ABSTRACT
In recent years, the development of sensing technology has led to the pervasive application of ubiquitous computing into people's life. In parallel with that trend, people relies more on context-aware service and device in many aspects, such as health care, elderly home care and so forth. However, traditional sensors are typically locked into unimodal closed systems, which hinders the access to such sensors that can be available in other information systems. Moreover, we believe that users are primarily interested in real-world entities (things, places, and people) and their high-level states (empty, free, sitting, walking etc.) rather than in individual sensors and their raw output data. In order to share physical information and enable the communication between both machines and human, we proposed a Social Web of Thing Framework based on the Restful Web Service and Social Network. In addition, we discussed the key technology and use case related to our framework. At last, we introduced the case study of MagicHome.
- D. Guinard, V. Trifa, F. Mattern, and E. Wilde, From the Internet of Things to the Web of Things: Resource Oriented Architecture and Best Practices. Springer, Dec. 2010, ch. 5.Google Scholar
- Zhenyu Wu, Timo Itälä, "A Web-based Two-layered Integration Framework for Smart Devices", EURASIP Journal on Wireless Communications and Networking, 2012Google Scholar
- Luo, L., Kansal, A., Nath, S., Zhao, F.: Sharing and exploring sensor streams over geocentric interfaces. In: Proceedings of the 16th ACM SIGSPATIAL international conference on advances in geographic information systems, Irvine, California, ACM (2008) 1--10 Google ScholarDigital Library
- http://www.pachube.comGoogle Scholar
- Draft Recommendation Y. WoT, Framework of Web of ThingsGoogle Scholar
- Dominique Guinard, Vlad Trif, Erik Wildea. Architecting a Mashable Open World Wide Web of ThingsGoogle Scholar
- Dominique Guinard, Mathias Fischer, VladTrifa. Sharing Using Social Networks in a Composable Web of ThingsGoogle Scholar
- Schmid, Thomas, Srivastava, Mani B. Exploiting Social Networks for Sensor Data Sharing with SenseShareGoogle Scholar
- http://www.ericsson.com/thinkingahead/idea/110217_social_network_for_you_1968920151_cGoogle Scholar
- T. R. Gruber. A translation approach to portable ontologies knowledge acquisition.1993.Google Scholar
- Fielding R T. Architectural Styles and the Design of Network-based Software Architecture{D}, Dept. of Computer Science, University of California, Irvine, 2000Google Scholar
- T. Bemers-Lee, R. T. Fielding, L. Masinter. Uniform Resource Identifiers(URI):Generic syntax. Internet RFC 2396,1998 Google ScholarDigital Library
- Miller R., Wenyuan Xu, Kamat P., Trappe W.. Service Discovery and Device Identification in Cognitive Radio Networks. Sensor, Mesh and Ad Hoc Communications and Networks, 2007, Page(s): 670--677Google Scholar
- Brendel R., Krawczyk H.. Primary role identification in dynamic social networks. Computational Aspects of Social Networks (CASoN), 2011, Page(s): 54--59Google ScholarCross Ref
- Schilit W N. A System Architecture for Context-Aware Mobile Computing. Dissertation of Doctor of Philosophy Columbia University, 1995. Google ScholarDigital Library
- Dey A K. Understanding and Using Context. Personal and Ubiquitous Computing, Springer-Verlag. 2001, 5(1):4--7. Google ScholarDigital Library
- Krogstie J. Requirement Engineering for Mobile Information Systems. In: Proceedings of the Seventh International Workshop on Requirements Engineering: Foundations for Software Quality. Interlaken, Switzerland, 2001.Google Scholar
- Dey, A. K., Salber, D. Abowd, G. D., "A Conceptual Framework and a Toolkit for Supporting the Rapid Prototyping of Context-A ware Applications", Human-Computer Interaction (HCI) Journal, Vol. 16(2--4), pp. 97--166, 2001. Google ScholarDigital Library
- T. Kindberg and J. Barton, "A Web-based Nomadic Computing System", Computer Networks, 35(4):443--456, 2001. Google ScholarDigital Library
- {Anand Ranganathan and Roy H. Campbell, "A Middleware for Context-Aware Agents in Ubiquitous Computing Environments", In Proceedings of ACM/IFIP/USENIX International Middleware Conference, Rio de Janeiro, Brazil, June 2003. Google ScholarDigital Library
- Harry Chen and Tim Finin, "An Ontology for a Context-Aware Pervasive Computing Environment", IJCAI workshop on ontologies and distributed systems, Acapulco MX, August 2003.Google Scholar
- T. Gu et al. "A service-oriented middleware for building context-aware services". Journal of Network and Computer Applications 28 (2005) 1--18 Google ScholarDigital Library
- Schilit B, Adams N, Want, R. Context-aware computing applications. In: the Proceedings of Workshop on Mobile Computing Systems and Applications, 1994.pp.85--90. Google ScholarDigital Library
- Held A, Buehholz S, and Schill A. Modeling of context information for Pervasive computing applications. In Proeeedings of the 6th World Multiconference on Systemics, Cybernetics and Informatics, Orlando, FL, USA, 2002.Google Scholar
- Bauer J. Identification and Modeling of Contexts for Different Information Scenarios in Air Traffic, Mar.2003.DiplomarbeitGoogle Scholar
- Schmidt A, Beigl, M, and Gellersen H W. There is more to context than location. Computers and Graphics, 1999, 23(6):893--901.Google ScholarCross Ref
- Akman, V., and Surav, M. The use of situation theory in context modeling. Computational Intelligence 13, 3 (1997), 427--438.Google ScholarCross Ref
- T. R. Gruber. A translation approach to portable ontologies knowledge acquisition. 1993.Google Scholar
- W. N. Borst. Construction of Engineering Ontologies for Knowledge Sharing and Reuse.PhD thesis, University of Twente, Enschede. 1997.Google Scholar
- W3C.RDF Primer. 2004.Google Scholar
- OGC SWE.OpenGIS Sensor Model Language Implementation Specification. 2007.Google Scholar
- Lim, E. H. Y. IEEE International Conference on Date of Conference: 20--24 Aug.Collaborative content and user-based web ontology learning system. 2009.Google Scholar
- Strang T, Linnhoff-Popien C, Frank K. CoOL: A Context Ontology Language to enable Contextual Interoperability. In: Proceedings of the 4th IFIP WG 6.1 International Conference on Distributed Applications and Interoperable Systems(DAIS2003), volume 2893 of Lecture Notes in Computer Science. Springer-Verlag, 2003.PP.236--24Google ScholarCross Ref
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