Defining Information Requirements for Off-Site Construction Management: An Industry Case Study from Canada
Publication: Journal of Construction Engineering and Management
Volume 150, Issue 12
Abstract
Off-site construction projects have demonstrated the potential to drive transformation in the construction sector to achieve better outcomes in terms of high precision and efficiency of deliveries through the collaborative design and fabrication processes, long-term stakeholder engagement and relations across projects, product standardization, risk-sharing strategies, and investment in a strong integrated supply chain. However, repeating the successful off-site construction projects to scale the benefits can be challenging considering that construction projects vary across regions and contexts. The streamlined processes and a consistent collection of information requirements should be leveraged to alleviate the challenge and help stakeholders effectively adopt the off-site construction approach. To achieve this goal, this study defines the information requirements across multiple stages of the off-site construction supply chain, using the case study approach to delineate the information requirements for an off-site construction company located in Edmonton, Alberta, Canada. The evaluation and interpretation of the case study underscore the need for consistent collection, storage and utilization of logistics, construction, and postconstruction activities information to tie back to sales and design activities. To facilitate the activities integration, an information requirement framework is proposed for off-site construction processes based on the learnings collected from the case study and a digital twin technology platform. Although the reuse and interoperability of information among various systems remains a long-standing issue to prevent the wide adoption of off-site construction, the findings and the proposed information requirement framework can be an integral part of the potential guidelines for successful implementation of off-site construction.
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Data Availability Statement
Some or all data, models, or code that support the findings of this study are available from the corresponding author upon reasonable request.
Acknowledgments
Part of the case study interpretation reported in this study was supported by the “Kit-of-Parts Platform System (KOPPS) to Provide Affordable, Sustainable and Resilient Housing in Canada” research project from the Canada Mortgage Housing Corporation Housing Supply Challenge Round 4—Building for the Future (Fund No. PO006788-1). We also acknowledge the funding support from the Natural Sciences and Engineering Research Council of Canada (NSERC) Discovery Grant (Grant No. RGPIN-2020-04126).
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© 2024 American Society of Civil Engineers.
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Received: Feb 6, 2024
Accepted: Jun 21, 2024
Published online: Sep 20, 2024
Published in print: Dec 1, 2024
Discussion open until: Feb 20, 2025
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