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A Kassem, M, Khoiry, M A and Hamzah, N (2020) Assessment of the effect of external risk factors on the success of an oil and gas construction project. Engineering, Construction and Architectural Management, 27(09), 2767–93.

Adabre, M A and Chan, A P (2020) Towards a sustainability assessment model for affordable housing projects: the perspective of professionals in Ghana. Engineering, Construction and Architectural Management, 27(09), 2523–51.

Ahmadu, H A, Ibrahim, A D, Ibrahim, Y M and Adogbo, K J (2020) Incorporating aleatory and epistemic uncertainties in the modelling of construction duration. Engineering, Construction and Architectural Management, 27(09), 2199–219.

Akanmu, A, Olayiwola, J and Olatunji, O A (2020) Musculoskeletal disorders within the carpentry trade: analysis of timber flooring subtasks. Engineering, Construction and Architectural Management, 27(09), 2577–90.

Almatroushi, H, Hariga, M, As'ad, R and Al-Bar, A (2020) The multi resource leveling and materials procurement problem: an integrated approach. Engineering, Construction and Architectural Management, 27(09), 2135–61.

Amos, D, Au-Yong, C P and Musa, Z N (2020) Developing key performance indicators for hospital facilities management services: a developing country perspective. Engineering, Construction and Architectural Management, 27(09), 2715–35.

Chiu, W Y B and Lai, J H (2020) Building information modelling for building services engineering: benefits, barriers and conducive measures. Engineering, Construction and Architectural Management, 27(09), 2221–52.

Edwards, D J, Rillie, I, Chileshe, N, Lai, J, Hosseini, M R and Thwala, W D (2020) A field survey of hand–arm vibration exposure in the UK utilities sector. Engineering, Construction and Architectural Management, 27(09), 2179–98.

Farajmandi, M, Ali, M, Hermann, R and AbouRizk, S (2020) A decision support tool for planning module installation in industrial construction. Engineering, Construction and Architectural Management, 27(09), 2615–41.

Hsu, P, Aurisicchio, M, Angeloudis, P and Whyte, J (2020) Understanding and visualizing schedule deviations in construction projects using fault tree analysis. Engineering, Construction and Architectural Management, 27(09), 2501–22.

Karamoozian, A and Wu, D (2020) A hybrid risk prioritization approach in construction projects using failure mode and effective analysis. Engineering, Construction and Architectural Management, 27(09), 2661–86.

Liu, H, Song, J and Wang, G (2020) Development of a tool for measuring building information modeling (BIM) user satisfaction – method selection, scale development and case study. Engineering, Construction and Architectural Management, 27(09), 2409–27.

Liu, J, Cui, Z, Feng, Y, Perera, S and Han, J (2020) Impact of culture differences on performance of international construction joint ventures: the moderating role of conflict management. Engineering, Construction and Architectural Management, 27(09), 2353–77.

Luo, L, Zhang, L and He, Q (2020) Linking project complexity to project success: a hybrid SEM–FCM method. Engineering, Construction and Architectural Management, 27(09), 2591–614.

Ma, L and Fu, H (2020) Exploring the influence of project complexity on the mega construction project success: a qualitative comparative analysis (QCA) method. Engineering, Construction and Architectural Management, 27(09), 2429–49.

Maqsoom, A, Hamad, M, Ashraf, H, Thaheem, M J and Umer, M (2020) Managerial control mechanisms and their influence on project performance: an investigation of the moderating role of complexity risk. Engineering, Construction and Architectural Management, 27(09), 2451–75.

Moon, S, Ham, N, Kim, S, Hou, L, Kim, J and Kim, J (2020) Fourth industrialization-oriented offsite construction: case study of an application to an irregular commercial building. Engineering, Construction and Architectural Management, 27(09), 2271–86.

Nasirzadeh, F, Kabir, H D, Akbari, M, Khosravi, A, Nahavandi, S and Carmichael, D G (2020) ANN-based prediction intervals to forecast labour productivity. Engineering, Construction and Architectural Management, 27(09), 2335–51.

Sezegen, A and Edis, E (2020) Product innovation types: a discussion considering building facade products. Engineering, Construction and Architectural Management, 27(09), 2379–408.

Sinoh, S S, Othman, F and Ibrahim, Z (2020) Critical success factors for BIM implementation: a Malaysian case study. Engineering, Construction and Architectural Management, 27(09), 2737–65.

Tran, D H (2020) Optimizing time–cost in generalized construction projects using multiple-objective social group optimization and multi-criteria decision-making methods. Engineering, Construction and Architectural Management, 27(09), 2287–313.

Tran, D Q, Harper, C M, Smadi, A M and Mohamed, M (2020) Staffing needs and utilization for alternative contracting methods in highway design and construction. Engineering, Construction and Architectural Management, 27(09), 2163–78.

Viswanathan, S K and Jha, K N (2020) Risk mitigation modelling of international construction projects executed by Indian firms: a structural equation modelling approach. Engineering, Construction and Architectural Management, 27(09), 2687–713.

Wang, P, Wu, P, Wang, X, Chen, X and Zhou, T (2020) Developing optimal scaffolding erection through the integration of lean and work posture analysis. Engineering, Construction and Architectural Management, 27(09), 2109–33.

Wu, J, Liu, H J, Sing, M C, Humphrey, R and Zhao, J (2020) Public–private partnerships: implications from policy changes for practice in managing risks. Engineering, Construction and Architectural Management, 27(09), 2253–69.

Wuni, I Y and Shen, G Q (2020) Critical success factors for management of the early stages of prefabricated prefinished volumetric construction project life cycle. Engineering, Construction and Architectural Management, 27(09), 2315–33.

  • Type: Journal Article
  • Keywords: Critical success factors; Early stages; Management; PPVC; Project life cycle;
  • ISBN/ISSN: 0969-9988
  • URL: https://doi.org/10.1108/ECAM-10-2019-0534
  • Abstract:
    For many types of buildings, prefabricated prefinished volumetric construction (PPVC) is increasingly becoming a preferred alternative construction approach. Empirical evidence of project performance has consistently demonstrated that the ultimate success of PPVC projects is directly linked to the key decisions made at the outset of the PPVC project life cycle. However, there is limited knowledge of how to successfully manage these early stages. This research identified and evaluated the critical success factors (CSFs) required for the management of the conception, planning and design stages of the PPVC project life cycle.Design/methodology/approach A multistage methodological framework was adopted to identify and evaluate the CSFs for management of the early stages of the PPVC project life cycle. Based on a comprehensive literature review and expert review, a list of the 9 CSFs relevant to the early stages of the PPVC project life cycle was established. Drawing on an online-based international questionnaire survey with global PPVC experts, the CSFs were measured. The data set was statistically tested for reliability and analyzed using several techniques such as mean scores, relativity weightings and significance analysis.Findings The analysis revealed that the top 5 most influential CSFs for management of the early stages of the PPVC project life cycle include robust design specifications, accurate drawings and early design freeze; good working collaboration, effective communication and information sharing among project participants; effective stakeholder management; extensive project planning and scheduling; and early engagement of key players. The research further found correlations among the CSFs and proposed a conceptual framework for the management of the early stages of the PPVC project life cycle.Research limitations/implications The research recognizes that data quality and reliability risks are the major drawbacks of online questionnaire surveys but the engagement of experts with substantial theoretical and hands-on experiences in PPVC projects helped to minimize these risks. Although small, the sample size was justified and compared with studies that adopted the same data collection approach but analyzed even smaller samples. However, the results should be interpreted against these limitations.Practical implications The findings suggest that effective management of the early stages of the PPVC project lifecycle requires early commitment to the PPVC approach in a project; detailed planning and assessment of the suitability of PPVC for the given project; and collaborative design with manufacturers and suppliers to address module production challenges at the detailed design stage. These findings practically instructive and may serve as management support during PPVC implementation.Originality/value This research constitutes the first exclusive attempt at identifying the CSFs for successful management of the early stages of the PPVC project life cycle. It provides a fresh and more in-depth understanding of how best to manage the early stages of the PPVC project life cycle. Thus, it contributes to the practice and praxis of the PPVC project implementation discourse.

Zhang, H and Yu, L (2020) Dynamic transportation planning for prefabricated component supply chain. Engineering, Construction and Architectural Management, 27(09), 2553–76.

Zhang, H, Yu, L and Zhang, W (2020) Dynamic performance incentive model with supervision mechanism for PPP projects. Engineering, Construction and Architectural Management, 27(09), 2643–59.

Zhang, S B, Chen, J and Fu, Y (2020) Contract complexity and trust in construction project subcontracting. Engineering, Construction and Architectural Management, 27(09), 2477–500.