A synchronous self-contained hydrophone underwater acoustic signal acquisition system and working method

A technology of underwater acoustic signal and acquisition system, applied in instruments, scientific instruments, acoustic presence detection and other directions, can solve the problems of difficult deployment, too large attitude deviation, heavy plastic-coated steel cables, etc., to overcome the complex structure and avoid damage , the effect of easy procurement

Active Publication Date: 2020-04-10
THE FIRST INST OF OCEANOGRAPHY SOA
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Due to the silence of the buoy itself and the need for maritime safety, more hydrophones need to be deployed in the form of submersible buoys. At this time, there is no way to use the Beidou signal
In addition, the plastic-coated steel cable itself is heavy. If the length of the array is too long, it will cause great difficulties in actual deployment.
In addition, there is an optical synchronization method, which has a high synchronization accuracy. However, if the system is deployed in a place with turbid water near the sea, or the attitude deviation of a single acquisition node is too large to effectively receive optical signals, the synchronization accuracy of the system will be reduced.

Method used

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  • A synchronous self-contained hydrophone underwater acoustic signal acquisition system and working method
  • A synchronous self-contained hydrophone underwater acoustic signal acquisition system and working method
  • A synchronous self-contained hydrophone underwater acoustic signal acquisition system and working method

Examples

Experimental program
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Effect test

Embodiment 1

[0032] A synchronous self-contained hydrophone underwater acoustic signal acquisition system, the system includes an electromagnetic induction coupling module, a self-contained hydrophone 8 , an electromagnetic induction synchronous cable 7 and a seawater contact terminal 6 .

[0033] The electromagnetic induction coupling module includes a wet end and a dry end. The wet end is located outside the watertight cabin 11 of the self-contained hydrophone, and includes a magnetic ring 21 that can be opened and closed, and an induction coil 14 is wound on the magnetic ring; the dry end is located outside the self-contained hydrophone. Inside the earphone, it includes a modulation and demodulation module 15, a clock module 16 and a reference frequency generation module 17; the induction coil is connected to the modulation and demodulation module, the modulation and demodulation module is connected to the clock module and the reference frequency generation module, and the clock module is...

Embodiment 2

[0044] like figure 2 As shown, this embodiment is a 4-element volume array deployment method, which is commonly used in the vocalization observation of marine mammals. The self-contained hydrophone 8 is placed on the volume array support 9 .

[0045] In addition to the two deployment methods of Embodiment 1 and Embodiment 2, it can also be deployed in the form of a circular array or a planar array according to actual needs. It is only necessary to ensure that the electromagnetic induction synchronous cables 7 pass through the wet ends 12 in sequence. The magnetic ring, wherein the wet end 12 of the electromagnetic induction coupling module is located outside the watertight compartment 11 of the self-contained hydrophone. Both ends of the electromagnetic induction synchronous cable 7 are connected to the seawater contact terminal 6 to form a loop.

[0046] image 3 It is a schematic diagram of the working state of a single synchronous self-contained hydrophone, and the self...

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Abstract

The invention relates to a synchronous self-contained hydrophone underwater acoustic signal acquisition system and a working method. The system comprises an electromagnetic induction coupling module,a self-contained hydrophone, an electromagnetic induction synchronous cable and a seawater contact terminal, the electromagnetic induction coupling module comprises a wet end and a dry end, the wet end is located outside a watertight cabin of the self-contained hydrophone and comprises a magnetic ring capable of being opened and closed, and an induction coil is wound around the magnetic ring. Thedry end is located in the self-contained hydrophone and comprises a modulation and demodulation module, a clock module and a reference frequency generation module. The dry end and the wet end are connected through a watertight cable; the electromagnetic induction synchronous cable sequentially penetrates through the magnetic rings in the wet ends, and the two ends of the electromagnetic inductionsynchronous cable are connected with the seawater contact terminals to form a loop. The system utilizes the electromagnetic induction coupling synchronization module, the electromagnetic induction synchronization cable and the seawater contact terminal to realize synchronous acquisition between the self-contained hydrophones.

Description

technical field [0001] The invention belongs to the field of marine detection equipment, and relates to a synchronous self-contained hydrophone underwater acoustic signal acquisition system and a working method. Background technique [0002] When the underwater acoustic signals are received by hydrophones in different spatial positions and collected synchronously, the spatial gain can be obtained by using the array signal processing method, which will be beneficial to the detection, direction finding and positioning of underwater targets and other applications. In addition, the spatial correlation analysis and vertical directivity analysis of ocean noise also rely on the simultaneous acquisition of underwater acoustic signals at different spatial locations. [0003] In order to achieve synchronous underwater acoustic signal acquisition, the following two types of solutions are usually used at present: [0004] (1) Centralized collection system. There is a central acquisiti...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01V1/00G01H3/00
CPCG01H3/00G01V1/001
Inventor 刘宗伟吕连港
Owner THE FIRST INST OF OCEANOGRAPHY SOA
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