Title: Design of fibre optic cable communication automatic control system based on embedded technology

Authors: Yuntao Zhou; Qiong Cheng; Yurong Zhen; Jing Wang; Jun Yang

Addresses: State Grid Yangquan Power Supply Company, Yangquan, Shanxi, China ' State Grid Yangquan Power Supply Company, Yangquan, Shanxi, China ' State Grid Yangquan Power Supply Company, Yangquan, Shanxi, China ' State Grid Yangquan Power Supply Company, Yangquan, Shanxi, China ' State Grid Yangquan Power Supply Company, Yangquan, Shanxi, China

Abstract: In recent years, the optical fibre communication technology has made great progress, but the traditional optical cable communication automatic control system still has environmental factors, such as interference signal attenuation, light signal dispersion and slow transmission speed. In order to solve the existing problems, this paper will be based on embedded technology design of optical cable communication automatic control system for optical fibre and optical cable communication. In order to test the effectiveness of embedded technology in the design of communication automation control system, the three indexes of anti-interference, signal transmission efficiency and control accuracy are evaluated. The final experimental results show that the average anti-interference score of the automatic control system based on embedded technology is 9.173, the average signal transmission efficiency is 9.6 and the average control accuracy is 93.62%, which has obvious advantages over the traditional optical fibre communication system. The design of optical cable communication automatic control system based on embedded technology has the advantages of high efficiency, reliability, flexibility, scalability and cost-effectiveness, which can improve the performance and availability of the communication system.

Keywords: fibre optic communication; communications technology; automatic control system embedded technology.

DOI: 10.1504/IJGUC.2024.140134

International Journal of Grid and Utility Computing, 2024 Vol.15 No.3/4, pp.396 - 404

Received: 05 Aug 2023
Accepted: 28 Apr 2024

Published online: 24 Jul 2024 *

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