Characterization of sensitivity of optical fiber cables to acoustic vibrations

Dejdar, Petr; Mokrý, Ondřej; Čížek, Martin; Rajmic, Pavel; Münster, Petr; Schimmel, Jiří; Pravdova, Lenka; Horváth, Tomáš

doi:10.1038/s41598-023-34097-9

Cited by 6 publications

(2 citation statements)

References 39 publications

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“…In other words, sensitivity quantifies the relationship between the change in the output signal of the sensor and the corresponding change in the sensed quantity. Sensitivity is typically articulated as a ratio or percentage, representing the change in the output signal per unit change in the sensed quantity [ 87 ].…”

Section: Working Mechanism Of Optical Fibre-based Sensorsmentioning

confidence: 99%

Optical Fibre-Based Sensors—An Assessment of Current Innovations

Khonina,

Kazanskiy,

Butt

2023

Biosensors

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Optical fibre sensors are an essential subset of optical fibre technology, designed specifically for sensing and measuring several physical parameters. These sensors offer unique advantages over traditional sensors, making them gradually more valuable in a wide range of applications. They can detect extremely small variations in the physical parameters they are designed to measure, such as analytes in the case of biosensing. This high sensitivity allows them to detect subtle variations in temperature, pressure, strain, the refractive index of analytes, vibration, and other environmental factors with exceptional accuracy. Moreover, these sensors enable remote sensing capabilities. Since light signals are used to carry information, the sensing elements can be placed at distant or inaccessible sites and still communicate the data back to the central monitoring system without signal degradation. In recent times, different attractive configurations and approaches have been proposed to enhance the sensitivity of the optical fibre-based sensor and are briefly explained in this review. However, we believe that the choice of optical fibre sensor configuration should be designated based on the specific application. As these sensors continue to evolve and improve, they will play an increasingly vital role in critical monitoring and control applications across various industries.

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Section: Working Mechanism Of Optical Fibre-based Sensorsmentioning

confidence: 99%

Optical Fibre-Based Sensors—An Assessment of Current Innovations

Khonina,

Kazanskiy,

Butt

2023

Biosensors

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“…This noise should exhibit long-period characteristics that coincide with temperature changes. Secondly, sound and infrasound waves with frequencies between 10 −4 Hz and 1 kHz can introduce periodic noise by affecting the length of optical fibers [23]. Finally, electrical devices can also introduce high-frequency electrical noise.…”

Section: Signal Processing and Feature Extractionmentioning

confidence: 99%

A Deep-Learning-Based Method for Optical Transmission Link Assessment Applied to Optical Clock Comparisons

Gui,

Shi,

et al. 2023

Photonics

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We apply the Empirical Mode Decomposition (EMD) algorithm and the Time Convolutional Network (TCN) structure, predicated on Convolutional Neural Networks, to successfully enable feature extraction within high-precision optical time-frequency signals, and provide effective identification and alerts for abnormal link states. Experimental validation confirms that the proposed method not only delivers an efficacy on par with traditional manual techniques, but also excels in swiftly identifying anomalies that typically elude conventional approaches. This investigation furnishes novel theoretical backing and forecasting tools for high-precision optical transmission.

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