Abstract
The technology of Internet of things based on RFID has begun to play an increasingly important role in modern communication. according to the characteristics of system communication is an emerging networking technology and its application in modern communication system, the research analyzes the intelligent power grid planning and construction, according to the needs of modern communication technology, play advantage, put forward the application scheme of the Internet of things in power communication system, construction of basic network platform can carry out various types of services using EPON optical communications, wireless communications and other modern communications technology (network layer), carrying a variety of business data, voice, video and so on; combined with the technology of RFID, realize the communication management of RFID substation integrated monitoring system, the spare parts warehouse management system, computer room management system based on RFID. RFID computer room intelligent management system using RFID automatic identification technology and network and software platform of integrated equipment management system and the background of the front end of the RFID hardware equipment, equipment data room will focus to the control center is set through the network transmission, and storage, processing, real-time monitoring data to show, cabinets and other important business assets monitoring to provide faster, more carefully, more accurate daily management. From the point of view of the perception layer and network layer of the optical communication technology (optical fiber communication and wireless communication) the current status and Prospect of application in the Internet of things.
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References
Cont, J.P.: The Internet of things. Commun. Eng. 4(6), 20–25 (2006)
Advancing the internet of things for global commerce [EB/OL], 03 July 2014
Yang, Z.H.J., **ao, Q., Yu, R.R., et al.: China mobile: comprehensive practical application on the internet of things. World Telecommun. 2009(11), 40–42. (in Chinese)
Wu, C.J., Yan, C.H.X., Gaozh, L.: Overview of space laser communications. Chin. Opt. 6(5), 672–680 (2013). (in Chinese)
Lin, H., Zhou, P.C.H., Wang, F.F., et al.: Fast response organic light-emitting devices for optical communication. Chin. J. Lumin. 34(1), 73–77 (2013). (in Chinese)
Chen, G.F., Wang, Y.J.: Optimization time sychronization in cross-layer service for WSNs. Opt. Precision Eng. 21(12), 3231–3238 (2013). (in Chinese)
Chen, R.M.: Analysis of ubiquitous/internet of things/sensor network and other communication network relation. Mobile Commun. 34(8), 47–51 (2010). (in Chinese)
Bohnert, K., Gabus, P., Nehring, J., et al.: Temperature and vibration insensitive fiber-optic sensor. J. LightwaveTechnol. 20(2), 267 (2002)
Li, H., Chen, H.J.: Key technology and application prospect of the internet of things. Forum Sci. Technol. China 1, 81–85 (2011). (in Chinese)
**e, C.H.F., Sun, Y., Gao, X.Y.: Convergency strategy of sensor network and telecom network. Telecommun. Sci. 25(12), 9–12 (2009). (in Chinese)
Ning, X.F., Zhang, C.H.Y., Wan, W., et al.: Research and design of Internet of things architecture based on LTE system. Comput. Appl. 30(6), 6–9 (2010). (in Chinese)
Welbourne, E., Battle, L., Cole, G., et al.: Building the interact of things using RFID: the RFID ecosystem experience. IEEE Internet Comput. 13(3), 48–55 (2009). (in Chinese)
Song, H.Y., Zhao, H.Q.: Data collection solution design and implementation of distributed reader in EPC network. North China Univ. Techol. 20(1), 22–26 (2008). (in Chinese)
Shan, C.H.G., Ma, H.Y.: Coding and decoding technology of Manchester code of Type A IC car. Commun. Technol. 2003(3), 51–52 (2003). (in Chinese)
Zhu, J.W., Wang, Y.: Carrier’s views on the general architecture and evolution of IOT. Telecommun. Sci. 26(4), 1–5 (2010). (in Chinese)
Guo, Y., Zhang, S.H.Y., Sun, Y.F.: Research of key technologies and unresolved questions of internet of things. Comput. Technol. Dev. 20(11), 180–183 (2010). (in Chinese)
Qi, Q.Z.H.: The Internet of things and M2M business strategic thinking. ZTE Commun. 16(1), 3–5 (2010). (in Chinese)
Shen, C., Srisathapornphat, C., Jaikaeo, C.: Sensor information networking architecture and applications. IEEE Pers. Commun. 8, 52–59 (2001)
Tilak, S., Abhu-Gazhaleh, N., Heinzelman, W.R.: A taxanomy of wireless micro-sensor network models. ACM SIGMOBILE Mobile Comput. Commun. 6(2), 28–36 (2002)
Chen, H., Megerian, S.: Efficient data collection through compression-centric routing. In: IEEE GLOBECOM, no. 9, pp. 1–6 (2006)
Luo, H., Liu, Y., Das, S.K.: Distributed algorithm for en route aggregation decision in wireless sensor network. IEEE Trail. Mobile Comput. 8(1), 1–13 (2009)
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Yang, XC., Yan, ZY., Chun, ZJ., Zou, LL. (2021). Optical Fiber Communication and Wireless Communication Technology Oriented to Internet of Things. In: Xu, Y., Sun, Y., Liu, Y., Gao, F., Gu, P., Liu, Z. (eds) Nuclear Power Plants: Innovative Technologies for Instrumentation and Control Systems. SICPNPP 2020. Lecture Notes in Electrical Engineering, vol 779. Springer, Singapore. https://doi.org/10.1007/978-981-16-3456-7_31
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