Guiding the design and implementation of interactive public displays in educational settings

Author:

Müller MaximilianORCID,Otero NunoORCID,Milrad MarceloORCID

Abstract

AbstractInteractive Public Displays (IPD) enable new ways of interaction as well as communication channels, extending online communities into physical places and supporting a culture of participation. While educational environments have seen how new digital technologies can enhance learning activities beyond the traditional classroom context, the use of IPDs is still an area insufficiently explored. This paper proposes a set of design goals for the implementation and deployment of engaging interactive public display applications in educational settings. Based on findings from a series of design workshops and two deployment studies in authentic settings, seven design goals were identified and defined. The design goals provide clear guidelines for the design of IPDs for schools by making design teams and stakeholders focus on factors fostering user adoption, social interactions and collaboration. The design goals also opened up paths for further explorations regarding display awareness, level of commitment in interactions, the displays’ integration into structured activities, and display management at the educational institutions.

Funder

FP7 Ideas: European Research Council

Linnaeus University

Publisher

Springer Science and Business Media LLC

Subject

Computer Science Applications,Education

Reference75 articles.

1. Ahn, J., Clegg, T., Yip, J., Bonsignore, E., Pauw, D., Hernly, K., Pitt, C., Mills, K., Salazar, A., Griffing, D., Rick, J., Marr, R., (2018). Science Everywhere: Designing Public, Tangible Displays to Connect Youth Learning Across Settings, In Proceedings of CHI 2018. ACM. https://doi.org/10.1145/3173574.3173852

2. Ackad, C., Wasinger, R., Gluga, R., Kay, J., Tomitsch, M., (2013). Measuring Interactivity at an Interactive Public Information Display, In Proceedings of the 25th Australian Computer-Human Interaction Conference: Augmentation, Application, Innovation, Collaboration - OzCHI ’13. ACM, Adelaide, Australia, (pp. 329–332) https://doi.org/10.1145/2541016.2541091

3. Agamanolis, S. (2003). Designing displays for human connectedness. In K. O’Hara, M. Perry, E. Churchill, & D. Russell (Eds.), Public and Situated Displays: Social and Interactional Aspects of Shared Display Technologies. Springer.

4. Akpan, I., Marshall, P., Bird, J., Harrison, D., (2013). Exploring the Effects of Space and Place on Engagement with an Interactive Installation, In Proceedings of the SIGCHI Conference on Human Factors in Computing Systems (CHI ’13). ACM, (pp. 2213–2222) https://doi.org/10.1145/2470654.2481306

5. Almutairi, A., Mikusz, M., Niaz, H., Trotter, L., Davies, N., (2019). Why Simple is Best: Lessons from Designing an Emergency System for Public Displays, In Proceedings of the 8th ACM International Symposium on Pervasive Displays - PerDis ’ 19. ACM, (pp. 13:1–13:7) https://doi.org/10.1145/3321335.3324949

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