Volume 5, Issue 2, June 2020, Page: 74-81
Research on Application of Electricity Emergency Communication Based on Multi-situation Awareness
Junxiao Shi, Determent Operation and Maintenance, Information and communication Branch, State Grid Zhejiang Electric Power Corporation, Hangzhou, China
Chenfan Weng, Determent Operation and Maintenance, Information and communication Branch, State Grid Zhejiang Electric Power Corporation, Hangzhou, China
Hui Wu, Determent Operation and Maintenance, Information and communication Branch, State Grid Zhejiang Electric Power Corporation, Hangzhou, China
Received: Feb. 7, 2020;       Accepted: Feb. 24, 2020;       Published: Apr. 14, 2020
DOI: 10.11648/j.ajset.20200502.13      View  79      Downloads  44
In order to meet the demand of contemporary emergency communications, the investigations on communication methods, basic network survivability, coverage ability and transmission rate are proposed. The digital microwave, mesh networks, small base stations and portable integrated base station technologies are studied, then multi-situation awareness networking architecture is presented, and the key modules which involved in the solution is discussed. According to the architecture, concept of typical power emergency scene based on natural disasters and transmission line repairs are designed. This paper discusses the practical application of an emergency communication network that can be quickly set up, integrated earth observation system with multi-level command, which meets the higher requirements of future electricity emergency communication guarantee. It is foreseeable that in the future, power emergency communications will present a trend of polymorphism. The networking scheme proposed in this paper has greatly improved the efficiency of establishing the on-site emergency system. In extreme disaster situations, various sensing technologies will take advantage of the unique advantages of their respective technologies, so that multi-level command can be achieved at the company's provincial, city, and even county levels. At the same time, while ensuring the key target area, it can achieve a wide coverage which has certain promotion value.
Electricity Emergency Communication, Coverage Area, Transmission Rate, Digital Microwave, Small Cell, Mesh Network, Multi-situation Awareness
To cite this article
Junxiao Shi, Chenfan Weng, Hui Wu, Research on Application of Electricity Emergency Communication Based on Multi-situation Awareness, American Journal of Science, Engineering and Technology. Special Issue: Machine Learning in the Internet of Things. Vol. 5, No. 2, 2020, pp. 74-81. doi: 10.11648/j.ajset.20200502.13
Copyright © 2020 Authors retain the copyright of this article.
This article is an open access article distributed under the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
WANG Haitao. Analysis of the development status and tech-nical means of emergency communication. China Radio, 2010 (11): 49-51.
JIA Haijun, ZHANG Yue. Application of Conference Call Technology in the Development of Public Security Emergency Command and Dispatching System. Computer Engineering & Software, 2014 (4): 127-129.
JIANG Weiyong, WU Wenchuan, ZHANG Boming, etc. Net-work Model Reconstruction in Online Security Early Warning System. Automation of Electric Power Systems, 2007, 31 (21): 5-9.
FAN Kai. Research on a new generation of emergency com-mand and dispatch communication system. Communication technology, 2011, 44 (3): 35-37.
ZHANG Weiguang, YU Gang, LI Hongliang. Rapid deployment plan for mobile mobile communication sys-tems in emergency operations. Telecommunication Engi-neering, 2010, 50 (4): 11-14.
Ramrekha T A, Politis C. An adaptive qos routing solution for manet based multimedia communications in emergency cas-es, International Conference on Mobile Lightweight Wire-less Systems. Berlin, Gem Heidelberg, Berlin: Springer, 2009: 74-84.
Ellis A D, Tan M, Iqbal M A, et al. 4 Tb/s transmission reach enhancement using 10× 400 Gb/s super-channels and polariza-tion insensitive dual band optical phase conjugation. Journal of lightwave technology, 2016, 34 (8): 1717-1723.
Lichtensteiger B, Bjelajac B, Müller C, et al. RF mesh systems for smart metering: System architecture and perfor-mance, 2010 First IEEE International Conference on Smart Grid Communications. Washington, USA:IEEE, 2010: 379-384.
HONG Xijun, CHE Kenan, ZHANG Ji. Research on Wireless Ad Hoc Network Routing Protocol. Computer Engineer-ing (8): 110-112.
ZHOU Chao, ZHANG Xinggong, GUO Zongming. Multi-user video transmission optimization method for MIMO multi-hop wireless network. Journal of Software, 2013, 24 (2): 279-294.
YU Hai, CAO Lei. WiFi-based wireless mesh (Mesh) network-ing technology. modern electronics technique, 2011, 34 (10): 120-122.
MA Yufeng, GONG Shenguang, HU Xiulin, etc. Cellular wire-less communication network call admission control analysis. Journal on Communications, 2006, 27 (5): 108-114.
SHU Peilian, LI Yi, JIANG Zhaojin. Comparative Analysis of Several Small Mobile Communication Base Stations. Mobile communications, 2015 (9): 82-86.
Lutsiak M E C, Semnani R T, De Pascalis R, et al. Inhibition of CD4+ 25+ T regulatory cell function implicated in enhanced immune response by low-dose cyclophosphamide. Blood, 2005, 105 (7): 2862-2868.
Guttman E. Service location protocol: Automatic discovery of IP network services. IEEE Internet Computing, 1999, 3 (4): 71-80.
LI Wenwei, CHEN Baoren, WU Qian, etc. Application Re-search of TD-LTE Power Wireless Broadband Private Network Technology. Telecommunications for Electric Power System, 2013, 33 (11): 82-87.
ZHANG Shuling, JIANG Xinhua, Zou Fumin. Research and op-timization of multi-hop Mesh network performance based on open source code. Science technology and engineering, 2007, 7 (22): 5950-5953.
LI Wanchen, CHEN Yuxian, ZHANG Jin, etc. Multi-channel multimedia data transmission system based on 3G wireless net-work [J]. Journal of Harbin University of Commerce (Natural Science Edition), 2013 (1): 79-81.
WANG Wenxi, WANG Binheng, PU Jifeng. Structural design of IP65 small explosion-proof motor. explosion proof machine, 1999 (02): 22-24.
WU Wenping, WANG Xiaobing. Design and Implementation of Fast Star Device Based on ARM9. modern electronic technology, 2009, 32 (19): 53-55.
Browse journals by subject