Rapid course initialization method based on acceleration matching, electronic equipment and storage medium
An initialization method and acceleration technology, which is applied in the direction of navigation, navigation, surveying and navigation through speed/acceleration measurement, can solve the problems of unstable accuracy, short acceleration range, and difficult to meet, so as to ensure the accuracy of results and weaken the influence of errors , to achieve a simple effect
Pending Publication Date: 2021-10-08
GUANGZHOU HI TARGET SURVEYING INSTRUMENT CO LTD
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[0005] The above method has the following problems: (1) The principle of course alignment based on geomagnetic measurement is relatively simple, and the implementation is not complicated, but the operation is more troublesome, and geomagnetic parameter calibration (such as ellipsoid calibration) needs to be performed before the operation. Generally, the earth’s magnetic field The intensity is small, and the geomagnetic measuring equipment is easily disturbed by the environmental magnetic field
In the actual operation process, the environmental magnetic field is complex and changeable, and the magnetic field calibration parameters in different operating areas will be different. The accuracy of heading alignment based on geomagnetic measurement is unstable.
[0006] (2) Heading alignment is achieved based on horizontal position matching. This method requires the travel direction of the carrier to be consistent with the longitudinal axis of the carrier, which limits the RTK operation mode and the user experience is not good
[0007] (3) Heading alignment is realized based on horizontal velocity matching. This method requires the direction of travel of the carrier to be consistent with the direction of the longitudinal axis of the carrier. However, in actual RTK operations, the angle between the direction of travel of the carrier and the longitudinal axis of the carrier may change at any time. Using GNSS The velocity vector calculated by the speed measurement technology obtains the heading angle, which is not the real carrier heading angle
But the GNSS speed output itself contains delay, and the calculation of acceleration using GNSS speed contains noise
In the RTK application scenario, due to the complex movement mode of the handheld device, and the acceleration range is short, and the acceleration is small, the calculation accuracy of this method is low
[0009] Therefore, in order to achieve fast and high-precision GNSS / MEMS-INS combined heading alignment in RTK applications, the above methods are difficult to meet
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[0095] Below, the present invention will be further described in conjunction with the accompanying drawings and specific implementation methods. It should be noted that, under the premise of not conflicting, the various embodiments described below or the technical features can be combined arbitrarily to form new embodiments. .
[0096] An acceleration-based fast heading initialization method, calculated from GNSS position data and IMU accelerometer and gyroscope data, such as figure 1 shown, including the following steps:
[0097] Calculate GNSS horizontal velocity, such as figure 2 As shown, the carrier moves in the Δt time period, and the displacement in the E and N directions is calculated by the GNSS displacement and the time taken by the carrier movement The calculation formula is:
[0098]
[0099]
[0100] in, is the position component of ΔL at point A in the E direction, is the position component of ΔL at point B in the E direction, is the position com...
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The invention provides a rapid course initialization method based on acceleration matching. The method comprises the following steps of: calculating a GNSS horizontal speed, calculating a GNSS horizontal acceleration, calculating an IMU pitch angle, a roll angle and a course angle by a navigation attitude algorithm, calculating an MEMS-IMU horizontal acceleration, selecting an acceleration matching interval, calculating GNSS acceleration time delay by correlation matching of horizontal and acceleration module values, calculating the course angle in the matching interval, refining the course value by correlating the course angle variable quantity in the matching interval, and calculating the course value at any moment by calculating the course variable quantity based on the refined course value and a heading attitude algorithm. The invention relates to electronic equipment and a storage medium, which are used for executing a course fast initialization method based on acceleration matching. According to the invention, the installation of IMU and a motion mode of a carrier do not need to be limited, the usability is high, the method is not interfered by environment magnetic interference, and complex calibration is not needed.
Description
technical field [0001] The present invention relates to the technical field of GNSS / MEMS-INS combined positioning, and in particular to a fast heading initialization method based on acceleration matching, electronic equipment, and a storage medium. Background technique [0002] The GNSS / MEMS-INS combined positioning technology can determine the attitude and position of the RTK receiver. The high-precision position information is obtained by the RTK positioning technology, and the attitude information needs to be solved by the combined GNSS / MEMS-INS. Once the high-precision attitude information is determined, high-precision RTK tilt measurement operations can be performed. The GNSS / MEMS-INS combined solution needs to complete the initial alignment work, that is, to complete the determination of the three Euler angles of the carrier attitude, including the heading angle ψ, pitch angle θ and roll angle γ. [0003] The initial alignment work includes two parts: horizontal attit...
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IPC IPC(8): G01C21/16G01C21/20G01S19/47
CPCG01C21/165G01C21/20G01S19/47
Inventor 厉宽宽陈源军刘猛奎
Owner GUANGZHOU HI TARGET SURVEYING INSTRUMENT CO LTD
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