References
- Abdolshah M. 2014. A review of resource-constrained project scheduling problems (RCPSP) approaches & solutions. Int Trans J Eng, Manage Appl Sci Technol. 5:34.
- Afshar MR, Shahhosseini V, Sebt MH. 2019. A genetic algorithm with a new local search method for solving the multimode resource-constrained project scheduling problem. Int J Constr Manage. 1–9. DOI: 10.1080/15623599.2019.1623992.
- AlBahnassi H, Hammad A. 2012. Near real-time motion planning and simulation of cranes in construction: framework and system architecture. J Comput Civ Eng. 26(1):54–63.
- Ammar MA. 2013. LOB and CPM Integrated method for scheduling repetitive projects. J Constr Eng Manage. 139(1):44–50.
- Chen J, Fang Y, Cho YK. 2017. Real-time 3D crane workspace update using a hybrid visualisation approach. J Comput Civ Eng. 31(5):04017049.
- Ekanayake EMAC, Shen GQ, Kumaraswamy MM, Owusu EK. 2020. Identifying supply chain vulnerabilities in industrialised construction: an overview. Int J Constr Manage. 1–14. DOI: 10.1080/15623599.2020.1728487.
- Griffith A. 2002. Integrated management systems for enhancing project quality, safety and environment. Int J Constr Manage. 2(1):25–37.
- Hammad AW, Grzybowska H, Sutrisna M, Akbarnezhad A, Haddad A. 2019. A novel mathematical optimisation model for the scheduling of activities in modular construction factories. Constr Manage and Econ. 38(6):1–18.
- Han S, Bouferguene A, Al-Hussein M, Hermann U. 2017. 3D-based crane evaluation system for mobile crane operation selection on modular-based heavy construction sites. J Constr Eng Manage. 143(9):04017060.
- Han S, Lei Z, Bouferguene A, Al-Hussein M, Hermann U. 2016. 3D visualisation-based motion planning of mobile crane operations in heavy industrial projects. J Comput Civ Eng. 30(1):04014127.
- Han H, Mi L, Yang T, Luo X. 2018. Mathematical model for crane scheduling in mixed yard. In ITM web of conferences (Vol. 17, p. 03029). EDP Sciences.
- Hattab MA, Zankoul E, Hamzeh FR. 2017. Near-real-time optimisation of overlapping tower crane operations: a model and case study. J Comput Civ Eng. 31(4):05017001.
- Ji Y, Leite F. 2020. Optimised planning approach for multiple tower cranes and material supply points using mixed-integer programming. J Constr Eng Manage. 146(3):04020007.
- Kim K, De La Garza JM. 2004. A new approach to resource constrained scheduling. In: Towards a vision for information technology in civil engineering; Fourth Joint International Symposium on Information Technology in Civil Engineering; Nov 15–16, 2003; Nashville, Tennessee, United States. p. 1–6.
- Kwon OK, Kim JH. 2004. The Roles of Construction Management in Super High-Rise Building Projects. Council Tall Build Urban Habitat, Seoul.
- Lei Z, Han S, Bouferguène A, Taghaddos H, Hermann U, Al-Hussein M. 2015. Algorithm for mobile crane walking path planning in congested industrial plants. J Constr Eng Manage. 141(2):05014016.
- Li R, Fu Y, Liu G, Mao C, Xu P. 2018. An Algorithm for Optimising the Location of Attached Tower Crane and Material Supply Point with BIM. Proceedings of the International Symposium on Automation and Robotics in Constr ISARC (Vol. 35, p. 1–8). IAARC Publications.
- Maghzi S. 2014. Improved tower cranes operation using integrated 3D BIM model and GPS technology [master’s thesis]. Montreal (QC): Concordia University.
- Marzouk M, Abubakr A. 2016. Decision support for tower crane selection with building information models and genetic algorithms. J Auto Constr. 61:1–15.
- Moussavi Nadoushani ZS, Hammad AW, Akbarnezhad A. 2017. Location optimisation of tower crane and allocation of material supply points in a construction site considering operating and rental costs. J Constr Eng Manage. 143(1):04016089.
- Peng H, Shi B, Wang X, Li C. 2019. Interval estimation and optimisation for motion trajectory of overhead crane under uncertainty. Nonlinear Dyn. 96(2):1693–1715.
- Reis JS, Lucko G. 2016. Productivity scheduling method with maximum constraints. Int J Constr Manage. 16(1):77–93.
- Safa M, Reinsma S, Haas CT, Goodrum PM, Caldas CH. 2018. A decision-making method for choosing concrete forming systems. Int J Constr Manage. 18(1):53–64.
- Sebt MH, Afshar MR, Alipouri Y. 2017. Hybridisation of genetic algorithm and fully informed particle swarm for solving the multimode resource-constrained project scheduling problem. Eng Optim. 49(3):513–530.
- Shapira A, Ben-David A. 2017. Characteristics of equipment planning for multi-crane building construction sites. Build J. 7(3):81.
- Shapira A, Elbaz A. 2014. Tower crane cycle times: case study of remote-control versus cab-control operation. J Constr Eng Manage. 140(12):05014010.
- Şimşit ZT, Günay NS, Vayvay Ö. 2014. Theory of constraints: a literature review. Procedia-Social and Behavioural Sciences. 150:930–936.
- Steyn H. 2002. Project management applications of the theory of constraints beyond critical chain scheduling. Int J Project Manage. 20(1):75–80.
- Suhail SA, Neale RH. 1994. CPM/LOB: new methodology to integrate CPM and line of balance. J Constr Eng Manage. 120(3):667–684.
- Trojanowska J, Dostatni E. 2017. Application of the theory of constraints for project management. Manage Prod Eng Rev. 8(3):87–95.
- Yang J, Vela P, Teizer J, Shi Z. 2014. Vision-based tower crane tracking for understanding construction activity. J Comput Civ Eng. 28(1):103–112.
- Yeoh JK, Chua DK. 2017. Optimising crane selection and location for multistage construction using a four-dimensional set cover approach. J Constr Eng Manage. 143(8):04017029.