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Monitoring ocean currents during the passage of Typhoon Muifa using optical-fiber distributed acoustic sensing
In situ observations under typhoon conditions are sparse and limited. Distributed acoustic sensing (DAS) is an emerging technology that uses submarine optical-fiber (OF) cables to monitor the sea state. Here, we present DAS-based ocean current observations when a super typhoon passed overhead. The m...
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| Published in: | Nature communications 2024-02, Vol.15 (1), p.1111-1111, Article 1111 |
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| creator | Lin, Jianmin Fang, Sunke He, Runjing Tang, Qunshu Qu, Fengzhong Wang, Baoshan Xu, Wen |
| description | In situ observations under typhoon conditions are sparse and limited. Distributed acoustic sensing (DAS) is an emerging technology that uses submarine optical-fiber (OF) cables to monitor the sea state. Here, we present DAS-based ocean current observations when a super typhoon passed overhead. The microseismic noise induced by ocean surface gravity waves (OSGWs) during Typhoon Muifa (2022) is observed in the ~0.08–0.38 Hz frequency band, with high-frequency (>0.3 Hz) component being tidally modulated. The OSGW propagation along the entire cable is successfully revealed via frequency–wavenumber analysis. Further, a method based on the current-induced Doppler shifts of DAS-recorded OSGW dispersions is proposed to calculate both speeds and directions of horizontal ocean currents. The measured current is consistent with the tidally induced sea-level fluctuations and sea-surface winds observed at a nearby ocean buoy. These observations demonstrate the feasibility of monitoring the ocean current under typhoon conditions using DAS-instrumented cables.
Using microseismic noise observed by distributed acoustic sensing (DAS) with a submarine cable, this study measures the magnitude and direction of ocean currents during the passage of typhoon Muifa and estimates the ocean wave propagation. |
| doi_str_mv | 10.1038/s41467-024-45412-x |
| format | article |
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| subjects | 704/4111 704/829/2737 Acoustic noise Acoustics Cables Frequencies Gravity waves Humanities and Social Sciences Microseisms Monitoring multidisciplinary New technology Ocean currents Ocean surface Ocean waves Science Science (multidisciplinary) Sea currents Sea states Submarine cables Typhoons Wave propagation Wavelengths |
| title | Monitoring ocean currents during the passage of Typhoon Muifa using optical-fiber distributed acoustic sensing |
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