摘 要:通信电缆数量多、分布复杂,经常会由于电缆耐热外皮损伤而导致电缆运行故障的发生,给通信带来一定的影响,甚至会引起火灾。鉴于此,文章研发一种 5G 通信工程电缆耐热外皮运行状态监测技术。首先采集 5G 通信工程电缆耐热外皮运行参数,其次构建通信工程电缆耐热外皮运行状态监测模型,最后设计电缆耐热外皮运行状态监测算法,从而实现了 5G 通信工程电缆耐热外皮运行状态监测。实验结果表明,该文设计的方法监测敏感性较高,监测效果较好,具有一定的应用价值。
关键词:5G;通信工程;电缆;耐热外皮;运行状态;监测
DOI:10.19850/j.cnki.2096-4706.2022.07.015
中图分类号:TN913.32 文献标识码:A 文章编号:2096-4706(2022)07-0058-04
5G Communication Engineering Cable Heat-Resistant Sheath Running State Monitoring Technology
MA Sai
(Jiujiang Vocational and Technical College, Jiujiang 332007, China)
Abstract: Due to the large number and complex distribution of communication cables, cable running failures often occur due to the damage of the cable’s heat-resistant sheath, which will have a certain impact on communication and even cause fire. In view of this, this paper develops a monitoring technology for the running state of 5G communication engineering cable heat-resistant sheath. Firstly, the running parameters of 5G communication engineering cable heat-resistant sheath are collected. Secondly, the running state monitoring model of communication engineering cable heat-resistant sheath is constructed. Finally, the operation status monitoring algorithm for cable heat-resistant sheath is designed to realize the running state monitoring of 5G communication engineering cable heat-resistant sheath. The experimental results show that the method designed in this paper has high sensitivity and good monitoring effect, and has a certain application value.
Keywords: 5G; communication engineering; cable; heat-resistant sheath; running state; monitoring
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作者简介:马赛(1991.03—),男,汉族,安徽宿州人,助理工程师,硕士,研究方向:电子信息工程。