ARCOM

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Agha, R H and Kamara, J M (2017) Adaptations in traditional courtyard houses in Baghdad, Iraq. International Journal of Building Pathology and Adaptation, 35(04), 348–63.

Al-Ghassani, A M, Kamara, J M, Anumba, C J and Carrillo, P M (2004) An innovative approach to identifying knowledge management problems. Engineering, Construction and Architectural Management, 11(05), 349–57.

Al-Ghassani, A M, Kamara, J M, Anumba, C J and Carrillo, P M (2006) Prototype System for Knowledge Problem Definition. Journal of Construction Engineering and Management, 132(05), 516–24.

Chen, Y and Kamara, J M (2005) The use of mobile computing in construction information management. In: Khosrowshahi, F (Ed.), Proceedings 21st Annual ARCOM Conference, 7-9 September 2005, London, UK. Association of Researchers in Construction Management, Vol. 1, 581–90.

Chen, Y and Kamara, J M (2008) Using mobile computing for construction site information management. Engineering, Construction and Architectural Management, 15(01), 7–20.

Hegazy, T and Kamarah, E (2008) Efficient Repetitive Scheduling for High-Rise Construction. Journal of Construction Engineering and Management, 134(04), 253–64.

• Type: Journal Article
• Keywords: Scheduling; Buildings, high-rise; Construction management; Computer applications;
• ISBN/ISSN: 0733-9364
• URL: https://doi.org/10.1061/(ASCE)0733-9364(2008)134:4(253)
• Abstract:
  A new scheduling and cost optimization model for high-rise construction is presented in this paper. The model has been formulated with a unique representation of the activities that form the building’s structural core, which need to be dealt with carefully to avoid scheduling errors. In addition, the model has been formulated incorporating: (1) the logical relationships within each floor and among floors of varying sizes; (2) work continuity and crew synchronization; (3) optional estimates and seasonal productivity factors; (4) prespecified deadline, work interruptions, and resource constraints; and (5) a genetic algorithms-based cost optimization that determines the combination of construction methods, number of crews, and work interruptions that meet schedule constraints. A computer prototype was then developed to demonstrate the model’s usefulness on a case study high-rise project. The model is useful to both researchers and practitioners as it better suits the environment of high-rise construction, avoids scheduling errors, optimizes cost, and provides a legible presentation of resource assignments and progress data.

Heidrich, O, Kamara, J, Maltese, S, Re Cecconi, F and Dejaco, M C (2017) A critical review of the developments in building adaptability. International Journal of Building Pathology and Adaptation, 35(04), 284–303.

Kamara, J M (2012) Integration in the project development process of a Private Finance Initiative (PFI) project. Architectural Engineering and Design Management, 8(04), 228-45.

Kamara, J M (2017) Maintaining focus on clients’ requirements using the DQI tool: Towards a requirements-oriented project process. Built Environment Project and Asset Management, 7(03), 271-83.

Kamara, J M, Anumba, C J and Evbuomwan, N F O (2000) Establishing and processing client requirements-a key aspect of concurrent engineering in construction. Engineering, Construction and Architectural Management, 7(01), 15–28.

Kamara, J M, Anumba, C J and Hobbs, B (1999) From briefing to client requirements processing. In: Hughes, W (Ed.), Proceedings 15th Annual ARCOM Conference, 15-17 September 1999, Liverpool, UK. Association of Researchers in Construction Management, Vol. 1, 317–26.

Kamara, J M, Augenbroe, G, Anumba, C J and Carrillo, P M (2002) Knowledge management in the architecture, engineering and construction industry. Construction Innovation, 2(01), 53–67.