The Sensitivity Investigation of Fiber Optic Paths in the Framework of an Intruder Localization at a Protected Facility

Proceedings of Telecommunication Universities Pub Date : 2023-03-09 DOI:10.31854/1813-324x-2023-9-1-52-58

V. Kartak, O. Gubareva, M. Dashkov, V. Gureev, A. Evtushenko

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Abstract

The paper considers the possibility of using communication lines already existing at urban development sites based on such information transfer technologies as «fiber-to-the-office» and «fiber-to-the-desk» in relation to the tasks of physical protection of objects. The aspects of using distributed acoustic sensors based on a phase-sensitive optical time-domain reflectometer for localizing sources of acoustic impact in real-time, that is, for determining the location of an intruder on a protected object, are considered. The sensitivity of optical paths to acoustic influences corresponding to the speech signals of the alleged intruder was assessed. An optical path based on optical fiber in an optical module with a hydrophobic filling is considered. An analysis of the spectral sensitivity of the optical fiber samples under study has been carried out. An assessment of the influence of the conditions for the passage of the route of laying the optical cable and the interaction of the acoustic sensor with the surrounding objects was carried out. The analysis of the results obtained during the test events at the experimental site was carried out.

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保护设施中入侵者定位框架下光纤路径的灵敏度研究

本文考虑了在城市开发地点使用现有通信线路的可能性，这种通信线路基于“光纤到办公室”和“光纤到办公桌”等信息传输技术，涉及到物体的物理保护任务。考虑了使用基于相敏光学时域反射计的分布式声传感器来实时定位声冲击源，即确定入侵者在受保护对象上的位置。评估了光路对与所述入侵者的语音信号相对应的声学影响的灵敏度。考虑了一种基于光纤的光路，该光路位于具有疏水填充的光模块中。对所研究的光纤样品的光谱灵敏度进行了分析。对光缆敷设路径通过条件和声传感器与周围物体相互作用的影响进行了评估。对试验现场的试验结果进行了分析。

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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Proceedings of Telecommunication Universities

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