Preliminary assessment of ship detection and trajectory evaluation using distributed acoustic sensing on an optical fiber telecom cable

Rivet, Diane; Cacqueray, Benoit de; Sladen, Anthony; Roques, Aurélien; Calbris, Gaëtan

doi:10.1121/10.0004129

Cited by 54 publications

(30 citation statements)

References 37 publications

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“…Rønnekleiv et al (2019) showed that DAS is capable of recording acoustic waves from ships, too. Rivet et al (2021) further explored the potential of this technology to detect and track ships. They concluded that the strain changes in the cable can be caused directly by pressure waves traveling through the water layer or through the sediments for slightly buried sections of the cable.…”

Section: Non-seismic Signals (Ships)mentioning

confidence: 99%

Noise Levels and Signals Observed on Submarine Fibers in the Canary Islands Using DAS

Ugalde

Becerril

Villaseñor

et al. 2021

Seismological Research Letters

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In this study, we investigate 70 days of distributed acoustic sensing (DAS) recordings in the Canary Islands using an undersea fiber-optic telecommunication cable that links the islands of Tenerife and Gran Canaria. Two DAS interrogators connected to both ends of the cable turned the fiber into an array of 11,968 strain sensors covering a total length of ∼120 km. We present the details of the experiment, noise analysis, and examples of recorded signals. Seismic ambient noise levels assessment indicates poor local coupling of the cable due to the irregular bathymetry that results in high-amplitude acoustic oscillations in some channels. The DAS array recorded several types of nonseismic (vehicles, surface gravity waves, ships) and seismic signals. Local and regional earthquakes were detected with magnitudes mbLg≥2. Surface waves from teleseismic events at a distance of ∼3000 km were also identified in the strain recordings. Here, we report the first observations with DAS of hydroacoustic T waves generated by oceanic earthquakes located at the Central Mid-Atlantic Ridge and the Cape St. Vincent region. Events had magnitudes from Mw 4.2 to 6.9, and the hydroacoustic waves were recorded at epicentral distances from 780 to 3400 km. Our findings show that submarine fiber-optic cables can effectively be used to assess the seismic activity in remote oceanic areas.

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Section: Non-seismic Signals (Ships)mentioning

confidence: 99%

Noise Levels and Signals Observed on Submarine Fibers in the Canary Islands Using DAS

Ugalde

Becerril

Villaseñor

et al. 2021

Seismological Research Letters

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“…However, the decisive characteristics to classify baleen whales is the spectral content of the signal (McDonald et al, 2006;S ̌irovićet al, 2017). We therefore propose a spatio-spectral representation of the DAS recordings or f-x plot, as employed in (Rivet et al, 2021), to show the spectral signature and its evolution against the distance. The method is detailed in § 4.…”

Section: Changing Perspectives: From Single Point To Distributed Sensingmentioning

confidence: 99%

“…Using an interrogator, DAS technology re-purposes existing dark fiber optic (FO) cables to record nano strain (Culshaw and Kersey, 2008) and has the potential for realtime monitoring over tens of kilometers (up to 171 km (Waagaard et al, 2021)) with a spatial resolution of a few meters (Goertz and Wuestefeld, 2018;Waagaard et al, 2021). Initially applied to geophysical data collection (Schenato, 2017;Hartog et al, 2018), DAS has recently aroused interest with waterborne sound sources, e.g, it has been used for near-surface ship detection and bearing estimation in the Mediterranean sea (Rivet et al, 2021). Quality assessment of the data was performed using controlled airguns sources compared (a) to ocean bottom seismometers recordings in Japan (Matsumoto et al, 2021) and (b) to seismic streamers in Norway (Taweesintananon et al, 2021).…”

Section: Introductionmentioning

confidence: 99%

Eavesdropping at the Speed of Light: Distributed Acoustic Sensing of Baleen Whales in the Arctic

et al. 2022

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In a post-industrial whaling world, flagship and charismatic baleen whale species are indicators of the health of our oceans. However, traditional monitoring methods provide spatially and temporally undersampled data to evaluate and mitigate the impacts of increasing climatic and anthropogenic pressures for conservation. Here we present the first case of wildlife monitoring using distributed acoustic sensing (DAS). By repurposing the globally-available infrastructure of sub-sea telecommunication fiber optic (FO) cables, DAS can (1) record vocalizing baleen whales along a 120 km FO cable with a sensing point every 4 m, from a protected fjord area out to the open ocean; (2) estimate the 3D position of a vocalizing whale for animal density estimation; and (3) exploit whale non-stereotyped vocalizations to provide fully-passive conventional seismic records for subsurface exploration. This first example’s success in the Arctic suggests DAS’s potential for real-time and low-cost monitoring of whales worldwide with unprecedented coverage and spatial resolution.

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“…DAS recordings were also used for ambient noise interferometry (e.g., Zeng et al, 2017; E. R. , offering the possibility to retrieve repeatable signals (i.e., Rayleigh and Love waves) for near-surface characterization (E. Dou et al, 2017) and aquifer monitoring (Rodríguez Tribaldos & Ajo-Franklin, 2021). In addition, subsea telecommunication fibers have been used to monitor ocean dynamics (Lindsey et al, 2019;Sladen et al, 2019;Williams et al, 2019Williams et al, , 2022 but also to detect earthquakes (Lior et al, 2021; and acoustic phases (Rivet et al, 2021;Ugalde et al, 2022;, image the near-shore subsurface (Z. J. Spica, Nishida, et al, 2020;Z.…”

Section: Overview Of the Current Fields Of Application In Earth Sciencesmentioning

confidence: 99%

PubDAS: a PUBlic Distributed Acoustic Sensing datasets repository for geosciences

Spica¹,

Ajo‐Franklin²,

Beroza³

et al. 2022

Preprint

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During the past few years, Distributing Acoustic Sensing (DAS) has become an invaluable tool for recording high-fidelity seismic wavefields with great spatiotemporal resolutions. However, the considerable amount of data generated during DAS experiments limits their distribution with the broader scientific community. Such a bottleneck inherently slows down the pursuit of new scientific discoveries in geosciences. Here, we introduce PubDAS, the first large-scale open-source repository where several DAS datasets from multiple experiments are publicly shared. PubDAS currently hosts eight datasets covering a variety of geological settings (e.g., urban centers, underground mine, seafloor), spanning from several days to several years, offering both continuous and triggered active source recordings, and totalling up to ~90 Tb of data. This manuscript describes these datasets, their metadata, and how to access and download them. Some of these datasets have only been shallowly explored, leaving the door open for new discoveries in Earth sciences and beyond.

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Preliminary assessment of ship detection and trajectory evaluation using distributed acoustic sensing on an optical fiber telecom cable

Cited by 54 publications

References 37 publications

Noise Levels and Signals Observed on Submarine Fibers in the Canary Islands Using DAS

Noise Levels and Signals Observed on Submarine Fibers in the Canary Islands Using DAS

Eavesdropping at the Speed of Light: Distributed Acoustic Sensing of Baleen Whales in the Arctic

PubDAS: a PUBlic Distributed Acoustic Sensing datasets repository for geosciences

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