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Multi-beam synthetic aperture sonar three-dimensional imaging algorithm

A synthetic aperture, three-dimensional imaging technology, applied in the direction of sound wave re-radiation, radio wave measurement system, utilization of re-radiation, etc., can solve the problems of resolution limitation, high cost, complex system, etc. Flexible effects of sonar carrier

Active Publication Date: 2021-03-16
HARBIN ENG UNIV
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Problems solved by technology

The disadvantage is that the system is complex, the cost is extremely high, and there is still the problem of detecting gaps directly below. Usually, it is necessary to carry multi-beam sonar to fill the gaps
The disadvantage is that its track and horizontal imaging resolution will be limited by the beam footprint, which will decrease as the detection distance increases

Method used

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  • Multi-beam synthetic aperture sonar three-dimensional imaging algorithm
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  • Multi-beam synthetic aperture sonar three-dimensional imaging algorithm

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Embodiment Construction

[0041] The present invention will be described in further detail below with reference to the accompanying drawings and specific embodiments.

[0042] The present invention relates to a multi-beam synthetic aperture sonar three-dimensional imaging algorithm, comprising the following steps:

[0043] Step (1): perform orthogonal transformation on the received array signal, convert the real signal into an analytical signal, and perform band-pass filtering on the received signal according to the parameters of the transmitted signal.

[0044] Step (2): use the transmitted reference signal to perform matched filtering processing on the analytical signal, realize the pulse compression process of the chirp signal, and correct the signal time delay caused by the convolution processing.

[0045]Step (3): Perform track-direction aperture synthesis processing on the pulse-compressed signal, and virtually synthesize the receiving sub-arrays at the same horizontal position into a large-apert...

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Abstract

The invention provides a multi-beam synthetic aperture sonar three-dimensional imaging algorithm, which virtually synthesizes a large-aperture array in the track direction through the movement of a carrier according to a multi-beam synthetic aperture sonar transducer array structure, and distinguishes the echo arrival direction in the horizontal direction by using a multi-receiving array element structure. Through the motion of the carrier, the detection area is irradiated to different track direction positions, coherent compensation accumulation is carried out on received echo signals, and three-dimensional sonar image output under a track-slant distance-angle coordinate system can be obtained. And converting the sonar image into a three-dimensional sonar image which is easier to observeunder a horizontal track-to-depth coordinate system by utilizing coordinate transformation. According to the method, the mechanism limitation of multi-beam sounding sonar and conventional synthetic aperture sonar is broken through, constant imaging resolution is obtained in the track direction, high imaging resolution is obtained in the horizontal direction and the depth direction, and refined sonar imaging in the three-dimensional space is achieved.

Description

technical field [0001] The invention relates to a multi-beam synthetic aperture sonar three-dimensional imaging algorithm, which belongs to the field of sonar signal processing. Background technique [0002] For the development and utilization of marine resources, the first premise is to carry out refined detection of the topography of the underwater area and special targets of interest, with the technical requirements of large detection area, high refinement requirements, and strong anti-interference ability. Compared with the conventional optical imaging system, the imaging sonar system can perform long-distance detection under the conditions of low underwater visibility and turbid water quality, and has a wider range of applications. After decades of development and research, imaging sonar technology has experienced development from two-dimensional images to three-dimensional images, from single-point detection to multi-point detection, from single-carrier to multi-carrie...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01S15/89G01S7/539
CPCG01S15/89G01S7/539
Inventor 魏波李海森周天徐超朱建军陈宝伟邢天耀
Owner HARBIN ENG UNIV
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