Alina Hang
Gregor Broll
ABSTRACT
Near Field Communication (NFC) can facilitate mobile interaction with everyday objects, associated digital information and ubiquitous services. Despite the simplicity of the touch-like interaction between mobile devices and tagged physical objects, most people are still unfamiliar with this physical interaction, resulting in various usability problems. In order to improve mobile interaction with NFC-tagged objects, that serve as physical user interfaces (UI), we examine various aspects of their visual design. We identify different phases of mobile interaction with tagged objects and apply a user centered design process to create and evaluate different symbols for these phases. We report on the iterative design of NFC-symbols and physical UIs using low- and high-fidelity prototyping and present the results of a user study which was carried out with an experience prototype for an advertising scenario.
- ABI Research. 2007. Twenty Percent of Mobile Handsets Will Include Near Field Communication by 2012.www.abiresearch.com/abiprdisplay.jsp?pressid=838Google Scholar
- Arnall, T. 2006. A Graphic Language for Touch-based Interactions. In Proc. of MIRW 2006, Espoo, Finland.Google Scholar
- Broll, G., Keck, S., Holleis, P., and Butz, A. 2009. Improving the accessibility of NFC/RFID-based mobile interaction through learnability and guidance. In Proc. of MobileHCI'09 (Bonn, Germany, September 15--18, 2009). ACM, New York, NY, 1--10. Google ScholarDigital Library
- Broll, G., Rukzio, E., Paolucci M., Wagner, M., Schmidt, A., and Hussmann, H. 2009. Perci: Pervasive Service Interaction with the Internet of Things. In IEEE Internet Computing 11/12 2009, IEEE Computer Society, 2009, 74--81. Google ScholarDigital Library
- Buchenau, M. and Suri, J. F. 2000. Experience prototyping. In Proc. of DIS'00 (New York City, New York, United States, August 17--19, 2000). D. Boyarski and W. A. Kellogg, Eds. DIS '00. ACM, New York, NY, 424--433. Google ScholarDigital Library
- Buxton, B. 2007. Sketching User Experiences: Getting the Design Right and the Right Design. Elsevier 2007 Google ScholarDigital Library
- Carroll, J. M., Ed. 1995 Scenario-Based Design: Envisioning Work and Technology in System Development. John Wiley & Sons, Inc. Google ScholarDigital Library
- Geven, A., Strassl, P., Ferro, B., Tscheligi, M., and Schwab, H. 2007. Experiencing real-world interaction: results from a NFC user experience field trial. In Proc. of MobileHCI '07, vol. 309. ACM, New York, NY, 234--237. Google ScholarDigital Library
- Hardy, R. and Rukzio, E. 2008. Touch & interact: touch-based interaction of mobile phones with displays. In Proc. of MobileHCI '08. ACM, New York, NY, 245--254. Google ScholarDigital Library
- Hartmann, B., Doorley, S., and Klemmer, S. 2008. Hacking, Mashing, Gluing: Understanding Opportunistic Design. IEEE Pervasive Computing, vol. 7, no. 3, pp. 46--54, July-Sept. 2008. Google ScholarDigital Library
- Häikiö, J., Wallin, A., Isomursu, M., Ailisto, H., Matinmikko, T., and Huomo, T. 2007. Touch-based user interface for elderly users. In Proc. of MobileHCI '07, vol. 309. ACM, New York, NY, 289--296. Google ScholarDigital Library
- ITU Internet Reports 2005: The Internet of things (ITU 2005 7th edition).Google Scholar
- Lewis, J. R. 1995. IBM computer usability satisfaction questionnaires: psychometric evaluation and instructions for use. Int. J. Hum.-Comput. Interact. 7, 1 (Jan. 1995), 57--78. Google ScholarDigital Library
- Mäkelä, K., Belt, S., Greenblatt, D., and Häkkilä, J. 2007. Mobile interaction with visual and RFID tags: a field study on user perceptions. In Proc. of CHI '07. ACM, New York, NY, 991--994. Google ScholarDigital Library
- Moggridge, B. Designing Interactions. MIT Press 2006. Google ScholarDigital Library
- Nielsen, J. Guerrilla HCI: Using Discount Usability Engineering to Penetrate the Intimidation Barrier. Engineering. 1994:1--18.Google Scholar
- O'Neill, E., Thompson, P., Garzonis, S., and Warr, A. 2007. Reach out and touch: Using nfc and 2d barcodes for service discovery and interaction with mobile devices. In Proc. of Pervasive'07, volume 4480 of Lecture Notes in Computer Science, 19--36. Springer, 2007. Google ScholarDigital Library
- Riekki, J., Salminen, T., and Alakarppa, I. 2006. Requesting Pervasive Services by Touching RFID Tags. IEEE Pervasive Computing 5, 1 (Jan. 2006), 40. Google ScholarDigital Library
- Rudd, J., & Stern, K., & Isensee, S.: Low vs. high-fidelity prototyping debate. Interactions. ACM Press 1996. Google ScholarDigital Library
- Saffer, D. Designing for interaction. New Riders. 2006.Google Scholar
- Sánchez, I., Riekki, I, and Pyykknen, M. 2008. Touch & control: Interacting with services by touching RFID tags. In Proc. of IWRT 08, June 12--13 2008.Google Scholar
- Schwieren, J. and Vossen, G. 2007. Implementing Physical Hyperlinks for Mobile Applications Using RFID Tags. In Proc. of IDEAS'07. IEEE Computer Society, Washington, DC, 154--162. Google ScholarDigital Library
- Snyder, C. Paper prototyping: the fast and easy way to design and refine user interfaces. Morgan Kaufmann 2006.Google Scholar
- Svanæs, D. & Seland, G.: Putting the Users Center Stage: Role Playing and Low-fi Prototyping Enable End Users to Design Mobile Systems. In Proc. CHI, 2004. Google ScholarDigital Library
- Välkkynen, R., Tuomisto, T., and Korhonen, I. Suggestions for Visualising Physical Hyperlinks. In: Permid. Munich, Germany, 2005, pp. 35--38.Google Scholar
- Want, R., Fishkin, K. P., Gujar, A., and Harrison, B. L. 1999. Bridging physical and virtual worlds with electronic tags. In Proc. of CHI '99. ACM, New York, NY, 370--377. Google ScholarDigital Library
- Want, R. 2006. An Introduction to RFID Technology. IEEE Pervasive Computing 5, 1 (Jan. 2006), 25. Google ScholarDigital Library
Index Terms
- Visual design of physical user interfaces for NFC-based mobile interaction
Recommendations
Design and evaluation of techniques for mobile interaction with dynamic NFC-displays
TEI '11: Proceedings of the fifth international conference on Tangible, embedded, and embodied interactionNear Field Communication (NFC) is a technology for mobile, touch-based interaction with tagged objects that can serve as physical user interfaces (UI). Dynamic NFC-displays use a grid of NFC-tags as a physical UI and combine it with a projected ...
Mobile and physical user interfaces for NFC-based mobile interaction with multiple tags
MobileHCI '10: Proceedings of the 12th international conference on Human computer interaction with mobile devices and servicesNear Field Communication (NFC) is an emerging technology for mobile interaction with everyday objects and associated digital resources. Apart from simple interactions with single tags, NFC has the potential for more elaborate interactions with physical ...
Exploring multi-user interactions with dynamic NFC-displays
Near Field Communication (NFC) is an emerging technology for touch-based mobile interactions with single- and multi-tagged objects. Although the latter may allow for simultaneous and collaborative interactions, most prototypes were not designed for ...
Comments