How the Material Characteristics of Optical Fibers and Soil Influence the Measurement Results of Distributed Acoustic Sensing

• Published in: Sensors (Basel, Switzerland) Vol. 23; no. 17; p. 7340
• Main Authors: Jiang, Ke, Liang, Lei, Tong, Xiaoling, Zeng, Feiyu, Hu, Xiaolong
• Format: Journal Article
• Language: English
• Published: Basel MDPI AG 23.08.2023; MDPI
• Subjects: Acoustics; Cables; Communication; distributed acoustic sensing; fiber optic cable; Fiber optic cables; Fiber optics; Load; Measurement; Partial differential equations; sensitivity improvement; Sensors; Signal processing; Surveys; Vibration; vibration response
• ISSN: 1424-8220; 1424-8220
• DOI: 10.3390/s23177340

Fiber optic distributed acoustic sensing (DAS) technology is widely used in security surveillance and geophysical survey applications. The response of the DAS system to external vibrations varies with different types of fiber optic cable connections. The mechanism of mutual influence between the cable’s characteristics and DAS measurement results remains unclear. This study proposed a dynamic model of the interaction between the optical cable and the soil, analyzed the impact of the dynamic parameters of the optical cable and soil on the sensitivity of the DAS system, and validated the theoretical analysis through experiments. The findings suggest that augmenting the cable’s bending stiffness 5.5-fold and increasing its unit mass 4.2-fold result in a discernible reduction of the system’s response to roughly 0.15 times of its initial magnitude. Cables with lower unit mass and bending stiffness are more sensitive to vibration signals. This research provides a foundation for optimizing vibration-enhanced fiber optic cables and broadening the potential usage scenarios for DAS systems.