Context Aware Navigation System for Using Public Transport on Smartphone
Authors: Satoru Fukuta, Masaki Ito, Takao Kawamura, Kazunori Sugahara
Abstract:
Recently, many web services to provide information for public transport are developed and released. They are optimized for mobile devices such a smartphone. We are also developing better path planning system for route buses and trains called “Bus-Net"[1]. However these systems only provide paths and related information before the user start moving. So we propose a context aware navigation to change the way to support public transport users. If we go to somewhere using many kinds of public transport, we have to know how to use them. In addition, public transport is dynamic system, and these have different characteristic by type. So we need information at real-time. Therefore we suggest the system that can support on user-s state. It has a variety of ways to help public transport users by each state, like turn-by-turn navigation. Context aware navigation will be able to reduce anxiety for using public transport.
Keywords: Navigation, Public Transport, Smartphone, User Experience.
Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1057047
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[1] "Japan Trip LLP:Bus-Net.", http://www.ikisaki.jp.
[2] M. Arikawa, S. Konomi, and K. Onishi, "NAVITIME: Supporting Pedestrian Navigation in the Real World," IEEE Pervasive Computing, pp. 21-29, 2007.
[3] Google Inc. Google Maps and Google Maps API, http://developers. google.com/maps/, Seen: 2012-06-29
[4] B. Ferris, K. Watkins, and A. Borning, "OneBusAway: Results from Providing Real-Time Arrival Information for Public Transit", ACM Conference on Human Factors in Computing Systems, pp. 1807-1816, 2010, Georgia, USA
[5] S. Carmien, M. Dawe, G. Fischer, A. Gorman, A. Kintsch, and J.F. Sullivan Jr., "Socio-Technical Environments Supporting People with Cognitive Disabilities Using Public Transportation", Transactions on Computer-Human Interaction, vol. 12, no. 2, pp. 233-262, 6 2005,
[6] T. Kawamura, G. Kusugami, and K. Sugahara, "Path Planning System for Bus Network including Walking Transfer," IPSJ Journal, vol. 46, no. 5, pp. 1207-1210, 5 2005.
[7] T. Kawamura and K. Sugahara, "Practical Path Planning System for Bus Network," IPSJ Journal, vol. 48, no. 2, pp. 780-790, 2 2007.
[8] Ekitan & Co., Ltd. http://ekitan.com/, Seen: 2012-06-29
[9] Jorudan Co.,Ltd. http://www.jorudan.co.jp/, Seen: 2012-06-29
[10] J. Baus, A. Kr├╝ger, and W. Wahlster, "A resource-adaptive mobile navigation system", International Converence on Intelligent user interfaces, 15-22, 2002, New York, USA.
[11] A. Brush, A. Karlson, J. Scott, R. Sarin, A. Jacobs, B. Bond, O. Murillo, G. Hunt, M. Sinclair, K. Hammil et al., "User experiences with activitybased navigation on mobile devices," in Proceedings of the 12th international conference on Human computer interaction with mobile devices and services. ACM, 2010, pp. 73-82.
[12] N. Kanatani, M. Ito, T. Kawamura, and K. Sugahara, "Take Me to the Bus Stop: AR Based Assistance System for Public Transit Users", International Conference on Embedded and Ubiquitous Computing, pp. 1831-1835, 2011, Venice, Italy.