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Optimizing method for measuring point spacing of array element position calibration in underwater acoustic positioning navigation system

A technology of array element position and navigation system, which is applied to radio wave measurement systems, instruments, etc., to achieve the effect of improving calibration accuracy and eliminating model mismatch errors

Active Publication Date: 2022-06-14
HARBIN ENG UNIV
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  • Summary
  • Abstract
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  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In the traditional absolute calibration process, the general survey ship sails in a circular track centered around the point where the array element to be measured is placed, during which it conducts uninterrupted inquiry and response with the array element at a fixed period, and records the position information of the survey ship and the query-response time. Extend the information, and then select the relevant information on the three measurement points that are equilateral triangles to use the spherical intersection model to solve. When the depth of the array element to be measured is known, the spherical intersection model degenerates into a circular intersection model. The model of this method is simple. The amount of calculation is small, but the model mismatch problem caused by the different receiving and transmitting positions caused by the movement of the measuring ship is ignored. The faster the moving speed of the measuring ship, the greater the model mismatch error and the lower the accuracy of array element position calibration
Moreover, the optimal selection of the measurement point spacing is not considered in the measurement process, which in turn affects the calibration accuracy and calibration efficiency of the array element position

Method used

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  • Optimizing method for measuring point spacing of array element position calibration in underwater acoustic positioning navigation system
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  • Optimizing method for measuring point spacing of array element position calibration in underwater acoustic positioning navigation system

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specific Embodiment 1

Specific embodiment one:

[0044] The present invention provides a method for optimizing the distance between array element position calibration and measurement points of an underwater acoustic positioning navigation system. The method includes the following steps:

[0045] Step 1: According to the measurement position coordinates of the survey ship, establish an optimization model for accurate calibration of the array element position;

[0046] Step 2: Establish the relationship between the time delay measurement error and the sending and receiving distance function;

[0047] Step 3: Construct the error transfer function of the array element position calibration delay measurement, use the differential evolution algorithm to solve the element position calibration delay measurement error transfer function, and obtain the position result and error of the array element to be measured;

[0048] Step 4: Use statistical methods to obtain the calibration accuracy of the array element...

specific Embodiment 2

[0071] To sum up, the process flow of the accurate calibration of the array element position and the optimization of the measurement point spacing of the underwater acoustic positioning navigation system designed by the present invention is as follows: figure 1 shown.

[0073] Firstly, the relationship between the delay measurement error of 10.5kHz and 11.5kHz signals and the distance between sending and receiving is given, as shown in figure 2 and image 3 shown. It can be seen from the figure that the delay measurement error increases with the increase of the transmitting and receiving distance, and the signal delay measurement error increases rapidly with the increase of the transmitting and receiving distance in the first 2000m, and then the growth trend tends to be flat.

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Abstract

The invention relates to a method for optimizing the distance between array element position calibration and measurement points of an underwater acoustic positioning navigation system. The present invention establishes the precise calibration optimization model of the array element position, the relational expression between the time delay measurement error and the transmitting and receiving distance, and the transfer function of the array element position calibration time delay estimation error; uses the differential evolution algorithm to solve the problem, and obtains the position estimation result of the array element to be measured and error. Statistical methods are used to obtain the calibration accuracy of the array element position; the best measurement point spacing is obtained by filtering all the results. The invention eliminates the model mismatch error caused by the movement of the measuring ship; establishes the relational expression between the time delay measurement error and the transmitting and receiving distance, and considers the change of the measuring time delay error with the change of the transmitting and receiving distance, compared with the traditional method of using a fixed time delay measurement error approach, the error analysis is more in line with reality. Through the optimization of the measurement point spacing of the array element position calibration of the underwater acoustic positioning navigation system, the best measurement point spacing is obtained, which is conducive to further improving the calibration accuracy of the array element position.

Description

technical field [0001] The invention relates to the technical field of underwater acoustic positioning, and relates to an optimization method for calibrating and measuring point spacing of an array element position of an underwater acoustic positioning navigation system. Background technique [0002] Since sound waves are the most effective carrier for underwater information transmission, and underwater acoustic positioning and navigation technology has the advantages of taking into account deep and shallow seas, all-weather, real-time, high reliability, and error does not accumulate over time, so underwater acoustic positioning and navigation technology has the advantages of underwater positioning technology. occupies an important position. [0003] The underwater array element is the star station node of the underwater acoustic positioning and navigation system, and its calibration accuracy is directly related to the working performance of the underwater acoustic positioni...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01S7/52
CPCG01S7/52004
Inventor 付进张光普齐滨梁国龙王燕邹男翟笃文熊逸文孙思博王晋晋杨卓
Owner HARBIN ENG UNIV
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