Abstract
Smart mobility is an important dimension in a smart city and one of the key issues of national and international programs. It is rooted in the international literature on urban development [1], it is a paradigm shift towards a more flexible and multimodal transport system [2]. Real-time optimization of roads and public transport flows to reduce traffic congestion, control speed, costs, and CO2 emissions, is the real added value for future smart cities.
The concept quickly spread as a result of a real change in the transport field. In the last thirty years, the sector has been able to take ownership and benefit from the development of information and communication technologies; among these technologies, we find persuasive technologies. By Definition, TP is “any interactive computer system designed to change the attitude and behavior of people using various strategies” while the study of the design, research, and analysis of such technologies are called “Captologie”.
This work involves identifying different principles of persuasion and their strategies, research has attempted to model the behavior of technology users’ in order to have a better understanding of how to influence them. In this paper, we present the main behavioral models developed in the field of persuasive technologies and also we offer a comparative study between existing systems. This is a first study aimed at the most effective persuasive technologies that change citizens’ attitudes in the transportation field.
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Benevolo, C., Dameri, R.P., D’Auria, B.: Smart Mobility in Smart City Action Taxonomy, ICT Intensity and Public Benefits (2016)
Smart Mobility – A tool to achieve sustainable cities, München | 12th February 2015 | Volker Hesse
Midden, C.J.H., McCalley, L.T., Ham, J.R.C., Zaalberg, R.: Using persuasive technology to encourage sustainable behavior. In: 6th International Conference on Pervasive Computing, Workshop on Pervasive Persuasive Technology and Environmental Sustainability, 19 May 2008, pp. 83–86 (2008)
Charismatic Computers: Creating More Likable and Persuasive Interactive Technologies by Leveraging Principles from Social Psychology. Doctoral Dissertation: Stanford University (1997)
Kimura, H., Nakajima, T.: Designing persuasive applications to motivate sustainable behavior in collectivist cultures. PsychNology J. 9(1), 7–28 (2011). Retrieved December, 2014
Wiafe, I., Nakata, K.: Bibliographic analysis of persuasive systems: techniques, methods and domains of application. In: Persuasive Technology, p. 61 (2012)
Torning, K., Oinas-Kukkonen, H.: Persuasive system design: state of the art and future directions. In: Proceedings of the 4th International Conference on Persuasive Technology, p. 30. ACM (2009). https://sci-hub.tw/10.1145/1541948.1541989. Accessed 25 Apr 2018
Prochaska, J.O., Norcross, J.C.: Stages of change. Psychother. Theory Res. Pract. Train. 38(4), 443–448 (2001). http://psycnet.apa.org/record/2002-01390-016. Accessed 25 Apr 2018
Ishida, T., Isbister, K.: Digital Cities: Technologies, Experiences, and Future Perspectives. Springer, Berlin, New York (2000). Kyoto Meeting on Digital Cities (1999)
Mechant, P., Stevens, I., Evens, T., Verdegem, P.: E-deliberation 2.0 for smart cities: a critical assessment of two ‘idea generation’ cases. Int. J. Electron. Gov. 5(1), 82–98 (2012)
Zygiaris, S.: Smart city reference model: assisting planners to conceptualize the building of smart city innovation ecosystems. J. Knowl. Econ. 4(2), 217–231 (2013)
Nam, T., Pardo, T.A.: Conceptualizing smart city with dimensions of technology, people, and institutions. In: Proceedings of the 12th Annual International Digital Government Research Conference: Digital Government Innovation in Challenging Times, New York, NY, USA, pp. 282–291 (2011)
Holleis, P., Luther, M., Broll, G., Raaphorst, S.: TRIPZOOM: a system to motivate sustainable urban mobility. In: 1st International Conference on Smart Systems, Devices and Technologies (2012). https://www.researchgate.net/publication/268393265_TRIPZOOM_A_System_to_Motivate_Sustainable_Urban_Mobility. Accessed 09 May 2018
Reitberger, W., Ploderer, B., Obermair, C., Tscheligi, M.: The PerCues framework and its application for sustainable mobility. In: Persuasive Technology, pp. 92–95 (2007)
Jon, F., et al.: UbiGreen: investigating a mobile tool for tracking and supporting green transportation habits. https://www.researchgate.net/publication/221514956_UbiGreen_Investigating_a_Mobile_Tool_for_Tracking_and_Supporting_Green_Transportation_Habits. Accessed 08 May 2018
Bliznyuk, A.A.: Green Daily Guide. Easier environmentally friendly transportation with the help of mobile technologies. In: 2011 International Conference on Collaboration Technologies and Systems, CTS, pp. 612–617 (2011)
Jariyasunant, J., et al.: Quantified traveler: travel feedback meets the cloud to change behavior. J. Intell. Transp. Syst. 19(2), 109–124 (2015)
Jylhä, A., Nurmi, P., Sirén, M., Hemminki, S., Jacucci, G.: MatkaHupi: a persuasive mobile application for sustainable mobility. In: Proceedings of the 2013 ACM Conference on Pervasive and Ubiquitous Computing Adjunct Publication, New York, NY, USA, pp. 227–230 (2013)
SUPERHUB: Integrating behaviour change theories into a sustainable urban-mobility platform (2012)
Meloni, I., Sanjust, B., Delogu, G., Sottile, E.: Development of a technological platform for implementing VTBC programs. Transp. Res. Procedia 3, 129–138 (2014)
Fogg, B.J.: Persuasive Technology: Using Computers to Change What We Think and Do. Science & Technology Books, 1st edn. Morgan Kaufmann Publishers Inc., San Francisco (2002)
Anagnostopoulou, E., Bothos, E., Magoutas, B., Schrammel, J., Mentzas, G.: Persuasive technologies for sustainable urban mobility, April 2016
(PDF) Supporting Sustainable Mobility Using Mobile Technologies and Personalized Environmental Information: The Citi-Sense-MOB Approach in Oslo, Norway, ResearchGate. https://www.researchgate.net/publication/299337845_Supporting_Sustainable_Mobility_Using_Mobile_Technologies_and_Personalized_Environmental_Information_The_Citi-Sense-MOB_Approach_in_Oslo_Norway. Accessed 30 Oct 2018
Kazhamiakin, R., et al.: Using gamification to incentivize sustainable urban mobility (2015)
Shankari, K., Park, J., Gadgil, T., Katz, R.H., Culler, D.E.: Information display for societal problems: data, game, or choice? (2015)
Kelpin, R., Giesel, F., Heinrichs, M.: STREETLIFE field trials – applied gamification approaches as a key to more sustainable mobility behaviour, presented at the European Transport Conference 2016 Association for European Transport (AET) (2016)
Petri, M., et al.: The SaveMyBike Project: ITS technologies and rewarding policies to improve sustainable mobility in cities, presented at the Transportation Research Arena TRA 2018, pp. 1–10 (2018)
Cheng, Y.-M., Lee, C.-L.: Persuasive and engaging design of a Smartphone App for cycle commuting. MUX J. Mob. User Exp. 4(1), 1 (2015)
Marcus, A., Wang, W.: Design, user experience, and usability: designing pleasurable experiences. In: Proceedings of the 6th International Conference, DUXU 2017, Held as Part of HCI International 2017, Vancouver, BC, Canada, 9–14 July 2017. Springer (2017)
Wu, S., Bai, Q., Sengvong, S.: GreenCommute: an influence-aware persuasive recommendation approach for public-friendly commute options. J. Syst. Sci. Syst. Eng. 27(2), 250–264 (2018)
Huang, B., Thomas, T., Groenewolt, B., Fioreze, T., van Berkum, E.: The effect of incentives to promote cycling: a mobility living lab, presented at the Transportation Research Board 97th Annual Meeting Transportation Research Board (2018)
Anagnostopoulou, E., Bothos, E., Magoutas, B., Schrammel, J., Mentzas, G.: Persuasive interventions for sustainable travel choices leveraging users’ personality and mobility type. In: Persuasive Technology, pp. 229–241 (2018)
Takayama, C., Lehdonvirta, V., Shiraishi, M., Washio, Y., Kimura, H., Nakajima, T.: Ecoisland: a system for persuading users to reduce CO emissions. In: Software Technologies for Future Dependable Distributed Systems, pp. 59–63. IEEE, Tokyo (2009)
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Sara, A., Mostafa, H. (2019). Exploring Persuasive Systems Using Comparative Study Between Actual Technologies. In: Farhaoui, Y., Moussaid, L. (eds) Big Data and Smart Digital Environment. ICBDSDE 2018. Studies in Big Data, vol 53. Springer, Cham. https://doi.org/10.1007/978-3-030-12048-1_38
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