Context of production control in construction
Henrich, G, Tilley, P and Koskela, LJ 2005, Context of production control in construction , in: 13th International Group for Lean Construction Conference, July 2005, Sydney, Australia.
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It is commonly accepted that production control systems should correspond to the context within which they are operating, i.e. the production situation. However, rarely is this context indicated or made explicit; for example, the boundary conditions or the range of validity of a particular production control method. Thus, it is the aim of this paper to analyze how the production context could more systematically be taken into account when determining which production control system to use. Whilst it is acknowledged that contextual issues can be approached in a variety of ways, this is dependent on the perspective being considered (e.g. from a management hierarchy perspective, or a process stage perspective). This investigation looks at context from a process stage perspective and firstly considers the major production control approaches (such as CPM, Line-of-Balance, Last Planner System and Critical Chain) to determine their range of validity. Secondly, we endeavour to identify a typology of production control situations (ideal types), together with a suggestion for production control in each case. Finally, we attempt to deconstruct production control into its constituent elements and evaluate the alternative suggestions at this elemental level in relation to their contextual assumptions. In the paper, all three approaches are discussed and illustrated, based on prior literature and field observations.
|Item Type:||Conference or Workshop Item (Paper)|
|Uncontrolled Keywords:||Production control, Methods, Typology, Decision functions|
|Themes:||Subjects / Themes > T Technology > TS Manufactures > TS155-194 Production management. Operations management|
Subjects outside of the University Themes
|Schools:||Colleges and Schools > College of Science & Technology > School of the Built Environment|
Colleges and Schools > College of Science & Technology > School of the Built Environment > Salford Centre for Research & Innovation (SCRI)
|Journal or Publication Title:||Proceedings IGLC-13|
|Depositing User:||LJ Koskela|
|Date Deposited:||21 Jun 2010 11:22|
|Last Modified:||27 Sep 2011 12:23|
|References:||Ahuja, V. Thiruvengadam, V. (2004). Project scheduling and monitoring: current research status. Construction and Innovation, 4(1) 19–31. Arditi, D.; Tokdemir, O.B.; Suh, K. (2002). Challenges in Line-of-Balance Scheduling. Journal of Construction Engineering and Management. 128(6) December, 2002. Ballard, G. & Howell, G. (1998). “What kind of production is construction”. IGLC-6. Sixth International Group for Lean Construction Conference Proceedings. Ballard, G. (2000). “The last planner system of production control”. PhD. Thesis. Falculty of Engineering of The University of Birmingham, UK. Ballard, G.; Howell, G. 2003. An update on last planner. 11th Annual Conference on Lean Construction, IGLC, Blacksburg, Virginia - United States. Bertrand, J.W.M.; Wortmann, J.C.; Wijngaard, J. (1990). “Production control: a structural and design oriented approach”. Elsevier—The Netherlands. pp. 322. Birrell, G.S. 1980, “Construction Planning—Beyond the Critical Path”. Journal of the Construction Division, Proceedings of the American Society of Civil Engineers, 106 (CO3) Sept. 1980. Chenhall. R. H. (2003). “Management control systems design within its organizational contex: findings from contingency based research and directions for the future”. Accounting, Organization and Society, 28 127–168. Pergamon. Goldartt, E.H. (1997). Critical chain. Great Barrington, MA: North River Press. Howell, G.; Koskela, L. (2000). “Reforming Project Management: The Role of Lean Construction”. 8th Annual Conference on Lean Construction, IGLC. Brighton, UK. Jaafari, A. 1984. “Criticism of CPM for Project Planning Analysis”. Journal of Construction Engineering and Management. 110(2), 222–234. Kavanagh, D. P. 1985. SIREN: a repetitive construction simulation model. Journal of Construction Engineering and Management ASCE, 111(3) 308–323. Kelley, J. E. and Walker, M. R. (1959). Critical-Path Planning and Scheduling. Proceedings of the Eastern Joint Computer Conference, Boston, MA, 16, 160–172. Kenley, R. (2004). “Project micromanagement: practical site planning and management of work flow”. 12th Annual Conference on Lean Construction, IGLC, Denmark. Koskela, L.; Howell, G. (2002). “The Underlying Theory of Project Management is Obsolete”. Proceedings of the PMI Research Conference. 293–302. Koskela, L. (2004. “Making do—the eighth category of waste”. 12th Annual Conference on Lean Construction, IGLC, Denmark. Leach, L.P. (2000). The wiley guide to managing project—critical chain project management Chapter 13. Boston : Artech House. 805–829. Lumsden, P. (1968). The line of balance Method. Oxford: Pergamon Press. Madsen, M. M. and Larsen, M. (2002). TrimByg– Et produktivitetsfremmende konsept til byggeriet. Eksamensprojekt ved BYG DTU, Afdeling for byggledelse. p13. Melles, B.; and Wamelink, J.W.F. (1997). Production control in construction: different approaches to control, use of information and automated data processing. Delftse Universitaire Pers. The Netherlands. pp. 318. Mendes, R. (1999). Programação na construção de edifícios de míltiplos pavimentos. Doctoral Thesis. Universidade Federal de Santa Catarina PPGEP. Florianópolis Brazil. Missbauer, H. (2002). “Aggregate order release planning for time-varying demand”. International Journal of Production Research. 40(3). 699–718. Peer, S. (1974). “Network Analysis and Construction Planning”. Journal of the Construction Division, Proceedings of the American Society of Civil Engineers, 100(CO3), September. Portougal, V. and Robb, D.J. (2000). “Production scheduling theory: just where is it applicable?” Interfaces 30 (6). 64-76. Rand, G.K. (2000). “Critical chain: the theory of constraints applied to project management.” International Journal of the Project Management. 18, 173–177. Pergamon. Raz, T., Barnes, R. and Dvir, D. (2003). “A critical look at critical chain project management”. Project Management Journal. December. 24–32. Soini, M.; Leskela, I.; Seppanen, O. 2004. “Implementation of line-of-balance based scheduling and project control system in a large construction company”. 12th Annual Conference on Lean Construction, IGLC, Denmark. Vries, G., Bertrand, J.W.M. and Vissers, J.M.H. (1999). “Design requirements for health care production control systems.” Production Planning & Control. 10(6). 559–569. Yamín, R.A. and Harmelink, D.J. (2001). “Comparison of linear scheduling model (LSM) and critical path method (CPM).” Journal of Construction Engineering and Management ASCE, 127(5), September/October. 374–381. Yi, K.J., Lee, H. and Choi, Y. K. (2002). “Network creation and development for repetitiveunit projects.” Journal of Construction Engineering and Management ASCE, 128(3), June, 257–264.|
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