An Acoustic Sea Glider for Deep-Sea Noise Profiling Using an Acoustic Vector Sensor

Sun, Qindong; Zhou, Haiyun

doi:10.2478/pomr-2022-0006

Polish Maritime Research

2022

DOI: 10.2478/pomr-2022-0006

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An Acoustic Sea Glider for Deep-Sea Noise Profiling Using an Acoustic Vector Sensor

Qindong Sun

Haiyun Zhou

Abstract: An acoustic sea glider has been developed for ambient sea noise measurement and target detection through the deployment of an acoustic vector sensor (AVS). The glider was designed with three cabins connected in sequence and it can dive to depths exceeding 1200m. The AVS fixed on the glider measure acoustic pressure and particle velocities related to undersea noise, and the inner attitude sensors can effectively eliminate the estimation deviation of the direction of arrival. The inherent self-noises of the acou… Show more

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Cited by 3 publications

References 15 publications

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Experimental application of heterogeneous gliders communication system in South China Sea

Tian,

Zhang,

Zou

et al. 2023

Ocean Engineering

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Experimental application of heterogeneous gliders communication system in South China Sea

Tian,

Zhang,

Zou

et al. 2023

Ocean Engineering

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A Heterogeneous Glider System with Underwater Acoustic Communication and Positioning

Zhang,

Jia,

Zou

et al. 2024

Polish Maritime Research

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Autonomous underwater vehicles are increasingly frequently used in the fields of ocean observation, data collection, and tactical surveillance. Underwater navigation and near real-time communication are the most important factors limiting the performance of these vehicles. In this article, an underwater acoustic communication and positioning system (UACPS) based on heterogeneous gliders is presented. The system consists of an acoustic wave glider and an acoustic underwater glider, and includes an ultrashort baseline and an acoustic modem. The program and communication protocol of the communication and positioning algorithm are independently developed, and the hardware circuit design of the communication and ultra-short baseline positioning, as well as the embedded surface wave gliders and gliders are independently implemented. Sea trial results indicate that the communication distance of the system is more than 3 km and the positioning error is less than 5%. With the further improvement of system performance, the low cost, long time, long distance and near real-time communication characteristics of our UACPS can be used to integrate multiple autonomous unmanned platforms as part of intelligent surveillance robot networks.

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Experimental Study and Numerical Simulation of Radiated Noise from Unmanned Underwater Vehicle

Zhang,

Xu,

Yang

et al. 2024

Polish Maritime Research

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This paper focuses on the research of the radiation noise of underwater unmanned vehicle (UUV), which is one of the most important indicators for evaluating the performance of underwater unmanned equipment. Integrating experimental study and numerical calculations, this paper investigates the underwater radiated noise characteristics and hydrodynamic properties of the propeller of UUV. Firstly, an open-water radiated noise experiment is conducted. To ensure the accuracy of acoustic test, the UUV are held stationary during the experiment. Then, the hydrodynamic performance of a propeller in a steady flow field is calculated using Computational Fluid Dynamics (CFD). Finally, the noise in the unsteady flow field is calculated using the Ffowcs Williams-Hawkings (FW-H) equation. The results show that the propeller, as the main noise source when the UUV is working, exhibits distinct characteristic line spectra in the frequency response curve. By comparing the numerical and experimental results, it was found that the overall trend of the sound pressure level is similar. But the line spectrum characteristics of the numerical results between 100 and 400 Hz are more obvious, mainly because the simulation model is more idealized compared to the experimental tests. The study further examines the hydrodynamic characteristics, propeller noise, and directional characteristics of UUV under different operating conditions.

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An Acoustic Sea Glider for Deep-Sea Noise Profiling Using an Acoustic Vector Sensor

Cited by 3 publications

References 15 publications

Experimental application of heterogeneous gliders communication system in South China Sea

Experimental application of heterogeneous gliders communication system in South China Sea

A Heterogeneous Glider System with Underwater Acoustic Communication and Positioning

Experimental Study and Numerical Simulation of Radiated Noise from Unmanned Underwater Vehicle

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