光纤通信线路的优化设计

Proceedings of the 4th International Conference on Future Networks and Distributed Systems Pub Date : 2020-11-26 DOI:10.1145/3440749.3442664

D. Vasiliev, I. Zharikov, V. Fadeenko, I. Fadeenko, V. Davydov

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引用次数: 0

摘要

本文介绍了一种用于传输微波信号的光纤通信线路的改进方案。发展微波传输线作为教育机构的一项改进，考虑到运行中的站点的技术要求。改进接收路径是为了制造具有发射微波信号能力的多功能步行器。在接收路径中使用光纤微波信号传输线，可以将其安装在电磁活动增加的物体中(例如，海基物体)。具有先进波的多功能雷达可用于探测空中和海上空间以及地球表面的各种移动和静止目标。研究表明，开发的FOCL的动态范围为80 dBm。这个结果并不比同轴电缆差。研究了切向灵敏度与接收微波信号频率的关系。结果表明，采用现代化光纤链路时，接收路径的灵敏度没有增加。

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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Optimization of designs for fiber optic communication line

The article describes a modification of fiber optic communication lines for transmitting microwave signals. Development of microwave transmission lines proposed as an improvement in an educational institution, taking into account the technical requirements for a station in operation. Improving the receiving path is to create a multifunctional walker with the ability to transmit microwave signals. The use of a fiber-optic microwave signal transmission line in the receiving path allows it to be installed in objects with increased electromagnetic activity (for example, a sea-based object). A multifunctional radar with advanced waves can be used to detect various moving and stationary targets in air and sea space, as well as on the Earth’s surface. Studies have shown that the dynamic range of the developed FOCL is 80 dBm. This result is not worse than that of a coaxial cable. The dependence of the tangential sensitivity on the frequency of the received microwave signal was investigated. The results showed that when using the modernized fiber optic link, the sensitivity of the receiving path does not increase.

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Proceedings of the 4th International Conference on Future Networks and Distributed Systems

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