. 7 (June 26, 2019): 724. doi:10.3390/electronics8070724.

Zheng, Rongyue, Jianlin Jiang, Xiaohan Hao, Wei Ren, Feng Xiong, and Yi Ren. “bcBIM: A Blockchain-Based Big Data Model for BIM Modification Audit and Provenance in Mobile Cloud.” Mathematical Problems in Engineering 2019 (March 18, 2019): 1–13. doi:10.1155/2019/5349538.

Bukunova, O.V., and A.S. Bukunov. “Tools of Data Transmission at Building Information Modeling.” 2019 International Science and Technology Conference “EastConf” (March 2019). doi:10.1109/eastconf.2019.8725373.

Ye, Zihao, Mengtian Yin, Llewellyn Tang, and Haobo Jiang. “Cup-of-Water Theory: A Review on the Interaction of BIM, IoT and Blockchain during the Whole Building Lifecycle.” Proceedings of the 35th International Symposium on Automation and Robotics in Construction (ISARC) (July 22, 2018). doi:10.22260/isarc2018/0066.

Aleksandrova, Elena, Victoria Vinogradova, and Galina Tokunova. “Integration of Digital Technologies in the Field of Construction in the Russian Federation.” Engineering Management in Production and Services 11, no. 3 (November 19, 2019): 38–47. doi:10.2478/emj-2019-0019.

Singh, Sulekha, and Baabak Ashuri. “Leveraging Blockchain Technology in AEC Industry during Design Development Phase.” Computing in Civil Engineering 2019 (June 13, 2019). doi:10.1061/9780784482421.050.

Dakhli, Zakaria, Zoubeir Lafhaj, and Alan Mossman. “The Potential of Blockchain in Building Construction.” Buildings 9, no. 4 (April 5, 2019): 77. doi:10.3390/buildings9040077.

Parn, Erika A., and David Edwards. “Cyber Threats Confronting the Digital Built Environment.” Engineering, Construction and Architectural Management 26, no. 2 (March 18, 2019): 245–266. doi:10.1108/ecam-03-2018-0101.

McPartland, R. “What is the Common Data Environment (CDE).” Corporate Website of NBS. (2016). Available online: https://www.thenbs.com/knowledge/what-is-the-common-data-environment-cde.

BSI, SC. "PAS 1192-5: 2015: Specification for security-minded building information modelling, digital built environments and smart asset management." (2015). Available online: https://shop.bsigroup.com/ProductDetail/?pid=000000000030314119

ISO, BSEN. "19650-1: 2018." BSI Standards Publication Organization and digitization of information about buildings and civil engineering works, including building information modelling (BIM)-Information management using building information modelling (2018).

Zheng, Rongyue, Jianlin Jiang, Xiaohan Hao, Wei Ren, Feng Xiong, and Tianqing Zhu. “CaACBIM: A Context-Aware Access Control Model for BIM.” Information 10, no. 2 (February 1, 2019): 47. doi:10.3390/info10020047.

Fitriawijaya, Adam, and Tsai Hsin-Hsuan. "A Blockchain Approach to Supply Chain Management in a BIM-Enabled Environment." (2019).

Van Wyngaard, C. J., J. H. C. Pretorius, and L. Pretorius. “Theory of the Triple Constraint — A Conceptual Review.” 2012 IEEE International Conference on Industrial Engineering and Engineering Management (December 2012). doi:10.1109/ieem.2012.6838095.

Sivula, Ari, Ahm Shamsuzzoha, and Petri Helo. "Blockchain in Logistics: Mapping the Opportunities in Con-struction Industry." In International Conference on Industrial Engineering and Operations Management. (2018).

Wang, Yingli. “Designing a Blockchain Enabled Supply Chain.” IFAC-PapersOnLine 52, no. 13 (2019): 6–11. doi:10.1016/j.ifacol.2019.11.082.

Jensen, Tina Blegind, Annemette Kjærgaard, and Per Svejvig. “Using Institutional Theory with Sensemaking Theory: A Case Study of Information System Implementation in Healthcare.” Journal of Information Technology 24, no. 4 (December 2009): 343–353. doi:10.1057/jit.2009.11.

Kifokeris, Dimosthenis, and Christian Koch. “Blockchain in Construction Logistics: State-of-Art, Constructability, and the Advent of a New Digital Business Model in Sweden.” Proceedings of the 2019 European Conference on Computing in Construction (July 10, 2019). doi:10.35490/ec3.2019.163.

Bohner, Edgar, Tapio Vehmas, Arto Laikari, Matti Okkonen, Markku Kiviniemi, Pertti Lahdenperä, and Miguel Ferreira. "Digitalisation of the quality control of concrete manufacturing and construction." In fib Symposium 2019: Concrete-Innovations in Materials, Design and Structures. International Federation for Structural Concrete FIB, (2019): 1435-1442.

Lanko, A., N. Vatin, and A. Kaklauskas. “Application of RFID Combined with Blockchain Technology in Logistics of Construction Materials.” Edited by I. Ilin and O. Kalinina. MATEC Web of Conferences 170 (2018): 03032. doi:10.1051/matecconf/201817003032.

Nawari, Nawari O., and Shriraam Ravindran. “Blockchain and the Built Environment: Potentials and Limitations.” Journal of Building Engineering 25 (September 2019): 100832. doi:10.1016/j.jobe.2019.100832.

Nawari, Nawari O., and Shriraam Ravindran. “Blockchain and Building Information Modeling (BIM): Review and Applications in Post-Disaster Recovery.” Buildings 9, no. 6 (June 19, 2019): 149. doi:10.3390/buildings9060149.

Dimyadi, Johannes. "Automated Compliance Audit Processes for Building Information Models with an application to performance-based fire engineering design methods." PhD diss., ResearchSpace@ Auckland, (2016).

Ablyazov, Timur, and Ivan Petrov. “Influence of Blockchain on Development of Interaction System of Investment and Construction Activity Participants.” IOP Conference Series: Materials Science and Engineering 497 (April 2, 2019): 012001. doi:10.1088/1757-899x/497/1/012001.

Coinhills. "BitRent." @Coinhills. Available online: https://www.coinhills.com/ico/view/bitrent/

Li, Jennifer, David Greenwood, and Mohamad Kassem. “Blockchain in the Built Environment and Construction Industry: A Systematic Review, Conceptual Models and Practical Use Cases.” Automation in Construction 102 (June 2019): 288–307. doi:10.1016/j.autcon.2019.02.005.

Li, Shuling. “Application of Blockchain Technology in Smart City Infrastructure.” 2018 IEEE International Conference on Smart Internet of Things (SmartIoT) (August 2018). doi:10.1109/smartiot.2018.00056.

Dong, Zhaoyang, Junhua Zhao, Fushuan Wen, and Yusheng Xue. "From smart grid to energy internet: basic concept and research framework." Automation of electric power systems 38, no. 15 (2014): 1-11.

Zhang, Yi, Wei Sun, and Chenlei Xie. “Blockchain in Smart City Development—The Knowledge Governance Framework in Dynamic Alliance.” Advancements in Smart City and Intelligent Building (2019): 137–152. doi:10.1007/978-981-13-6733-5_13.

Qian, Yuming, Zhicheng Liu, Junyan Yang, and Qiao Wang. “A Method of Exchanging Data in Smart City by Blockchain.” 2018 IEEE 20th International Conference on High Performance Computing and Communications; IEEE 16th International Conference on Smart City; IEEE 4th International Conference on Data Science and Systems (HPCC/SmartCity/DSS) (June 2018). doi:10.1109/hpcc/smartcity/dss.2018.00223.

El-Diraby, Tamer, Alain Zarli, and Mohamed El-Darieby. “The Automation of the Softer Side of Smart City: a Socio-Semantic Roadmap.” Proceedings of the 36th International Symposium on Automation and Robotics in Construction (ISARC) (May 24, 2019). doi:10.22260/isarc2019/0035.

Klyukin, Aleksei A., Valerii N. Kulachkovsky, Valerii N. Evseev, and Anna I. Klyukina. “Possibilities of New Information Technologies in the System of Urban Planning and Construction.” Key Engineering Materials 771 (June 2018): 49–55. doi:10.4028/www.scientific.net/kem.771.49.

Lam, R.C.Y., Alvin Junus, J.Y.W. Mak, L.C.H. Lam, and P.K.K. Lee. “Blockchain for Civil Engineering Practices in Smart Cities.” 2018 IEEE International Conference on Internet of Things (iThings) and IEEE Green Computing and Communications (GreenCom) and IEEE Cyber, Physical and Social Computing (CPSCom) and IEEE Smart Data (SmartData) (July 2018). doi:10.1109/cybermatics_2018.2018.00225.

Jo, Byung, Rana Khan, and Yun-Sung Lee. “Hybrid Blockchain and Internet-of-Things Network for Underground Structure Health Monitoring.” Sensors 18, no. 12 (December 4, 2018): 4268. doi:10.3390/s18124268.

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DOI: 10.28991/cej-2020-03091541


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