Abstract
This chapter presents an ambient intelligence framework whose goal is to facilitate the information needs of mobility impaired users on the move. This framework couples users with geographically distributed services and the corresponding multimedia content, enabling access to context-sensitive information based on user geographic location and the use case under consideration. It provides a multi-modal facility that is realized through a set of mobile devices and user interfaces that address the needs of ten different types of user impairments. The overall ambient intelligence framework enables users who are equipped with mobile devices to access multimedia content in order to undertake activities relevant to one or more of the following domains: transportation, tourism and leisure, personal support services, work, business, education, social relations and community building. User experience is being explored against those activities through a specific usage scenario.
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Notes
- 1.
Defense Advanced Research Projects Agency
- 2.
OSGi stands for Open Service Gateway initiative, now an obsolete name.
References
Akkiraju, R., Farrell, J., Miller, J., Nagarajan, M., Schmidt, M., Sheth, A., & Verma, K. (2005). Web service semantics – WSDL-S, W3C Member Submission, from http://www.w3.org/Submission/WSDL-S/. Accessed 4 January 2008
Brumitt, B., Meyers, B., Krumm, J., Kern, A., & Shafer S. (2000) Easy living: Technologies for intelligent environments. In Proceedings of International Symposium on Handheld and Ubiquitous Computing, 12–29.
Choi C., Cho M., Kang Young, E., & Kim P. (2006). Travel ontology for recommendation system based on Semantic Web. In Advanced Communication Technology (ICACT-2006). The 8th International Conference, IEEE Press.
Flachsbart, J., Franklin, D., & Hammond, K. (2000). Improving Human-computer interaction in a classroom environment using computer vision. In Proceedings of the Conference on Intelligent User Interfaces, ACM Press, New York.
Frese, M., & Zapf, D. (1994). Action as the core of work psychology: A German approach. In M. D. Dunnetee et al. (Eds.), Handbook of Industrial and Organizational Psychology (Vol. 4; pp. 271–340). Consulting Psychologists Press Palo Alto (1994)
Herfet Th, Kirste Th, Schnaider M (2001) EMBASSI – Multimodal assistance for infotainment and service infrastructures. Computers&Graphics 25(4):581–592
Hübner S, Spittel R, Visser U, Vögele TJ (2004) Ontology-based search for interactive digital maps. IEEE Intelligent Systems 19(3):80–86
Johanson B, Fox A, Winograd T (2002) The interactive workspaces project: Experiences with ubiquitous computing rooms. IEEE Pervasive Computing Magazine 1(2):67–74
Karim, S., & Tjoa, A. M., (2006). Towards the use of ontologies for improving user interaction for people with special needs. In Computers Helping People with Special Needs, Springer Berlin/Heidelberg.
Oxygen Project. (2005). Massachusetts Institute of Technology, from http://www.oxygen.lcs.mit.edu/Overview.html. Accessed 4 January 2008
Paolucci, M., Srinivasan, N., Sycara, K., & Nishimura, T. (2003). Towards a semantic choreography of Web services: From WSDL to DAML-S. In Proceedings of the International Conference for Web Services, (ICWS 2003).
Ramachandran, R., Movva, S., Graves, S., & Tanner, S. (2006). Ontology-based semantic search tool for atmospheric Science. In Proceedings 22nd International Conference on Interactive Information Processing Systems for Meteorology, Oceanography, and Hydrology, Atlanta, GA.
Riva, R. (2005). The psychology of ambient intelligence: Activity, situation and presence. In G. Riva, F. Vatalaro, F. Davide, & M. Alcaniz (Eds.), Ambient Intelligence (17–33). IOS Press Amsterdam.
Sirin, E., Hendler, J. A., & Parsia, B. (2003) Semi-automatic composition of Web services using semantic descriptions. In Proceedings. Workshop on Web Services: Modeling, Architecture and Infrastructure (WSMAI), ICEIS Press.
Sommer, S. M., Wiethoff, M, Valjakka, S., Kehagias, D., & Tzovaras, D. (2006). Development of a mobile tourist information system for people with functional limitations: User behaviour concept and specification of content requirements. In Lecture Notes in Computer Science (Vol. 4061), Springer, Berlin.
Tomai, E., Spanaki, M., Prastacos, P., & Kavouras, M. (2005). Ontology assisted decision making a case study in trip planning for tourism. In On the Move to Meaningful Internet Systems, Springer, Berlin/Heidelberg.
Yesilada, Y., Harper, S., Goble, C., & Stevens, R. (2004). Screen readers cannot see (ontology based semantic annotation for visually impaired Web travellers). In Koch, N., Fraternali, P., & Wirsing, M. (Eds.), Web Engineering – 4th International Conference, ICWE 2004 Proceedings (LNCS 3140), Springer, Berlin.
Knopflerfish OSGi. (2008). An open source OSGi platform, http://knopflerfish.org/.Accessed21October2008
OSGi Service Platform. (2008). Release 4 Home Page, from http://www.osgi.org/Release4/Javadoc. Accessed 21 October 2008. Accessed 21 October 2008
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Kehagias, D.D., Giakoumis, D., Tzovaras, D., Bekiaris, E., Wiethoff, M. (2010). An Ambient Intelligence Framework for the Provision of Geographically Distributed Multimedia Content to Mobility Impaired Users. In: Marcus, A., Roibás, A., Sala, R. (eds) Mobile TV: Customizing Content and Experience. Human-Computer Interaction Series. Springer, London. https://doi.org/10.1007/978-1-84882-701-1_11
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