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从声学到高光谱:通过可学习滤波器实现实时周边入侵检测系统监测以及从分布式声学传感系统生成高光谱图像。

Acoustic-to-hyper-spectral: real-time perimeter intrusion detection system monitoring through learnable filters and hyper-spectral image generation from distributed acoustic sensing systems.

作者信息

Pierau Ruth-Emely, Katsifolis Jim, Meehan Alaster, Rezatofighi Hamid, Stuckey Peter J

出版信息

Opt Express. 2025 Feb 10;33(3):4109-4126. doi: 10.1364/OE.542663.

Abstract

This paper presents an integrated distributed acoustic sensing (DAS) system with artificial intelligence to provide real-time system monitoring for fence perimeter and buried system applications. The DAS system is a Rayleigh backscatter based fibre optic sensing system that has been deployed in two real-world, commercial applications to detect acoustic wave propagation and scattering along perimeter lines, and classify intrusions accurately. What we believe to be three novel signal processing methods are proposed to train filters for automatically selecting frequency bands from the power spectrum and generating hyper-spectral images from the data gathered by the DAS system without expert knowledge. The hyper-spectral images are analyzed by a neural network based object detection model. The system achieves 81.8% accuracy on a fence perimeter installation and 60.4% accuracy on a buried system application in detecting and classifying various intrusion events. The evaluation interval of the integrated DAS system framework between event sensing and detection does not exceed 5 s.

摘要

本文提出了一种集成人工智能的分布式声学传感(DAS)系统,用于为围栏周边和地下系统应用提供实时系统监测。DAS系统是一种基于瑞利背向散射的光纤传感系统,已部署在两个实际商业应用中,用于检测沿周边线路的声波传播和散射,并准确分类入侵行为。我们提出了三种新颖的信号处理方法来训练滤波器,以便在无需专家知识的情况下自动从功率谱中选择频段,并根据DAS系统收集的数据生成高光谱图像。基于神经网络的目标检测模型对高光谱图像进行分析。该系统在围栏周边安装中检测和分类各种入侵事件的准确率达到81.8%,在地下系统应用中的准确率为60.4%。集成DAS系统框架在事件感知和检测之间的评估间隔不超过5秒。

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