Why Use Enactable Models of Construction Processes?
Publication: Journal of Construction Engineering and Management
Volume 125, Issue 6
Abstract
Construction is a process-based industry. In such an industry it is important to have a clear understanding of the process. One way to achieve this is by the use of a process model. In a European Community funded research project the business process of a small U.K. construction company was modeled and analyzed. Both visual modeling and enactable modeling techniques were used in this exercise. This paper aims to show how process understanding can be better achieved by a combination of visual models and enactable models. This is supported by examples from the construction company process studied. The tools and techniques used in this exercise are those developed by the collaborators of the project. The visual modeling is done using ProcessWise WorkBench and Role Activity Diagrams. The view of the business process given by the ProcessWise WorkBench models is predominantly process based, whereas Role Activity Diagrams provide a role based view of the process. The enactable modeling is done using RolEnact, a modeling tool that enacts formal specifications of processes.
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References
1.
Abeysinghe, G. K., Henderson, P., Phalp, K. T., and Walters, R. J. (1998). “RolEnact: Enactable models of business processes.” Information and Software Technol., The Netherlands, 40(3).
2.
Abeysinghe, G. K., and Phalp, K. T. (1997). “Combining process modeling methods.” Information and Software Technol., The Netherlands, 39(2), 107–124.
3.
Alabastro, M. S., Beckmann, G., Gifford, G., Massey, A. P., and Wallace, W. A. (1995). “The use of visual modeling in designing a manufacturing process for advanced composite structures.” IEEE Trans. on Engrg. Mgmt., 42(3), 233–242.
4.
“CORE, construction companies processes reengineering.” (1995). 〈http://iwi.uni-sb.de/forchungprojekte/core/core-e.html〉.
5.
Elzinga, D. J., Horak, T., Lee, C.-Y., and Bruner, C. (1995). “Business process management.” IEEE Trans. on Engrg. Mgmt., 42(2), 119–128.
6.
Fereidoon, S.-A., and Warboys, B. C. ( 1995). “Roles represent patterns.” Workshop on Pattern Languages of Object-Oriented Programs, ECOOP'95, 〈http://www.cs.man.ac.uk/ipg/publications.html〉.
7.
Gonzalez-Quevedo, A. A., AbouRizk, S. M., Iseley, D. T., and Halpin, D. W. (1993). “Comparison of two simulation methodologies in construction.”J. Constr. Engrg. and Mgmt., ASCE, 119(3), 573–589.
8.
Gruhn, V. (1995). “Business process modeling and workflow management.” Int. J. Cooperative Information Sys., 4(2/3), 145–164.
9.
Halpin, D. W. (1993). “Process-based research to meet the international challenge.”J. Constr. Engrg. and Mgmt., ASCE, 119(3), 415–425.
10.
Halpin, D. W., and Huang, R.-Y. (1995). “A process-based approach to value-added construction—the CYCLONE/DISCO system.” Can. J. Civ. Engrg., Ottawa, 22(6), 1063–1071.
11.
Henderson, P. (1993). “Object-oriented specification and design with C++.” McGraw-Hill International Series in Software Engineering, McGraw-Hill Book Company Europe, England.
12.
Henderson, P. ( 1995a). Enact user manual. Declarative Sys. and Software Engrg. Group, Dept. of Electronics and Comp. Sci., University of Southampton, U.K., 〈http://dsse.ecs.soton.ac.uk/∼peter/cv.html〉.
13.
Henderson, P. ( 1995b). “Making models of process support in enact.” Declarative Sys. and Software Engrg. Group, Dept. of Electronics and Comp. Sci., University of Southampton, U.K., 〈http://dsse.ecs. soton.ac.uk/∼peter/cv.html〉.
14.
Henderson, P., and Pratten, G. D. (1995). “POSD—A notation for presenting complex systems of processes.” Proc., 1st IEEE Int. Conf. on Engrg. of Complex Sys., IEEE Computer Society Press, New York, 125–128.
15.
Laborde, M., and Sanvido, V. (1994). “Introducing new process technologies into construction companies.”J. Constr. Engrg. and Mgmt., ASCE, 120(3), 488–508.
16.
Ould, A. M. (1995). Business processes, modelling and analysis for re-engineering and improvement. John Wiley & Sons Ltd., England.
17.
Paulson, Boyd C., Jr. (1995). “Computers and construction—Midcareer reflections.”J. Constr. Engrg. and Mgmt., ASCE, 121(2), 197–200.
18.
Phalp, K. P. ( 1996). “Models to support business process change.” Declarative Sys. and Software Engrg. Group, Dept. of Electronics and Comp. Sci., University of Southampton, U.K., 〈http://dsse.ecs. soton.ac.uk/∼kp/cv.html〉.
19.
ProcessWise workbench user guide, standard edition. (1995). ICL Enterprise Technology, Bracknell, Berkshire, U.K.
20.
Snowdon, R. A. ( 1994). “Overview of process modelling.” ICL ProcessWise Portfolio Centre, Kidsgrove, U.K., 〈http://www.cs. man.ac.uk/ipg/Docs/pmover.html〉.
21.
Vanegas, J. A., Bravo, E. B., and Halpin, D. W. (1993). “Simulation technologies for planning heavy construction processes.”J. Constr. Engrg. and Mgmt., ASCE, 119(2), 336–354.
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Received: Oct 7, 1996
Published online: Dec 1, 1999
Published in print: Dec 1999
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