Author : K.V.Sravani 1
Date of Publication :7th March 2016
Abstract: The Internet of Things is a paradigm where everyday objects can be equipped with identifying, sensing, networking, and processing capabilities that will allow them to communicate with one another and with other devices and services over the Internet to accomplish some objective. Internet-of-Things envisions a future in which digital and physical entities can be linked, by means of appropriate information and communication technologies, to enable a whole new class of applications and services. The title of this paper may suggest different networking strategies, but we focus on latest research angles regarding the Internet of Things (IoT). These research angles includes all other disciplines and are in the process of being adopted by the IoT. Our paper serves a key purpose: from the perspective of closely connected technologies based on time, to review the evolutionary process of the IoT and depict the relations between the corresponding techniques which are largely missing in current literature in which the focus has been more on the introduction and comparison of existing technologies of the IoT. Through relations of particular focus in different stages of each technology, we get to know the current phase of the IoT and we can face future challenges. This paper aims to provide guidance in terms of the evolutionary process of the IoT and gives readers an overview of the IoT field without repeating what is already available in existing strategies.
Reference :
-
- X. Wang, W. Li, Y. Zhong, and W. Zhao, “Research on cloud logistics-based one-stop service platform for logistics center,”in Proceedings of the IEEE 16th International Conference, May 2012.
- Y. Yuxiang and X. Chenxue, “A development analysis of China’s intelligent transportation system,” in Proceedings of the IEEE and Internet of Things and IEEE Cyber, Physical and SocialComputing (iThings/CPSCom) and IEEE Cyber, Physical and Social Computing, pp. 1072–1076, 2013.
- D. Han, J. Zhang, Y. Zhang, and W. Gu, “Convergence of sensor networks/internet of things and power grid information network at aggregation layer,” in Proceedings of the International Conference on Power System Technology (POWERCON ’10), pp. 1–6, October 2010
- K. A. Delin, “The sensor web: a macro-instrument for coordinated sensing,” Sensors, vol. 2, no. 7, pp. 270–285, 2002.
- Microsoft’s “Sensor Web” Project, http://research.microsoft .com/en-us/projects/senseweb/. [6] L. Lefort, C. Henson, K. Taylor et al., “Semantic sensor network XG final report,” W3C Incubator Group Report 28, 2011.
- P. Barnaghi, W. Wang, C. Henson, and K. Taylor, “Semantics for the internet of things: early progress and back to the future,” International Journal on Semantic Web and Information Systems, vol. 8, no. 1, pp. 1–21, 2012
- C. C. Aggarwal, N. Ashish, and A. Sheth, “The internet of things: a survey from the data-centric M. Compton, P. Barnaghi, L. Bermudez et al.perspective,” in Managing and Mining Sensor Data, C. C. Aggarwal, Ed., pp. 383–428, Springer, New York, NY, USA, 2013.
- M. Botts, G. Percivall, C. Reed, and J. Davidson, “OGC sensor web enablement: overview and high level architecture,” in GeoSensor Networks, vol. 4540 of Lecture Notes in Computer Science, pp. 175–190, Springer, Berlin, Germany, 2008
- J. Gubbi, R. Buyya, S. Marusic, and M. Palaniswami, “Internet of Things (IoT): a vision, architectural elements, and future directions,” Future Generation Computer Systems, vol. 29, no. 7 , pp. 1645– 1660, 2013.
- D. Guinard, V. Trifa, F. Mattern, and E. Wilde, “From the internet of things to the web of things: resourceoriented architecture and best practices,” in Architecting the Internet of Things, pp. 97–129, Springer, New York, NY, USA, 2011.
- C. Perera, A. Zaslavsky, P. Christen, and D. Georgakopoulos, “Context aware computing for the internet of things: a survey,” IEEECommunications Surveys & Tutorials, vol. 16, no. 1, pp. 414–454, 2014.