Suier Wang scite author profile

Suier Wang

5Publications

12Citation Statements Received

34Citation Statements Given

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Beihang University

Publications

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An Improve Hybrid Calibration Scheme for Strapdown Inertial Navigation System

2019

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This paper develops an improved hybrid calibration scheme for the strapdown inertial navigation system (SINS) that combines the advantages of an optimal rotational norm calibration method and an improved system-level calibration method. To accurately determine the scale factors and misalignment error of gyros triad, the optimal rotation norm calibration method is applied. Similarly, the improved system-level calibration method based on the 24-dimensional error state Kalman filter (ESKF) plays an important role in accelerometer calibration and gyro biases calibration. The clockwise and counterclockwise multi-cycles rotation scheme is designed to eliminate the effects of the Earth's rate and gyros biases, and then provide accurate rotational norm to completely determine the gyros triad scale factors and misalignment. In addition, the improved ESKF system-level calibration method is employed to estimate accelerometer parameters and gyros biases. Simulation test verify the validity of the proposed method, and the calibration experiences and the verification tests of the two high-precision optical gyros inertial measurement units (IMU) are carried out. For comparison, the traditional 30-dimensional system-level calibration is also performed. The attitude error of high maneuvering swing test indicate that the gyros calibration accuracy of hybrid calibration scheme is better than that of traditional system-level calibration scheme. Furthermore, the positioning error of pure inertial navigation solution in static and dynamic condition for two calibration methods indicate that the hybrid calibration scheme significantly improves the positioning accuracy, especially in the dynamic experiment, that is, the proposed scheme provides a more accurate calibration of the IMU.

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Latitude Determination and Error Analysis for Stationary SINS in Unknow-Position Condition

Wang

Yang

Chen

et al. 2020

Sensors

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The initial geographic latitude information is the key to the self-alignment of the strapdown inertial navigation system (SINS), but how to determine the latitude when the latitude cannot be obtained directly or in a short time? The latitude determination (LD) methods are introduced, including magnitude method, geometric method, and analytical methods 1 and 2, to solve this situation only by the output of the SINS itself. Simulation and experimental test results validate the efficiency of these LD methods. In order to improve the accuracy of the LD, the error of the LD method is derived through comparative analysis. Based on the relationship between LD error and inertial measurement unit (IMU) bias. Partial bias estimation method is introduced and executed during latitude determination. After compensating the estimated IMU bias, the accuracy of the LD will be further improved. Latitude errors are also affected by the latitude where SINS is located. Comprehensive simulation and experimental tests verify the effectiveness of the method. The IMU determined latitude can not only be used to achieve the self-alignment of the SINS, but also to correct the navigation latitude of the long-term SINS, thereby improving the autonomy and positioning accuracy of the navigation system.

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An On-line Calibration Method of SINS/Odometer Integrated Navigation System

Sun

Yang

Cai

et al. 2017

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Design of External Damping Network and Discretization Algorithm for Long-endurance Inertial Navigation System

Yang

Cai

et al. 2020

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The transfer alignment based on UKF for low-cost INS missile-borne weapons

Wang

Liu

Yang

et al. 2019

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Suier Wang

An Improve Hybrid Calibration Scheme for Strapdown Inertial Navigation System

Latitude Determination and Error Analysis for Stationary SINS in Unknow-Position Condition

An On-line Calibration Method of SINS/Odometer Integrated Navigation System

Design of External Damping Network and Discretization Algorithm for Long-endurance Inertial Navigation System

The transfer alignment based on UKF for low-cost INS missile-borne weapons

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