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Belayutham, S, Che Ibrahim, C K I, Zulkifli, A R and Ibrahim, N (2019) A dual-functional social innovation process model for low-cost houses through university-enabled initiative. Construction Innovation , 19(02), 126–48.

Dowsett, R, Green, M, Sexton, M and Harty, C (2019) Projecting at the project level: MMC supply chain integration roadmap for small housebuilders. Construction Innovation, 19(02), 193–211.

Echeverria-Valiente, E, Garcia-Alvarado, R, Celis-D’Amico, F and Saelzer-Fuica, G (2019) Integrated design experiences for energy-efficient housing in Chile. Construction Innovation , 19(02), 236–55.

Golizadeh, H, Hosseini, M R, Edwards, D J, Abrishami, S, Taghavi, N and Banihashemi, S (2019) Barriers to adoption of RPAs on construction projects: a task–technology fit perspective. Construction Innovation, 19(02), 149–69.

Mahamadu, A, Mahdjoubi, L, Booth, C, Manu, P and Manu, E (2019) Building information modelling (BIM) capability and delivery success on construction projects. Construction Innovation, 19(02), 170–92.

Mock, B and O’Connor, J T (2019) Owner and contractor solution strategies for industrial commissioning. Construction Innovation , 19(02), 256–79.

Rose, T, Manley, K and Widen, K (2019) Do firm-level barriers to construction product innovation adoption vary according to position in the supply chain?. Construction Innovation , 19(02), 212–35.

Wang, Z and Rezazadeh Azar, E (2019) BIM-based draft schedule generation in reinforced concrete-framed buildings. Construction Innovation , 19(02), 280–94.

• Type: Journal Article
• Keywords: Building information modelling; Case-based reasoning; Concrete-framed building; Construction scheduling; Automation; Project management;
• ISBN/ISSN: 1471-4175
• URL: https://doi.org/10.1108/CI-11-2018-0094
• Abstract:
  Project schedules have a vital role in the effective management of time, cost, scope and resources in construction projects, and creating schedules requires schedulers with construction knowledge and experience. The increase in the complexity of building projects and the emergence of building information modeling (BIM) in the architecture, engineering and construction industry have encouraged researchers to explore BIM capabilities for automated schedule generation. The scope and capabilities of the developed systems, however, are limited and the link between design and scheduling is still underdeveloped. This paper aims to investigate methods to develop a BIM-based framework to automatically generate schedules for concrete-framed buildings. This system first extracts the required data from the building information model, including elements’ dimensions, quantities, spatial information, materials and other related attributes. It then applies construction rules, prior knowledge and production rate data to create project work-packages, calculate their durations and determine their relationships. Finally, it organizes these results into a schedule using project management software. This system provides an automated and easy-to-use approach to generate schedules for concrete-framed buildings that are modeled in a BIM platform. It provides two schedules for each project, both a sequential and an overlapped solution, which the schedulers can modify into a practical schedule based on conditions and available resources. This research project presents an innovative approach to use BIM-based attributes of structural elements to develop list of work-packages and estimate their durations, and then it uses a combination of rule-based and case-based reasoning to generate the schedules.