Novel GNSS receiver inclination measurement method

Abstract

The invention provides a novel GNSS receiver inclination measurement method. The novel GNSS receiver inclination measurement method comprises the following steps: step (1): carrying out factory correction; step (2): carrying out time synchronization; step (3), initializing a state; step (4), carrying out GNSS / MEMS fusion solution; (5) carrying out inclination compensation; (6) displaying an inclination state; and (7) carrying out inclination precision evaluation. Reliable, continuous and high-precision inclination measurement without correction is realized, so that an inclination measurement method based on an electronic compass technology and a 'shake 'technology is replaced, the working efficiency of field measurement of the GNSS receiver is improved, and the labor intensity of a measurer is reduced.

Description

technical field [0001] The invention belongs to a scheme design and implementation method of a high-precision tilt measurement system for a GNSS receiver, and is suitable for various measurement fields such as surveying and mapping, engineering surveying, and monitoring by using a GNSS receiver and a centering pole to perform point measurement and stakeout. Background technique [0002] The GNSS receiver measures the coordinate position of the antenna phase center, but what is needed in practical applications is the coordinate position of the corresponding point at the bottom of the centering pole. The traditional operation method needs to keep the level bubble on the centering pole in the center, and set the antenna phase center position It is transmitted to the corresponding measurement point at the bottom of the measuring rod, which has low operating efficiency and high labor intensity, and the environment such as wall corners and slopes does not have the objective conditi...

AI Technical Summary

Problems solved by technology

[0006] Since the accelerometer cannot distinguish motion acceleration and gravitational acceleration, the electronic compass tilt measurement technology can only perform tilt measurement under quasi-static conditions. Even if the gyroscope is added to increase the dynamics of angle tracking, due to the existence of IMU system errors and random errors, Still unable to achieve real-time tilt measurement;

[0007] The magnetometer needs to be calibrated before each use. The correction effect directly affects the accuracy of the heading angle measurement, and the magnetometer is easily affected by the change of the electromagnetic environment inside and outside the receiver during use, and the change is difficult to monitor. Therefore, the magnetometer measures The reliability of the value is poor;

[0008] Due to the shortcomings of the tilt measurement scheme based on the electronic compass, such as absolute accuracy cannot be guaranteed, cumbersome calibration, and poor reliability, surveyors are unwilling or afraid to use it in practical applications.

[0009] The current method based on the second type of scheme is mainly the "shaking" tilt measurement method. This method measures multiple points in the space by shaking the centering rod, and uses the length of the centering rod as a constraint to carry out spatial intersection to calculate the position of the measurement point. However, due to the influence of the geometric structure of the distribution of spatial points, especially in environments such as wall corners, the distribution of spatial points is limited and the geometric structure is poor, so the accuracy of the measurement points is not stable, and can only achieve decimeter-level accuracy, and it is necessary to measure multiple Space point to complete tilt measurement

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