Abstract
Results of full-scale and model studies of the propagation of high-frequency pulse acoustic signals generated by a snapping shrimp on the shelf of the Sea of Japan in Vityaz Bay are presented. Spatial acoustic measurements were carried out using four hydrophones installed in the sea with a depth of 3 m using metal structures: a pyramid and a frame with a length of 3 m. A numerical simulation was performed using the beam method of imaginary sources and the mode parabolic equation. The simulation results are consistent with full-scale measurements.
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ACKNOWLEDGMENTS
We are grateful to S.I. Borisov and I.V. Medvedev, staff members of the Il’ichev Pacific Oceanological Institute (Far East Branch, Russian Academy of Sciences), and V.S. Travkin, a student, for their active participation in the field experiments and the reviewer for useful comments.
Funding
This study was carried out within the framework of a state assignment of the Il’ichev Pacific Oceanological Institute “Study of the Basic Foundations of the Emergence, Development, Transformation, and Interaction of Hydroacoustic, Hydrophysical, and Geophysical Fields of the World Ocean,” 0211-2021-0001.
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Rutenko, A.N., Ushchipovskii, V.G., Manulchev, D.S. et al. Full-Scale and Model Studies of Acoustic Signals Generated by a Snapping Shrimp in the Vityaz Bay of the Japanese Sea. Acoust. Phys. 67, 675–685 (2021). https://doi.org/10.1134/S1063771021060075
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DOI: https://doi.org/10.1134/S1063771021060075