Development and Deployment of Traffic Control Game: Integration with Traffic Engineering Curriculum for Teaching High School Students
Abstract
The Intelligent Transportation Systems Institute at the University of Minnesota has delivered several educational activities such as undergraduate research programs and online transportation web research modules for high school classes. The need is growing to extend the current educational outreach effort with additional focus on high school students. A goal is to interest high school students in transportation careers through the integration of educational game modules and curricula in teaching various concepts of intelligent transportation control and management. As part of the education and outreach effort, an interactive web-based traffic control simulation module and a professionally enhanced traffic game were developed and piloted to undergraduate transportation engineering classes and high school summer camps at the University of Minnesota. Several lessons developed for high school science classrooms were based on activities using the traffic control game. A developed curriculum was evaluated through observation of student participation and engagement during five summer camp sessions in 2008 and 2009. At the end of each session, a survey was performed to collect students' feedback and learning experience from the curriculum and traffic control game. Results from the survey indicated student excitement toward the game and their receptiveness to the traffic engineering curriculum. Students were significantly more aware of traffic engineering issues after participating in the curriculum activities. It is hoped that students will be able to learn from their experience through a simulation environment and use the experience to deepen their understanding of intelligent transportation systems.
Get full access to this article
View all access and purchase options for this article.
References
1. Polzin S. E., and Ward B. G. Designing an Interdisciplinary Educational Program to Support Transportation Workforce Development. In Transportation Research Record: Journal of the Transportation Research Board, No. 1812, Transportation Research Board of the National Academies, Washington, D.C., 2002, pp. 143–150.
2. Young M. The Aging-and-Retiring Government Workforce. CPS: Human Resource Services and the Center for Organizational Research, 2003. http://www.wagnerbriefing.com/downloads/CPS_AgeBubble_ExecutiveSummary.pdf. Accessed June 2008.
3. Lipinski M. E., and Wilson E. M. Undergraduate Transportation Education: Who Is Responsible. ITE Journal, Vol. 62, No. 8, 1992, pp. 29–32.
4. K–12 Web Modules. ITS Institute, Center for Transportation Studies, University of Minnesota. http://www.its.umn.edu/Education/K12Modules/. Accessed June 2008.
5. Liao C.-F., Liu H. X., and Levinson D. M. Engaging Undergraduate Students in Transportation Studies Through Simulating Transportation for Realistic Engineering Education and Training. Presented at 88th Annual Meeting of the Transportation Research Board, Washington, D.C., 2009.
6. Aldrich C. Clark Aldrich's Six Criteria of an Educational Simulation, 2003. http://www.learningcircuits.org/NR/rdonlyres/F2ED000A-7A59-4108-A6CB-1BE4F4CC1CA5/4719/clark_e2.pdf. Accessed July 2008.
7. Chwiff L., and Barretto M. R. P. Perspectives on Simulation in Education and Training: Simulation Models as an Aid for the Teaching and Learning Process in Operations Management. Proc. 35th Conference on Winter Simulation, New Orleans, La., 2003, pp. 1994–2000.
8. Greenblat C. S. Designing Games and Simulations: An Illustrated Handbook. SAGE Publications, Newbury Park, Calif., 1998.
9. Gee J. P. What Video Games Have to Teach Us About Teaching and Learning. Palgrave MacMillan, New York, 2003.
10. Liao C.-F., Morris T., and Donath M. Development of an Internet-Based Traffic Simulation Framework for Transportation Education and Training. In Transportation Research Record: Journal of the Transportation Research Board, No. 1956, Transportation Research Board of the National Academies, Washington, D.C., 2006, pp. 184–192.
11. Chen W., and Levinson D. M. Effectiveness of Learning Transportation Network Growth Through Simulation. ASCE Journal of Professional Issues in Engineering Education and Practice, Vol. 132, No. 1, 2006.
12. Helbing D., Hennecke A., Shvetsov V., and Treiber M. Micro- and Macro-Simulation of Freeway Traffic. Mathematical and Computer Modeling, Vol. 35, No. 5/6, 2002, pp. 517–547.
13. Treiber M. Microsimulation of Road Network. http://www.mtreiber.de/MicroApplet/index.html. Accessed June 2008.
14. Holmes M., and Spilker R. Project Links: Interactive Web-Based Modules for Teaching Engineering. Premier Courseware of 2000. National Engineering Education Delivery System. http://www.needs.org/needs/. Accessed July 2008.
15. Kyte M. Mobile Hands-On Traffic Signal Timing Project (MOST). http://www.webs1.uidaho.edu/fhwa-signals/index.htm. Accessed July 2008.
16. Aldrich C. Simulations and the Future of Learning: An Innovative (and Perhaps Revolutionary) Approach to E-Learning. Pfeiffer, Hoboken, N.J., 2003.
17. Shaffer D. W. Epistemic Games. Journal of Online Education, Vol. 1, No. 6, 2005.
18. Jackson P. L., and Muckstadt J. A. The Transportation Game. School of Operations Research and Industrial Engineering, Cornell University, Ithaca, N.Y., 1996. http://people.orie.cornell.edu/~jackson/trucks.html. Accessed June 2008.
19. West Point Bridge Designer, U.S. Military Academy at West Point, 2007. http://bridgecontest.usma.edu/. Accessed July 2009.
20. Agrawal A. W., and Dill J. To Be a Transportation Engineer or Not? How Civil Engineering Students Choose a Specialization, 2007. http://www.caee.utexas.edu/org/trb-education/papers%5C08-2201.pdf. Accessed June 2008.
21. Glick D. B. Lessons for High School Students: 2008 Implementation and Evaluation Report. Center for Transportation Studies, University of Minnesota, Minneapolis. http://www.cts.umn.edu/Publications/ResearchReports/pdfdownload.pl?id=1034. Accessed July 2009.
22. Traffic Control Game. http://street.umn.edu/GAME_traffic.html. Accessed July 2009.
23. Gridlock Buster Game. http://www.its.umn.edu/trafficcontrolgame/. Accessed July 2009.
24. Traffic Control Lessons for High School Students. Intelligent Transportation Systems Institute Center for Transportation Studies, University of Minnesota. http://www.its.umn.edu/Education/k12outreach/documents/curriculum.pdf.
25. Wicklein R. C., and Schell J. W. Case Studies of Multidisciplinary Approaches to Integrate Mathematics, Science and Technology Education. Journal of Technology Education, Vol. 6, No. 2, 1995, pp. 59–76.
Cite article
Cite article
Cite article
OR
Download to reference manager
If you have citation software installed, you can download article citation data to the citation manager of your choice
Information, rights and permissions
Information
Published In
Article first published online: January 1, 2010
Issue published: January 2010
Authors
Metrics and citations
Metrics
Journals metrics
This article was published in Transportation Research Record: Journal of the Transportation Research Board.
VIEW ALL JOURNAL METRICSArticle usage*
Total views and downloads: 25
*Article usage tracking started in December 2016
Altmetric
See the impact this article is making through the number of times it’s been read, and the Altmetric Score.
Learn more about the Altmetric Scores
Articles citing this one
Receive email alerts when this article is cited
Web of Science: 0
Crossref: 4
- ROAD: Interactive Geometric Design Tool for Transportation Education a...
- To Game or Not to Game: Teaching Transportation Planning with Board Ga...
- Attracting Students to Transportation Engineering...
- Traffic Engineering in a Hybrid Format...
Figures and tables
Figures & Media
Tables
View Options
Get access
Access options
If you have access to journal content via a personal subscription, university, library, employer or society, select from the options below:
loading institutional access options
Alternatively, view purchase options below:
Purchase 24 hour online access to view and download content.
Access journal content via a DeepDyve subscription or find out more about this option.
