Development of Optimized User Interface of Public Transit Navigator for a Smartphone
We develop a new interface for Bus-Net which is
optimized for a smartphone. We are continuing to develop the shortest
path planning system of public transportation called "Bus-Net" in
Tottori prefecture as web application to improve the usability of
public transportation. Recent trend of computing platform, however
has shifted to an advanced mobile device called a smartphone such as
iPhone and Android in Japan. A smartphone has different characters
with existing feature phone in terms of OS, large touche panel, and
several other features. We derive a guideline to design the new interface
for a smartphone to full use of the functionality. The guideline is
about simplicity of user-s operation, location awareness and usability.
We developed the new interface for “Bus-Net" on iPhone referring
to the guideline. Due to the evaluation, the application interface we
developed is better than the existing web-based interface in terms of
the usability.
[1] "Bus-net http://www.ikisaki.jp/."
[2] 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.
[3] T. Kawamura and K. Sugahara, "Practical Path Planning System for Bus
Network," IPSJ Journal, vol. 48, no. 2, pp. 780-790, 2 2007.
[4] M. Arikawa, S. Konomi, and K. Onishi, "NAVITIME: Supporting
Pedestrian Navigation in the Real World," IEEE Pervasive Computing,
pp. 21-29, 2007.
[5] M. Bertolotto, G. O- Hare, R. Strahan, A. Brophy, A. Martin, and
E. McLoughlin, "Bus Catcher: a Context Sensitive Prototype System
for Public Transportation Users," in Proceedings Second International
Workshop on Web and Wireless Geographical Information Systems
(W2GIS), Singapore. Citeseer, 2002.
[6] S. Carmien, M. Dawe, G. Fischer, A. Gorman, A. Kintsch, J. Sullivan,
and F. James, "Socio-technical environments supporting people with
cognitive disabilities using public transportation," ACM Transactions on
Computer-Human Interaction, vol. 12, no. 2, pp. 233-262, 2005.
[7] B. Ferris, K. Watkins, and A. Borning, "OneBusAway: Results from
providing real-time arrival information for public transit," in Proceedings
of the 28th international conference on Human factors in computing
systems. ACM, 2010, pp. 1807-1816.
[8] J. Kjeldskov, S. Howard, J. Murphy, J. Carroll, F. Vetere, and C. Graham,
"Designing TramMate˜na context-aware mobile system supporting use
of public transportation," in Proceedings of the 2003 conference on
Designing for user experiences. ACM, 2003, pp. 1-4.
[9] "iOS Dev Center(apple)." [Online]. Available:
http://developer.apple.com/devcenter/ios/index.action
[10] "Google maps http://maps.google.co.jp/."
[1] "Bus-net http://www.ikisaki.jp/."
[2] 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.
[3] T. Kawamura and K. Sugahara, "Practical Path Planning System for Bus
Network," IPSJ Journal, vol. 48, no. 2, pp. 780-790, 2 2007.
[4] M. Arikawa, S. Konomi, and K. Onishi, "NAVITIME: Supporting
Pedestrian Navigation in the Real World," IEEE Pervasive Computing,
pp. 21-29, 2007.
[5] M. Bertolotto, G. O- Hare, R. Strahan, A. Brophy, A. Martin, and
E. McLoughlin, "Bus Catcher: a Context Sensitive Prototype System
for Public Transportation Users," in Proceedings Second International
Workshop on Web and Wireless Geographical Information Systems
(W2GIS), Singapore. Citeseer, 2002.
[6] S. Carmien, M. Dawe, G. Fischer, A. Gorman, A. Kintsch, J. Sullivan,
and F. James, "Socio-technical environments supporting people with
cognitive disabilities using public transportation," ACM Transactions on
Computer-Human Interaction, vol. 12, no. 2, pp. 233-262, 2005.
[7] B. Ferris, K. Watkins, and A. Borning, "OneBusAway: Results from
providing real-time arrival information for public transit," in Proceedings
of the 28th international conference on Human factors in computing
systems. ACM, 2010, pp. 1807-1816.
[8] J. Kjeldskov, S. Howard, J. Murphy, J. Carroll, F. Vetere, and C. Graham,
"Designing TramMate˜na context-aware mobile system supporting use
of public transportation," in Proceedings of the 2003 conference on
Designing for user experiences. ACM, 2003, pp. 1-4.
[9] "iOS Dev Center(apple)." [Online]. Available:
http://developer.apple.com/devcenter/ios/index.action
[10] "Google maps http://maps.google.co.jp/."
@article{"International Journal of Information, Control and Computer Sciences:61802", author = "Masahiro Taketa and Masaki Ito and Takao Kawamura and Kazunori Sugahara", title = "Development of Optimized User Interface of Public Transit Navigator for a Smartphone", abstract = "We develop a new interface for Bus-Net which is
optimized for a smartphone. We are continuing to develop the shortest
path planning system of public transportation called "Bus-Net" in
Tottori prefecture as web application to improve the usability of
public transportation. Recent trend of computing platform, however
has shifted to an advanced mobile device called a smartphone such as
iPhone and Android in Japan. A smartphone has different characters
with existing feature phone in terms of OS, large touche panel, and
several other features. We derive a guideline to design the new interface
for a smartphone to full use of the functionality. The guideline is
about simplicity of user-s operation, location awareness and usability.
We developed the new interface for “Bus-Net" on iPhone referring
to the guideline. Due to the evaluation, the application interface we
developed is better than the existing web-based interface in terms of
the usability.", keywords = "Path Planning, Public Transportation, Smartphone,User Interface", volume = "5", number = "11", pages = "1401-5", }