A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Integrated BIM and DfMA parametric and algorithmic design based collaboration for supporting client engagement within offsite construction
Abstract As a proactive reaction to current ineffective collaboration strategies, this study sought to combine the capabilities of Building Information Modelling (BIM) in the Design for Manufacturing and Assembly (DfMA) method with mass customisation into a framework that enables customers to participate in the offsite construction configuration process. This approach engenders greater customer satisfaction whilst increasing production and construction efficiency. A model capable of facilitating the use of construction information in the proposed framework was developed to implement the proposed framework into practice. Combining the BIM model within the framework provides all project stakeholders with prerequisite information needed for a building's configuration. This collaborative process utilises an algorithmic composition in which the current assembly information in both the BIM model and framework is used as a controlling factor in the configuration process. The parametric environment of Revit and the algorithmic environment of the Dynamo plugin were used to realise the proposed framework (as a proof of concept).
Highlights Client requirements and OSC design protocols are integrated. A novel BIM-based DfMA framework is developed to integrate the customization principles with the OSC design process. The innovative information model gathers all necessary design and customization information from OSC buildings. The BIM-based design algorithm implements the integrated design and customization strategy. Enhancing design quality and reducing potential reworks in manufacturing, assembly & construction fields through automation. Optimizing existing collaboration workflow in BIM standards through making direct link with client in the design process.
Integrated BIM and DfMA parametric and algorithmic design based collaboration for supporting client engagement within offsite construction
Abstract As a proactive reaction to current ineffective collaboration strategies, this study sought to combine the capabilities of Building Information Modelling (BIM) in the Design for Manufacturing and Assembly (DfMA) method with mass customisation into a framework that enables customers to participate in the offsite construction configuration process. This approach engenders greater customer satisfaction whilst increasing production and construction efficiency. A model capable of facilitating the use of construction information in the proposed framework was developed to implement the proposed framework into practice. Combining the BIM model within the framework provides all project stakeholders with prerequisite information needed for a building's configuration. This collaborative process utilises an algorithmic composition in which the current assembly information in both the BIM model and framework is used as a controlling factor in the configuration process. The parametric environment of Revit and the algorithmic environment of the Dynamo plugin were used to realise the proposed framework (as a proof of concept).
Highlights Client requirements and OSC design protocols are integrated. A novel BIM-based DfMA framework is developed to integrate the customization principles with the OSC design process. The innovative information model gathers all necessary design and customization information from OSC buildings. The BIM-based design algorithm implements the integrated design and customization strategy. Enhancing design quality and reducing potential reworks in manufacturing, assembly & construction fields through automation. Optimizing existing collaboration workflow in BIM standards through making direct link with client in the design process.
Integrated BIM and DfMA parametric and algorithmic design based collaboration for supporting client engagement within offsite construction
Bakhshi, Sajjad (author) / Chenaghlou, Mohammad Reza (author) / Pour Rahimian, Farzad (author) / Edwards, David J. (author) / Dawood, Nashwan (author)
2021-10-11
Article (Journal)
Electronic Resource
English
Design for manufacture and assembly (DfMA) enablers for offsite interior design and construction
| Taylor & Francis Verlag | 2022
Integrated Off-Site Construction Design Process including DfMA Considerations
| DOAJ | 2022