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Issue No.04 - July-Aug. (2013 vol.28)
pp: 107-112
Rosaldo J.F. Rossetti , University of Porto, Portugal
Joao Emilio Almeida , University of Porto, Portugal
Zafeiris Kokkinogenis , University of Porto, Portugal
Joel Goncalves , University of Porto, Portugal
A discussion of the potential integration of serious games into the conceptual framework of artificial transportation systems focuses on behavior elicitation through peer-designed agents to model and simulate artificial societies on a participative basis.
Intelligent transportation systems, Artificial intelligence, Games, Behavioral science, Computer agents,PDA, artificial transportation systems, ATS, intelligent transportation systems, ITS, serious games, behavior assimilation, behavior elicitation, behavior persuasion, peer-designed agents
Rosaldo J.F. Rossetti, Joao Emilio Almeida, Zafeiris Kokkinogenis, Joel Goncalves, "Playing Transportation Seriously: Applications of Serious Games to Artificial Transportation Systems", IEEE Intelligent Systems, vol.28, no. 4, pp. 107-112, July-Aug. 2013, doi:10.1109/MIS.2013.113
1. M. Zyda, “From Visual Simulation to Virtual Reality to Games,” Computer, vol. 38, no. 9, 2005, pp. 25-32.
2. R. Centeno, H. Billhardt, and R. Hermoso, “Persuading Agents to Act in the Right Way: An Incentive-Based Approach,” Engineering Applications of Artificial Intelligence, vol. 26, no. 1, 2012, pp. 198-210.
3. J.L. Adler et al., “Advanced Educational Technologies and Intelligent Transportation Systems Training: State of the Practice,” Transportation Research Record 1729, Nat'l Academy Press, 2000, pp. 65-74.
4. Q. Miao et al., “A Game-Engine-Based Platform for Modeling and Computing Artificial Transportation Systems,” IEEE Trans. Intelligent Transportation Systems, vol. 12, no. 2, 2011, pp. 343-353.
5. F.-Y. Wang, “Integrated Intelligent Control and Management for Urban Traffic Systems,” Proc. IEEE Intelligent Transportation Systems Conf., vol. 2, IEEE, 2003, pp. 1313-1317.
6. F.-Y. Wang and S.M. Tang, “Concepts and Frameworks of Artificial Transportation Systems,” Complex Systems and Complexity Science, vol. 1, no. 2, 2004, pp. 52-59.
7. J. Li et al., “A Software Architecture for Artificial Transportation Systems—Principles and Framework,” Proc. IEEE Intelligent Transportation Systems Conf., IEEE, 2007, pp. 229-234.
8. R.J.F. Rossetti, R. Liu, and S. Tang, “Guest Editorial: Special Issue on Artificial Transportation Systems and Simulation,” IEEE Trans. Intelligent Transportation Systems, vol. 12, no. 2, 2011, pp. 309-312.
9. R. Rossetti, E. Oliveira, and A. Bazzan, “Towards a Specification of a Framework for Sustainable Transportation Analysis,” Proc. 13th Portuguese Conf. Artificial Intelligence, APPIA, 2007, pp. 179-190.
10. R.J.F. Rossetti et al., “Towards an Artificial Traffic Control System,” Proc. 11th Int'l IEEE Conf. Intelligent Transportation Systems, IEEE, 2008, pp. 14-19.
11. A. Elmalech and D. Sarne, “Evaluating the Applicability of Peer-Designed Agents in Mechanisms Evaluation,” IEEE/WIC/ACM Int'l Joint Conf. Web Intelligence and Intelligent Agent Technology, vol. 2, IEEE CS, 2012, pp. 374-381.
12. M. Chalamish, D. Sarne, and R. Lin, “Enhancing Parking Simulations Using Peer-Designed Agents,” IEEE Trans. Intelligent Transportation Systems, vol. 14, no. 1, 2012, pp. 492-498.
13. J.F. Silva et al., “EVA: A Serious Games for EVAcuation Training,” Proc. IEEE 2nd Int'l Conf. Serious Games and Applications for Health (SeGAH), CD-ROM, IEEE CS, 2013.
14. J. Goncalves, R.J.F. Rossetti, and C. Olaverri-Monreal, “IC-Deep: A Serious Games Based Application to Assess the Ergonomics of In-Vehicle Information Systems,” Proc. 15th Int'l IEEE Conf. Intelligent Transportation Systems, IEEE, 2012, pp. 1809-1814.
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