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Kumar, V and Lin, E T A (2020) Conceptualizing “COBieEvaluator”. Engineering, Construction and Architectural Management, 27(05), 1093–118.

Liu, D, Wang, Y, Chen, J and Zhang, Y (2019) Intelligent compaction practice and development: a bibliometric analysis. Engineering, Construction and Architectural Management, 27(05), 1213–32.

Lu, W, Tam, V W, Chen, H and Du, L (2020) A holistic review of research on carbon emissions of green building construction industry. Engineering, Construction and Architectural Management, 27(05), 1065–92.

Viswanathan, S K and Jha, K N (2020) Critical risk factors in international construction projects. Engineering, Construction and Architectural Management, 27(05), 1169–90.

Yun, L, Wan, J, Wang, G, Bai, J and Zhang, B (2020) Exploring the missing link between top management team characteristics and megaproject performance. Engineering, Construction and Architectural Management, 27(05), 1039–64.

Zaman, U (2020) Examining the effect of xenophobia on “transnational” mega construction project (MCP) success. Engineering, Construction and Architectural Management, 27(05), 1119–43.

Zhang, J, Li, H, Golizadeh, H, Zhao, C, Lyu, S and Jin, R (2020) Reliability evaluation index for the integrated supply chain utilising BIM and lean approaches. Engineering, Construction and Architectural Management, 27(05), 997–1038.

• Type: Journal Article
• Keywords: Building information modelling; Lean supply chain; Reliability evaluation; Set pair analysis; Markov chain;
• ISBN/ISSN: 0969-9988
• URL: https://doi.org/10.1108/ECAM-12-2018-0542
• Abstract:
  This research aims to develop an approach to assess the reliability of integrated construction supply chains via an integrated model of building information modelling (BIM) and the lean supply chain (LSC). It reflects the synergistic workflow between BIM and LSC as a novel approach to improve the reliability of construction projects. This research evaluates the reliability of the BIM-LSC approach through a combination of entropy theory, set pair analysis (SPA), and Markov chains (EESM). An exploratory survey was conducted to collect data from 316 industry professionals experienced in BIM and LSC. Subsequently, multiple cycles of calculations were performed with indirect data inputs. Finally, a reliability evaluation index is established for the BIM-LSC approach and potential applications are identified. The results show that the EESM model of BIM-LSC developed in this study can handle not only supply chain reliability evaluation at a given state but also the prediction of reliability in supply chain state transitions due to changing project conditions. This is particularly relevant to the current environment of the construction project, which is characterised by an increasing level of complexity in terms of labour, technology, and resource interactions. Future research could consider the accuracy and validity of the proposed model in real-life scenarios with by considering both quantitative and qualitative data across the entire lifecycle of projects. The research offers a model to evaluate the reliability of the BIM-LSC approach. The accuracy of BIM supply chain reliability analysis and prediction in an uncertain environment is improved. The BIM-LSC reliability evaluation and prediction presented in this study provides a theoretical foundation to enhance understanding of the BIM-LSC in the construction project context.

Zhu, D, Wen, H and Deng, Y (2020) Pro-active warning system for the crossroads at construction sites based on computer vision. Engineering, Construction and Architectural Management, 27(05), 1145–68.

Zhu, F, Wang, L, Yu, M and Yang, X (2020) Quality of conflict management in construction project context. Engineering, Construction and Architectural Management, 27(05), 1191–211.