Experiencing Supply Chain Optimizations: A Serious Gaming Approach

AbstractTo provide new opportunities for acquiring experience in coordinating construction supply chain activities, this paper describes a serious gaming approach. Serious games offer their users an experience that is designed to be meaningful. Following the triadic game design approach, the authors...

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Bibliographic Details
Published in:Journal of construction engineering and management 2017-11, Vol.143 (11)
Main Authors: van den Berg, Marc, Voordijk, Hans, Adriaanse, Arjen, Hartmann, Timo
Format: Article
Language:English
Subjects:
Computer & video games
Construction
Construction management
Content analysis
Design
Educational software
Games
Outsourcing
Performance enhancement
Students
Supply chains
Technical Papers
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Summary:AbstractTo provide new opportunities for acquiring experience in coordinating construction supply chain activities, this paper describes a serious gaming approach. Serious games offer their users an experience that is designed to be meaningful. Following the triadic game design approach, the authors designed a board game that challenges a player to design and construct a skyscraper called Tower of Infinity. The research aim was to explore how serious games (like this one) can contribute to the experiential acquisition of construction supply chain management knowledge. Game sessions were organized in which 64 construction management students played the board game and reflected on it in a written report. A content analysis of these reports was then conducted to assess three hypotheses. Based on that analysis, it is concluded that serious games can enable students to experientially learn how to improve the performance of a construction supply chain through (1) co-ordinating design and construction tasks in a coherent manner; (2) taking constructability aspects into account when designing; and (3) continuously balancing scope, time, and cost throughout a project. Experiencing supply chain optimizations in such a playful way promotes better understanding of how and why waste occurs and may, ultimately, contribute to more efficient construction supply chain management practices.
ISSN:0733-9364
1943-7862
DOI:10.1061/(ASCE)CO.1943-7862.0001388