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Abd Elsalam, M F (2021) Breaking through the classical determinants in the field of hyper urban planning. Construction Innovation, 21(4), 818-36.

Al Jassmi, H, Al Ahmad, M and Ahmed, S (2021) Automatic recognition of labor activity: a machine learning approach to capture activity physiological patterns using wearable sensors. Construction Innovation, 21(4), 555-75.

Alkhateeb, A M, Hyari, K H and Hiyassat, M A (2021) Analyzing bidding competitiveness and success rate of contractors competing for public construction projects. Construction Innovation, 21(4), 576-91.

Arai, K and Morimoto, E (2021) Productivity and innovation in the Japanese construction industry. Construction Innovation, 21(4), 917-33.

Bilge, E C and Yaman, H (2021) Information management roles in real estate development lifecycle: literature review on BIM and IPD framework. Construction Innovation, 21(4), 723-42.

Bosch-Sijtsema, P, Claeson-Jonsson, C, Johansson, M and Roupe, M (2021) The hype factor of digital technologies in AEC. Construction Innovation, 21(4), 899-916.

Charlson, J and Dimka, N (2021) Design, manufacture and construct procurement model for volumetric offsite manufacturing in the UK housing sector. Construction Innovation, 21(4), 800-17.

Dharmapalan, V, O'Brien, W J, Morrice, D and Jung, M (2021) Assessment of visibility in industrial construction projects: a viewpoint from supply chain stakeholders. Construction Innovation, 21(4), 782-99.

Ghansah, F A, Owusu-Manu, D G, Ayarkwa, J, Edwards, D J and Hosseini, M R (2021) Exploration of latent barriers inhibiting project management processes in adopting smart building technologies (SBTs) in the developing countries. Construction Innovation, 21(4), 685-707.

Gharouni Jafari, K, Noorzai, E and Hosseini, M R (2021) Assessing the capabilities of computing features in addressing the most common issues in the AEC industry. Construction Innovation, 21(4), 875-98.

Guven, G and Ergen, E (2021) Tracking major resources for automated progress monitoring of construction activities: masonry work case. Construction Innovation, 21(4), 648-67.

Kapogiannis, G, Fernando, T and Alkhard, A M (2021) Impact of proactive behaviour antecedents on construction project managers' performance. Construction Innovation, 21(4), 708-22.

Kasbar, M, Staub-French, S, Pilon, A, Poirier, E, Teshnizi, Z and Froese, T (2021) Construction productivity assessment on Brock Commons Tallwood House. Construction Innovation, 21(4), 951-68.

Lavikka, R, Chauhan, K, Peltokorpi, A and Seppänen, O (2021) Value creation and capture in systemic innovation implementation: case of mechanical, electrical and plumbing prefabrication in the Finnish construction sector. Construction Innovation, 21(4), 837-56.

M.E. Sepasgozar, S, Shirowzhan, S and Loosemore, M (2021) Information asymmetries between vendors and customers in the advanced construction technology diffusion process. Construction Innovation, 21(4), 857-74.

Obi, L I, Arif, M, Awuzie, B, Islam, R, Gupta, A D and Walton, R (2021) Critical success factors for cost management in public-housing projects. Construction Innovation, 21(4), 625-47.

Ofori-Kuragu, J K and Osei-Kyei, R (2021) Mainstreaming pre-manufactured offsite processes in construction – are we nearly there?. Construction Innovation, 21(4), 743-60.

Pablo, Z, London, K, Wong, P S P and Khalfan, M (2021) Actor-network theory and the evolution of complex adaptive supply networks. Construction Innovation, 21(4), 668-84.

Salama, T, Salah, A and Moselhi, O (2021) Integrating critical chain project management with last planner system for linear scheduling of modular construction. Construction Innovation, 21(4), 525-54.

Sarvari, H, Nassereddine, H, Chan, D W M, Amirkhani, M and Md Noor, N (2021) Determining and assessing the significant barriers of transferring unfinished construction projects from the public sector to the private sector in Iran. Construction Innovation, 21(4), 592-607.

Sergeeva, N and Duryan, M (2021) Reflecting on knowledge management as an enabler of innovation in project-based construction firms. Construction Innovation, 21(4), 934-50.

Sutrisna, M, Tjia, D and Wu, P (2021) Developing a predictive model of construction industry-university research collaboration. Construction Innovation, 21(4), 761-81.

Ying, F J, O'Sullivan, M and Adan, I (2021) Simulation of vehicle movements for planning construction logistics centres. Construction Innovation, 21(4), 608-24.

• Type: Journal Article
• Keywords: integration; logistics management; New Zealand; simulation; supply chain management
• ISBN/ISSN:
• URL: https://doi.org/10.1108/CI-02-2020-0028
• Abstract:
  Materials supply is one of the important elements in construction operation and a major factor affecting the quality of construction projects. Many industries look to manage materials effectively by attempting to integrate logistics processes into logistics chains of suppliers and customers. Logistics processes, being crucial for successful completion of construction projects, but in fact, auxiliary, are often entrusted to external professionals specialised in logistic services, such as logistics centres. However, this tendency is yet to be developed in construction. The purpose of this paper is to develop a simulation framework for the examination of potential improvements of logistics performance using logistics centres. A case study approach was adopted with computer simulation using Flexsim. Data of vehicle movements were collected during construction on-site from the start of construction to hand-over to the building owner. The ideal location of a logistics centre is identified using vehicle movements data collected on the site. The potential improvements of the planned centre are then evaluated by simulating various scenarios of vehicle movements. The enclosed results from the simulations indicate that using a logistics centre will reduce waste for the construction project considered. The paper emphasises that creating a logistics centre for a project can improve construction logistics performance, by consolidating and optimizing both off-site and on-site logistics, especially when the site condition is prohibitive (small footprint with limited loading bay area). Establishing logistics centres may help find ways of making the overall construction project more effective by improving the management of materials.