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Yamsaengsung, S., & Papasratorn, B. (2018). Towards Improving User Interaction with Navigation Apps: an Information Quality Perspective. KnE Social Sciences, 3(1), 119-131. https://doi.org/10.18502/kss.v3i1.1401

https://doi.org/10.18502/kss.v3i1.1401

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authors

  • Siam Yamsaengsung

    Siam Yamsaengsung

    School of Information Technology, King Mongkut’s University of Technology Thonburi
  • Borworn Papasratorn

    Borworn Papasratorn

    School of Information Technology, King Mongkut’s University of Technology Thonburi

Published Date

  • Jan 15, 2018

Towards Improving User Interaction with Navigation Apps: an Information Quality Perspective

KnE Social Sciences / The 9th International Conference on Advances in Information Technology (IAIT-2017) / Pages 119-131

Abstract

Traffic congestion is a major problem for large cities, and with the ubiquitous use of smartphones with GPS capabilities, drivers have increasingly come to rely on navigation applications for avoiding traffic congestion and routing to unfamiliar destinations.  However, in certain situations the suggested route may not be what the user expects and could result in perceived delays over known routes, increased stress and frustration for the driver, or even back tracking.  This has created a situation where drivers perceive that the information provided by navigation applications are not completely reliable and do not follow the suggested routes, thereby reducing the overall effectiveness of congestion avoidance. Additionally, drivers also make additional interaction with the navigation applications to verify the believability of the suggestions routes, creating more distraction and reducing on-road safety.  As such, this preliminary work assesses mobility information quality provided by leading navigation applications (Google Maps and Waze) against four dimensions of the PSP/IQ information quality framework to identify areas for improving information quality in three common driving scenarios.  The results indicate that both apps have similar levels of completeness, concise representation, and consistent representation.  And while the relevancy of the information quality is also similar in both apps, Waze’s representation of the some information elements allowed for quicker comparison and decision making. The findings from this work can be used to enhance user interaction and information presentation in navigation applications in order to improve user perceptions of information quality.

Keywords: smart mobility information, mobility information quality, congestion avoidance

References
[1] Cunnington, Dan. (2016) Identifying congestion in London using Bluemix and Watson. IBM Bluemix blog website [Online]. https://www.ibm.com/blogs/bluemix/2016/09/identifying-congestion-in-london- using bluemix-and-watson/ (Accessed 10 July, 2017)


[2] R. P. Singh (2014) Smart Traffic Management with Real Time Data Analysis. Traffic Infra Tech website. [Online]. http://www.trafficinfratech.com/smart-traffic- management-with-real-time-data-analysis/ (Accessed 10 July, 2017)


[3] Waze website. (2017) [Online] www.waze.com


[4] Google Maps website. (2017) [Online] maps.google.com


[5] Jou, R.C., Lam, S.H., Liu, Y.H. and Chen, K.H. “Route switching behavior on freeways with the provision of different types of real-time traffic information,” Transportation Research Part A: Policy and Practice, 2005, 39(5), pp. 445-461.


[6] Yoshii, T., Akahane, H. and Kuwahara, M. Impacts of the accuracy of traffic information in dynamic route guidance systems. Proceedings of The 3rd Annual World Congress on Intelligent Transport Systems, 1996, vol. 87.


[7] Chemi, Eric. (2016) Google Maps vs Waze vs Apple: Who wins? [Online] CNBC web- site. https://www.cnbc.com/2016/06/30/testing-google-maps-vs-waze-vs-apple- maps-for-the-fourth-of-july-weekend.html (Accessed 10 July, 2017)


[8] Walford, Lynn (2016) Why Waze ETAs are Inaccurate – How to Use Waze Better [Online] Auto Connected Car website. http://www.autoconnectedcar.com/2016/07/why-waze-etas-are-inaccurate- how-to-use-waze-better/ (Accessed 10 July, 2017)


[9] Chen, P., Srinivasan, K. and Mahmassani, H. Effect of information quality on com- pliance behavior of commuters under real-time traffic information. Transportation Research Record: Journal of the Transportation Research Board, 1999, vol. 1676 pp. 53-60.


[10] D.M. Strong, Y.W. Lee, and R.Y. Wang. Data quality in context. Communications of the ACM, 1997, vol. 40(5), pp. 103-110.


[11] Nicolaou, Andreas I., and D. Harrison McKnight. Perceived information quality in data exchanges: Effects on risk, trust, and intention to use. Information systems research 17.4 (2006): 332-351.


[12] Komiak, Sherrie and Ilyas, Irfan. The Effects of Perceived Information Quality and Perceived System Quality on Trust and Adoption of Online Reputation Systems. AMCIS. 2010.


[13] Kahn, B.K., Strong, D.M., and Wang, R.Y. Information quality benchmarks: product and service performance. Communications of the ACM, 2002, vol. 45(4), pp. 184- 192.


[14] Choocharukul, Kasem. Effects of attitudes and socioeconomic and travel char- acteristics on stated route diversion: Structural equation modeling approach of road users in Bangkok, Thailand. Transportation Research Record: Journal of the Transportation Research Board 2048 (2008): 35-42.


[15] Knapper, Allert, et al. The use of navigation systems in naturalistic driving. Traffic injury prevention 17.3 (2016): 264-270.


[16] Lansdown, Terry C. Individual differences and propensity to engage with in-vehicle distractions–A self report survey. Transportation research part F: traffic psychology and behaviour 15.1 (2012): 1-8.