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Automatic lift path planning of prefabricated building components using semantic BIM, improved A* and GA

Keyu Chen (School of Civil Engineering and Architecture, Hainan University, Haikou, China)
Beiyu You (School of Civil Engineering and Architecture, Hainan University, Haikou, China)
Yanbo Zhang (School of Civil Engineering and Architecture, Hainan University, Haikou, China)
Zhengyi Chen (The Hong Kong University of Science and Technology, Hong Kong, China)

Engineering, Construction and Architectural Management

ISSN: 0969-9988

Article publication date: 26 March 2024

33

Abstract

Purpose

Prefabricated building has been widely applied in the construction industry all over the world, which can significantly reduce labor consumption and improve construction efficiency compared with conventional approaches. During the construction of prefabricated buildings, the overall efficiency largely depends on the lifting sequence and path of each prefabricated component. To improve the efficiency and safety of the lifting process, this study proposes a framework for automatically optimizing the lifting path of prefabricated building components using building information modeling (BIM), improved 3D-A* and a physic-informed genetic algorithm (GA).

Design/methodology/approach

Firstly, the industry foundation class (IFC) schema for prefabricated buildings is established to enrich the semantic information of BIM. After extracting corresponding component attributes from BIM, the models of typical prefabricated components and their slings are simplified. Further, the slings and elements’ rotations are considered to build a safety bounding box. Secondly, an efficient 3D-A* is proposed for element path planning by integrating both safety factors and variable step size. Finally, an efficient GA is designed to obtain the optimal lifting sequence that satisfies physical constraints.

Findings

The proposed optimization framework is validated in a physics engine with a pilot project, which enables better understanding. The results show that the framework can intuitively and automatically generate the optimal lifting path for each type of prefabricated building component. Compared with traditional algorithms, the improved path planning algorithm significantly reduces the number of nodes computed by 91.48%, resulting in a notable decrease in search time by 75.68%.

Originality/value

In this study, a prefabricated component path planning framework based on the improved A* algorithm and GA is proposed for the first time. In addition, this study proposes a safety-bounding box that considers the effects of torsion and slinging of components during lifting. The semantic information of IFC for component lifting is enriched by taking into account lifting data such as binding positions, lifting methods, lifting angles and lifting offsets.

Keywords

Citation

Chen, K., You, B., Zhang, Y. and Chen, Z. (2024), "Automatic lift path planning of prefabricated building components using semantic BIM, improved A* and GA", Engineering, Construction and Architectural Management, Vol. ahead-of-print No. ahead-of-print. https://doi.org/10.1108/ECAM-11-2023-1119

Publisher

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Emerald Publishing Limited

Copyright © 2024, Emerald Publishing Limited

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