Management ofCommunication System in Pipeline IndustryBased on OLP Technology

CONVERTER Pub Date : 2021-07-10 DOI:10.17762/converter.98
Yu-bao Ma, Xin-Rong Qin
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Abstract

In order to effectively improve the fault self-healing ability of pipeline communication system and reduce the events of communication interruption caused by fiber break or performance degradation of optical line, this paper introduces the basic principle, system composition working mode and technical requirements of OLP technology. The OLP system is firstly introduced into the relay section of long-distance pipeline to build the standby route with the spare optical fiber as material. When the in-service route is broken or the performance of optical fiber is reduced, the OLP system can automatically switch to the standby route within 50 ms to ensure the communication transmission service be uninterrupted, and even no error code alarm. Through engineering test in pipeline industry, the operability of OLP technology applied to the pipeline communication system is verified. Using the real-time monitoring data of optical cable through OLP system, we can analyze the evolution trend of optical cable line quality, precontrol in advance, and improve the level of communication management.
基于OLP技术的管道行业通信系统管理
为了有效提高管道通信系统的故障自愈能力,减少因光纤断线或光纤性能下降导致的通信中断事件,本文介绍了OLP技术的基本原理、系统组成、工作方式和技术要求。首先将OLP系统引入长输管线中继段,以备用光纤为材料建立备用线路。当在位路由中断或光纤性能下降时,OLP系统可以在50ms内自动切换到备用路由,保证通信传输业务不中断,甚至不产生误码告警。通过管道行业的工程试验,验证了OLP技术应用于管道通信系统的可操作性。利用OLP系统对光缆的实时监控数据,可以分析光缆线路质量的演变趋势,提前进行预控制,提高通信管理水平。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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