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Publisher: Elsevier
Languages: English
Types: Article
Subjects: QA75
The Internet of Things (IoT) refers to a world-wide network of interconnected physical things using standardized communication protocols. Recent development of Internet Protocol (IP) stacks for resource-constrained devices unveils a possibility for the future IoT based on the stable and scalable IP technology much like today's Internet of computers. One important question remains: how can data and events (denoted as services) introduced by a variety of IP networked things be exchanged and aggregated e ciently in various application domains. Because the true value of IoT lies in the interaction of several services from physical things, answers to this question are essential to support a rapid creation of new IoT smart and ubiquitous applications. The problem is known as service composition. This article explains the practicability of the future full-IP IoT with realtime Web protocols to formally state the problem of service composition for IP smart objects, provides literature review, and discusses its research challenges.
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    • [18] G. Moritz, D. Timmermann, R. Stoll, F. Golatowski, Encoding and compression for the devices pro le for web services, in: 2010 IEEE 24th International Conference on Advanced Information Networking and Applications Workshops (WAINA), 2010, pp. 514{519.
    • 822 [19] G. Moritz, F. Golatowski, C. Lerche, D. Timmermann, Beyond 6lowpan: Web services in wireless sensor networks, IEEE Transactions on Industrial Informatics 9 (4) (2013) 1795{1805.
    • [20] I. Samaras, G. Hassapis, J. Gialelis, A modi ed DPWS protocol stack for 6lowpan-based wireless sensor networks, IEEE Transactions on Industrial Informatics 9 (1) (2013) 209{217.
    • 828 [21] X. Yang, X. Zhi, Dynamic deployment of embedded services for DPWSenabled devices, in: 2012 Int. Conf. on Computing, Measurement, Control and Sensor Network (CMCSN), 2012, pp. 302{306.
    • [22] R. T. Fielding, R. N. Taylor, Principled design of the modern web architecture, ACM Trans. Internet Technol. 2 (2) (2002) 115{150.
    • [23] U. A mann, Invasive software composition, Springer, 2003.
    • [28] O. M. G. (OMG), Business process model and notation (bpmn) version 2.0, Tech. rep. (Jan. 2011).
    • [29] K. Finkenzeller, RFID Handbook, 3rd Edition, Wiley, 2010.
    • 846 [30] C. Kerer, S. Dustdar, M. Jazayeri, D. Gomes, A. Szego, J. B. Caja, Presence-aware infrastructure using web services and r d technologies, in: Proceedings of the 2nd European workshop on object orientation and web services, Oslo, Norway, 2004.
    • [31] J. Xingyi, L. Xiaodong, K. Ning, Y. Baoping, E cient complex event processing over r d data stream, in: 2008 Seventh IEEE/ACIS Intl. Conf. on Computer and Information Science (ICIS 08), IEEE, 2008, pp. 75{81.
    • [32] A. V. Paliwal, N. Adam, C. Bornhovd, J. Schaper, Semantic discovery and composition of web services for r d applications in border control, in: 3rd Intl. Semantic Web Conference (ISWC), Vol. 4, 2004.
    • [33] L. Fagui, L. Kun, Z. Yang, Semantic web services and its application in third-party logistics, in: International Workshop on Education Technology and Training and International Workshop on Geoscience and Remote Sensing (ETT/GRS 2008), IEEE, 2008, pp. 626{630.
    • [38] D. Guinard, M. Mueller, V. Trifa, Restifying real-world systems: A practical case study in r d, in: REST: From Research to Practice, Springer, 2011, pp. 359{379.
    • [39] Z. Movahedi, B. Defude, A high-level service composition model for building applications on sensor networks, in: 2013 IEEE 22nd International Workshop on Enabling Technologies: Infrastructure for Collaborative Enterprises (WETICE), 2013, pp. 202{207.
    • [40] I. Toure, Y. Yang, Z. Q. Mi, L. Wang, Low redundant hop-counts for service composition optimization in dynamic network, in: 2011 Intl. Conf. on Cloud and Service Computing (CSC), 2011, pp. 26{31.
    • 882 [41] X. Wang, J. Wang, Z. Zheng, Y. Xu, M. Yang, Service composition in service-oriented wireless sensor networks with persistent queries, in: 2009 6th IEEE Consumer Communications and Networking Conference(CCNC 2009), IEEE, 2009, pp. 1{5.
    • [46] D. Guinard, V. Trifa, S. Karnouskos, P. Spiess, D. Savio, Interacting with the soa-based internet of things: Discovery, query, selection, and on-demand provisioning of web services., IEEE Transactions on Services Computing 3 (3) (2010) 223{235.
    • [47] K. Dar, A. Taherkordi, R. Rouvoy, F. Eliassen, Adaptable service composition for very-large-scale internet of things systems, in: Proceedings of the 8th Middleware Doctoral Symposium, ACM, 2011, p. 2.
    • [48] M. Roelands, J. Plomp, D. Mansilla, J. V. Salhi, G. Lee, N. Crespi, C. Valderrama, N. Menezes, M. Lopez-Ramos, C. van Nimwegen, D. D. Roeck, L. L. Bastida, Q. Reul, The diy smart experiences project: A european endeavour removing barriers for user-generated internet of things applications, in: D. Uckelmann, M. Harrison, F. Michahelles (Eds.), Architecting the Internet of Things, Springer, New York Dordrecht Heidelberg London, 2011, Ch. 11, pp. 279{316.
    • [62] K. Kenda, C. Fortuna, A. Moraru, D. Mladenic, B. Fortuna, M. Grobelnik, Mashups for the web of things, in: Semantic Mashups, Springer, 2013, pp. 145{169.
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