Barrier Analysis of Effective Implementation of Robotics in the Construction Industry
Publication: Construction Research Congress 2022
ABSTRACT
The construction industry is one of the largest economic sectors in the United States, contributing to 4.1% of the nation’s gross domestic product. Despite its economic importance, the construction industry is plagued with labor shortages, unsafe working conditions, stagnant productivity, and inefficiencies resulting from industry fragmentation. With the recent advancements in mechatronics, artificial intelligence, and sensing systems, the implementation of robotic technologies appears poised to revolutionize construction. However, the construction industry is still falling short of the widespread adoption of robotic technologies prevalent in other sectors. The present study investigates the contributory factors of this gap, delineates the potential barriers, and provides recommendations to lift these barriers and expedite the transition process. To determine the limiting factors to the widespread implementation of construction robots, a set of questionnaires were distributed to ten major construction companies. The questionnaires were developed by the experts in the related fields and validated by industry professionals. The statistical results of the questionnaires revealed the factors that impede the large-scale robotic adoptions, including high-capital investment and job security as primary factors. The findings of this research can provide the necessary insight to understanding and potentially lifting obstacles to the ubiquitous implementation of robotic technologies in the construction industry.
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REFERENCES
Ahn, Y. H., Kwak, Y. H., and Suk, S. J. (2016). “Contractors’ Transformation Strategies for Adopting Building Information Modeling.” Journal of Management in Engineering, American Society of Civil Engineers (ASCE), 32(1), 05015005.
Allen, S. G. (1985). Why Construction Industry Productivity is Declining.
Autor, D. H. (2015). “Why are there still so many jobs? the history and future of workplace automation.” Journal of Economic Perspectives, American Economic Association, 3–30.
Balaguer, C. (2017). “Open Issues and Future Possibilities in the EU Construction Automation.” Proceedings of the 17th IAARC/CIB/IEEE/IFAC/IFR International Symposium on Automation and Robotics in Construction, International Association for Automation and Robotics in Construction (IAARC).
Bock, T. (2015). “The future of construction automation: Technological disruption and the upcoming ubiquity of robotics.” Automation in Construction, Elsevier, 59, 113–121.
Bogue, R. (2018). “What are the prospects for robots in the construction industry?” Industrial Robot, Emerald Group Holdings Ltd., 45(1), 1–6.
Boulos, T., Sartipi, F., and Khoshaba, K. (2020). “Bibliometric analysis on the status quo of robotics in construction.” Journal of Construction Materials, 1, 2–3.
Bureau of Labour. (2018). National Census of Fatal Occupational Injuries Summary.
Castro-Lacouture, D. (2009). “Construction Automation.” Springer Handbook of Automation, Springer Berlin Heidelberg, 1063–1078.
Chen, J., Ahn, C. R., and Han, S. (2014). “Detecting the hazards of lifting and carrying in construction through a coupled 3D sensing and IMUs sensing system.” Computing in Civil and Building Engineering - Proceedings of the 2014 International Conference on Computing in Civil and Building Engineering, American Society of Civil Engineers (ASCE), 1110–1117.
Chu, B., Jung, K., Lim, M. T., and Hong, D. (2013). “Robot-based construction automation: An application to steel beam assembly (Part I).” Automation in Construction, Elsevier B.V., 32, 46–61.
Czarnowski, J., Dąbrowski, A., Maciaś, M., Główka, J., and Wrona, J. (2018). “Technology gaps in Human-Machine Interfaces for autonomous construction robots.” Automation in Construction, Elsevier B.V., 94, 179–190.
Davila Delgado, J. M., Oyedele, L., Ajayi, A., Akanbi, L., Akinade, O., Bilal, M., and Owolabi, H. (2019). “Robotics and automated systems in construction: Understanding industry-specific challenges for adoption.” Journal of Building Engineering, Elsevier Ltd, 26, 100868.
El-Abidi, K. M. A., and Ghazali, F. E. M. (2015). “Motivations and Limitations of Prefabricated Building: An Overview.” Applied Mechanics and Materials, Trans Tech Publications, Ltd., 802, 668–675.
Fulford, R., and Standing, C. (2014). “Construction industry productivity and the potential for collaborative practice.” International Journal of Project Management, Elsevier Ltd, 32(2), 315–326.
García de Soto, B., Agustí-Juan, I., Hunhevicz, J., Joss, S., Graser, K., Habert, G., and Adey, B. T. (2018). “Productivity of digital fabrication in construction: Cost and time analysis of a robotically built wall.” Automation in Construction, Elsevier B.V., 92, 297–311.
Gerling, V., and Von Mammen, S. (2016). “Robotics for self-organised construction.” Proceedings - IEEE 1st International Workshops on Foundations and Applications of Self-Systems, FAS-W 2016, Institute of Electrical and Electronics Engineers Inc., 162–167.
Ghodrati, N., Yiu, T. W., and Wilkinson, S. (2018). “Unintended consequences of management strategies for improving labor productivity in construction industry.” Journal of Safety Research, Elsevier Ltd, 67, 107–116.
Hampson, K. D., Kraatz, J. A., and Sanchez, A. (2014). The global construction industry and R&D. Routledge, 42–61.
Hatami, M., Flood, I., Franz, B., and Zhang, X. (2019). “State-of-the-Art Review on the Applicability of AI Methods to Automated Construction Manufacturing.” Computing in Civil Engineering 2019: Data, Sensing, and Analytics - Selected Papers from the ASCE International Conference on Computing in Civil Engineering 2019, American Society of Civil Engineers (ASCE), 368–375.
Huang, P. Y., and Sakurai, M. (1990). “Factory Automation: The Japanese Experience.” IEEE Transactions on Engineering Management, 37(2), 102–108.
Karimi, H., Taylor, T. R. B., Dadi, G. B., Goodrum, P. M., and Srinivasan, C. (2018). “Impact of Skilled Labor Availability on Construction Project Cost Performance.” Journal of Construction Engineering and Management, American Society of Civil Engineers (ASCE), 144(7), 04018057.
Lim, J. N., Schultmann, F., and Ofori, G. (2010). “Tailoring Competitive Advantages Derived from Innovation to the Needs of Construction Firms.” Journal of Construction Engineering and Management, American Society of Civil Engineers (ASCE), 136(5), 568–580.
Liu, Y., Habibnezhad, M., and Jebelli, H. (2021). “Brain-computer interface for hands-free teleoperation of construction robots.” Automation in Construction, Elsevier, 123, 103523.
Loosemore, M., and Richard, J. (2015). “Valuing innovation in construction and infrastructure: Getting clients past a lowest price mentality.” Engineering, Construction and Architectural Management, Emerald Group Publishing Ltd.
Mahbub, R. (2008). An Investigation into the Barriers to the Implementation of Automation and Robotics Technologies in the Construction Industry.
Manley, K., Marceau, J., Parker, R., and Matthews, J. (2008). The Potential Contribution of Small Firms to Innovation in the Built Environment.
Okpala, I., Nnaji, C., and Karakhan, A. A. (2020). “Utilizing Emerging Technologies for Construction Safety Risk Mitigation.” Practice Periodical on Structural Design and Construction, American Society of Civil Engineers (ASCE), 25(2), 04020002.
Pradhananga, P., ElZomor, M., and Santi Kasabdji, G. (2021). “Identifying the Challenges to Adopting Robotics in the US Construction Industry.” Journal of Construction Engineering and Management, American Society of Civil Engineers (ASCE), 147(5), 05021003.
Vähä, P., Heikkilä, T., Kilpeläinen, P., Järviluoma, M., and Gambao, E. (2013). “Extending automation of building construction - Survey on potential sensor technologies and robotic applications.” Automation in Construction, Elsevier.
You, S., Kim, J. H., Lee, S. H., Kamat, V., and Robert, L. P. (2018). “Enhancing perceived safety in human–robot collaborative construction using immersive virtual environments.” Automation in Construction, Elsevier B.V., 96, 161–170.
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Construction Research Congress 2022
Pages: 661 - 669
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Published online: Mar 7, 2022
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