Multi-Dimensional and Multi-Scale Intelligent Construction System for Entire Life Cycle

At present, the insufficient informatization and intelligentization in construction projects are causing inefficiencies and an overreliance on manual labor during project construction. The absence of a comprehensive theoretical framework has constrained most related research to the technical level primarily addressing specific construction step deficiencies, which has to some extent, hindered the advancement of intelligent construction. To address these challenges, considering the impact of spatiotemporal evolution and information flow on the entire construction process, we propose an intelligent construction system encompassing a holistic approach for the entire life cycle based on the previous studies. By focusing on both macro and micro levels, the study of intelligent construction system architectture is abstracted into the issue of multi-dimensional and multi-scale system modeling. The study was initiated by integrating time, informational, and structural hierarchical dimensions to perform data- and model-driven framework modeling and system building for the intelligent construction process. A multi-dimensional and multi-scale intelligent construction system architecture encompassing temporal, information, and structural hierarchical dimensions was developed, clarifying the meaning and function of each dimension. Based on this, a three-dimensional coordinate axis model for an intelligent construction system was proposed. We provided three typical scenarios utilizing the three-dimensional coordinate axis model to illustrate the formation mechanism in each dimension. Moreover, we introduced an entire life cycle intelligent construction model, using the main stadium of FIFA World Cup Qatar 2022 as an example to demonstrate the process of using intelligent construction systems throughout the entire life cycle. The various construction scenario examples and the case study of the main stadium support the universality and practicability of the intelligent construction system. Additionally, it offers novel insights for further research in intelligent construction theory and fosters the industry’s intelligent development. © 2023 Tianjin University. All rights reserved.