Defining and Categorizing Modules in Building Projects: An International Perspective
Publication: Journal of Construction Engineering and Management
Volume 142, Issue 11
Abstract
Modularization involves breaking up a system into discrete chunks, which communicate with each other through standardized interfaces, rules, and specifications. It is a broad concept with various interpretations and meanings across research disciplines. The complexity and scope of a module is not captured sufficiently and clearly in the construction management and engineering literature, and the impact of modularization across project phases has not been fully explored and articulated. Therefore, the main question addressed in this paper relates to the inherent meaning of what is a module in the context of different phases of a building project. In addressing this question, this paper empirically investigates the use of modularity in 15 construction projects situated in Italy, Germany, Brazil, and the United Kingdom. The findings of this research suggest that a design-based and an operations-based perspective of modularity coexist, and that there is the need for an integrated view of modularity across the project lifecycle phases and for collaborative working between designers and site operators. To this aim, a unifying definition of a module in building projects is proposed along with a practical guide to help managers organize project activities for effective modularization. The actual cost analysis of the various modularization strategies provides an interesting avenue for future research. The template proposed also requires wider testing with a wider range of modules.
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Acknowledgments
The authors wish to acknowledge the five anonymous referees and the editor of the Journal of Construction Engineering and Management for having provided many helpful suggestions that considerably improved the manuscript. We are also grateful to the many practitioners and companies that made time to support this research. Finally, we would like to dedicate this paper to the life of Professor Denis Towill, our coauthor and friend, who sadly passed away while the paper was under review. It was a privilege to have known and worked with him (one last sign off TTFN DRT).
References
Baldwin, C. Y., and Clark, K. B. (2000). Design rules: The power of modularity, MIT Press, Cambridge, MA.
Barlow, J., Childerhouse, P., Gann, D., Hong-Minh, S. V., Naim, M., and Ozaki, R. (2003). “Choice and delivery in housebuilding: Lessons from Japan for U.K. housebuilders.” Build. Res. Inform., 31(2), 134–145.
Björnfot, A., and Stehn, L. (2004). “Industrialization of construction—A lean modular approach.” Proc., 12th Annual Conf. of the Int. Group for Lean Construction, Copenhagen, Denmark.
Blismas, N., Pasquire, C., and Gibb, A. (2006). “Benefit evaluation for off-site production in construction.” Constr. Manage. Econ., 24(2), 121–130.
Bradbury, D. (2012). “Thinking outside the box.” Financial Times, London.
Briscoe, G., and Dainty, A. (2005). “Construction supply chain integration: An elusive goal?” Supply Chain Manage., 10(4), 319–326.
Cigolini, R., and Castellano, A. (2002). “Using modularization to manage construction of onshore process plants: A theoretical approach and a case study.” Project Manage. J., 33(2), 29–40.
Cigolini, R., Pero, M., Rossi, T., and Sianesi, A. (2014). “Linking supply chain configuration to supply chain performance: A discrete event simulation model.” Simul. Modell. Pract. Theory, 40, 1–11.
Corbusier, L. (1954). “The modulor: A harmonious measure to the human scale universally applicable to architecture and mechanics.” Faber and Faber, London.
Doran, D., and Giannakis, M. (2011). “An examination of a modular supply chain: A construction sector perspective.” Supply Chain Manage.: Int. J., 16(4), 260–270.
Eastman, C., and Sacks, R. (2008). “Relative productivity in the AEC industries in the United States for on-site and off-site activities.” J. Constr. Eng. Manage., 517–526.
Ellram, L. M., Tate, W. L., and Carter, C. R. (2007). “Product-process-supply chain: An integrative approach to three-dimensional concurrent engineering.” Int. J. Phys. Distrib. Logist. Manage., 37(4), 305–330.
Ethiraj, S. K., and Levinthal, D. (2004). “Modularity and innovation in complex systems.” Manage. Sci., 50(2), 159–173.
Fine, C. H. (2000). “Clockspeed-based strategies for supply chain design.” Prod. Oper. Manage., 9(3), 213–221.
Flyvbjerg, B. (2006). “Five misunderstandings about case-study research.” Qual. Inq., 12(2), 219–245.
Galunic, D. C., and Eisenhardt, K. M. (2001). “Architectural innovation and modular corporate forms.” Acad. Manage. J., 44(6), 1229–1249.
Gibb, A. G. F., and Isack, F. (2003). “Re-engineering through pre-assembly: Client expectations and drivers.” Build. Res. Inform., 31(2), 146–160.
Glaser, L., Kramer, J., and Causey, E. (1979). “Modular plant concepts-practical aspects of modular and barge-mounted plants.” Chem. Eng. Prog., 75(10), 49–55.
Gosling, J., Naim, M., and Towill, D. (2013a). “Identifying and categorizing the sources of uncertainty in construction supply chains.” J. Constr. Eng. Manage., 102–110.
Gosling, J., Sassi, P., Naim, M., and Lark, R. (2013b). “Adaptable buildings: A systems approach.” Sustainable Cities Soc., 7, 44–51.
Gosling, J., Towill, D. R., Naim, M. M., and Dainty, A. R. (2015). “Principles for the design and operation of engineer-to-order supply chains in the construction sector.” Prod. Plann. Control, 26(3), 203–218.
Halman, J. I., Voordijk, J. T., and Reymen, I. M. (2008). “Modular approaches in Dutch house building: An exploratory survey.” Housing Stud., 23(5), 781–799.
Hofman, E., Voordik, H., and Halman, J. (2009). “Matching supply networks to a modular product architecture in the house-building industry.” Build. Res. Inform., 37(1), 31–42.
Ikuma, L. H., Nahmens, I., and James, J. (2010). “Use of safety and lean integrated kaizen to improve performance in modular homebuilding.” J. Constr. Eng. Manage., 551–560.
Institute of Mechanical Engineers. (2015). “U.K. house building: Manufacturing affordable quality homes.” London.
Ishii, K., Juengel, C., and Eubanks, C. F. (1995). “Design for product variety: Key to product line structuring.” 7th Int. Conf. on Design Theory and Methodology, Boston.
Jonsson, H., and Rudberg, M. (2014). “Classification of production systems for industrialized building: A production strategy perspective.” Constr. Manage. Econ., 32(1–2), 53–69.
Kagioglou, M., Cooper, R., Aouad, G., and Sexton, M. (2000). “Rethinking construction: The generic design and construction process protocol.” Eng. Constr. Archit. Manage., 7(2), 141–153.
Khalili, A., and Chua, D. (2013). “Integrated prefabrication configuration and component grouping for resource optimization of precast production.” J. Constr. Eng. Manage., 04013052.
Lu, N. (2009). “The current use of offsite construction techniques in the United States construction industry.” Construction Research Congress 2009, ASCE, Reston, VA, 946–955.
Meredith, J. (1998). “Building operations management theory through case and field research.” J. Oper. Manage., 16(4), 441–454.
Mikkola, J. H. (2006). “Capturing the degree of modularity embedded in product architectures.” J. Product Innovation Manage., 23(2), 128–146.
Miles, M. B., and Huberman, A. M. (1984). Qualitative data analysis, Sage, Newbury Park.
Miller, T. D. (1998). “Defining modules, modularity and modularization: evolution of the concept in a historical perspective.” Proc., 13th IPS Conf. Design for Integration in Manufacturing, J. O. Riis, ed., Fuglsoe, Denmark.
Modular Building Institute. (2015). 〈http://www.modular.org/〉 (Oct. 11, 2015).
Murtaza, M. B., Fisher, D. J., and Skibniewski, M. J. (1993). “Knowledge-based approach to modular construction decision support.” J. Constr. Eng. Manage., 115–130.
Naim, M., and Barlow, J. (2003). “An innovative supply chain strategy for customized housing.” Constr. Manage. Econ., 21(6), 593–602.
OALD. (2014). Oxford advanced learner’s dictionary, Oxford University Press, Oxford.
O’Brian, W. J., Formosa, C. T., Vrijhoef, R., and London, K. A. (2009). Construction supply chain management handbook, CRC Press, Boca Raton, FL.
O’Connor, J. T., O’Brien, W. J., and Choi, J. O. (2014). “Critical success factors and enablers for optimum and maximum industrial modularization.” J. Constr. Eng. Manage., 04014012.
O’Connor, J. T., O’Brien, W. J., and Choi, J. O. (2015). “Standardization strategy for modular industrial plants.” J. Constr. Eng. Manage., 04015026.
Pan, W., Gibb, A. G., and Dainty, A. R. (2007). “Perspectives of U.K. housebuilders on the use of offsite modern methods of construction.” Constr. Manage. Econ., 25(2), 183–194.
Pan, W., Gibb, A. G., and Dainty, A. R. (2012). “Strategies for integrating the use of off-site production technologies in house building.” J. Constr. Eng. Manage., 1331–1340.
Pero, M., Abdelkafi, N., Sianesi, A., and Blecker, T. (2010). “A framework for the alignment of new product development and supply chains.” Supply Chain Manage.: Int. J., 15(2), 115–128.
Pero, M., Stößlein, M., and Cigolini, R. (2015). “Linking product modularity to supply chain integration in the construction and shipbuilding industries.” Int. J. Prod. Econ., 170, 602–615.
Pil, F., and Cohen, S. (2006). “Modularity: Implications for imitation, innovation, and sustained advantage.” Acad. Manage. Rev., 31(4), 995–1011.
Polat, G., Arditi, D., Ballard, G., and Mungen, U. (2006). “Economics of on-site versus off-site fabrication of rebar.” Constr. Manage. Econ., 24(11), 1185–1198.
Salvador, F., Forza, C., and Rungtusanatham, M. (2002). “Modularity, product variety, production volume, and component sourcing: Theorizing beyond generic prescriptions.” J. Oper. Manage., 20(5), 549–575.
Schaefer, S. (1999). “Product design partitions with complementary components.” J. Econ. Behav. Organiz., 38(3), 311–330.
Schilling, M. A. (2000). “Toward a general modular systems theory and its application to interfirm product modularity.” Acad. Manage. Rev., 25(2), 312–334.
Schoenwitz, M., Naim, M., and Potter, A. (2012). “The nature of choice in mass customized house building.” Constr. Manage. Econ., 30(3), 203–219.
Seawright, J., and Gerring, J. (2008). “Case selection techniques in case study research a menu of qualitative and quantitative options.” Political Res. Q., 61(2), 294–308.
Stake, R. E. (1995). The art of case study research, Sage, Thousand Oaks, CA, 175.
Towill, D. R., Childerhouse, P., and Disney, S. M. (2002). “Integrating the automotive supply chain: Where are we now?” Int. J. Phys. Distrib. Logistics Manage., 32(2), 79–95.
Ulrich, K. (1995). “The role of product architecture in the manufacturing firm.” Res. Policy, 24(3), 419–440.
Voordijk, H., Meijboom, B., and Haan, J. D. (2006). “Modularity in supply chains: A multiple case study in the construction industry.” Int. J. Oper. Prod. Manage., 26(6), 600–618.
Vrijhoef, R., and Koskela, L. (2000). “The four roles of supply chain management in construction.” Eur. J. Purchasing Supply Manage., 6(3–4), 169–178.
Yin, K. R. (1984). Case study research: Design and methods, Sage Publications, London.
Yin, R. K. (2003). Case study research: Design and methods, Sage, London.
Zhai, X., Reed, R., and Mills, A. (2014). “Factors impeding the offsite production of housing construction in China: An investigation of current practice.” Constr. Manage. Econ., 32(1–2), 40–52.
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© 2016 American Society of Civil Engineers.
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Received: Aug 7, 2015
Accepted: Mar 17, 2016
Published online: May 20, 2016
Discussion open until: Oct 20, 2016
Published in print: Nov 1, 2016
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