Design and analysis of transmission relay protection signal transmission for fiber optic communication networks
Authors: 
Qian Wu, Yangfan Li, Zhifeng TianAuthors Info & Claims
Pages 152 - 156
Abstract
In order to implement the accurate transmission of relay protection signals in fiber optic communication networks, it is necessary to carry out the channel equalization configuration of fiber optic communication networks and the adaptive forwarding control processing of relay protection signals, put forward a method of accurate transmission of relay protection signals in fiber optic communication networks based on the suppression of time-varying multipath fading and adaptive beam formation, construct the relay channel equalization model of fiber optic communication networks, and adopt the fiber optic baud interval equalization technique to carry out the equalization design of relay communication transmission links in fiber optic communication networks. Equalization technology is used for the equalization design of relay communication transmission link in fiber optic communication network. For the time-varying multipath attenuation of communication channel, the multipath suppression is carried out by the successive tapping processing method of the electric signal, the optimal baud spacing of relay protection signals is sampled according to the time-varying multipath fading loss of the channel, and the multipath fading suppression is used to compensate the signals and filter the interferences of the fiber optic network communication channel and achieve the accurate transmission method of relay protection signals in fiber optic communication network. Adaptive beam forming and accurate transmission of relay protection signals are realized. The simulation results show that the accuracy of relay protection signal transmission in fiber optic communication network is better, the anti-interference ability is stronger, and the channel balance is better.
References
[1]
Liu Jinsong. Research on transmission of relay protection signal in fiber optic communication network[J]. Urban and rural construction, 2012, (35).
[2]
Tao Yuehu. Analysis of signaling technology for transmission of relay protection in power communication network [J]. 021.
[3]
Yuan Bing. Analysis of bit error characteristics and time delay of relay protection signals transmitted by SDH fiber optic communication [J]. Journal of Shandong Electric Power College, 2006, 009(002):59-63.
[4]
Yuan Bing. Analysis of the BER characteristics and time delay of relay protection signals transmitted by SDH fiber optic communication[J]. Journal of State Grid Technology Institute, 2006, 9(002):59-63.
[5]
Li M.Z., Liu J.M., Wang H.H., Analysis of the impact of communication system delay jitter on power line fault localization based on traveling wave method[C]//2017 Annual Meeting of Power Industry Informatization.0. 2023, 11-09.
[6]
Wang Yan. Transmission of relay protection signals in SDH fiber optic self-healing network [J]. Power System Communication, 2009, (12):5.
[7]
Ding Daoqi. Structuring "1+3" power and telecommunication composite optical communication network on modern power grid–Another discussion on the interdependence of information and communication industry and power industry and related technologies [J]. China Electric Power, 2002, 035(010):1-10.
[8]
Zhanxiong Wang. Exploring the application of fiber optic communication in power system relay protection[J]. Communication World, 2016. SUN: TXSJ.0.2016-22-097.
[9]
CHENG Lu-ming, CHENG Lu-ming, YANG Hong-zhen, Analysis of fiber optic channel transmission protection information mode[C]//China Electric Power Planning and Design Association; National Electric Power Planning and Research Center; General Institute of Electric Power Planning and Design. China Electric Power Planning and Design Association; National Electric Power Planning and Research Center; General Institute of Electric Power Planning and Design, 2015.
[10]
XU Xiangjun, TIAN Guizhen. Analysis of problems related to the application of fiber optic longitudinal protection for 500 kV lines[J]. Power System Communication, 2009.
[11]
Bhowmik T M A. Design and analysis of broadband single-mode photonic crystal fiber for transmission windows of the telecom wavelengths [J]. Optik: Zeitschrift fur Licht- und Elektronenoptik: = Journal for Light-and Electronoptic, 2017, 139.
[12]
Bhowmik, Tanmay, Maity, Design and analysis of broadband single-mode photonic crystal fiber for transmission windows of the telecom wavelengths [J]. Optik: Zeitschrift fur Licht- und Elektronenoptik: = Journal for Light-and Electronoptic, 2017, 139: 366-372.
Index Terms
- Design and analysis of transmission relay protection signal transmission for fiber optic communication networks
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Published In
December 2023
435 pages
ISBN:9798400716430
DOI:10.1145/3654446
Copyright © 2023 ACM.
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Association for Computing Machinery
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Published: 03 May 2024
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SPCNC 2023
SPCNC 2023: The 2nd International Conference on Signal Processing, Computer Networks and Communications
December 8 - 10, 2023
Xiamen, China
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