研究目的
Investigating the calibration method for error of photoelectric encoder based on gyro in rotational inertial navigation system to improve the accuracy of angle measurement and attitude output.
研究成果
The calibration method effectively reduces the angle measurement error from ± 4000 to ± 200 and significantly improves the attitude output accuracy of the tri-axis RINS. The harmonic model is efficient and repeatable, proving the method's experimental effectiveness.
研究不足
The method is designed under static pedestal conditions and may not account for dynamic or real-time data requirements. The calibration model is specific to the encoder under test and may require adjustments for different encoders or conditions.
1:Experimental Design and Method Selection:
The method uses the gyro output as a benchmark to calculate the encoder error by comparing it with the encoder output. The error is then analyzed using Fourier method and fitted with a harmonic model using least squares method.
2:Sample Selection and Data Sources:
The experiments are conducted with a tri-axis RINS placed on a horizontal test bench under static pedestal conditions.
3:List of Experimental Equipment and Materials:
The system includes a photoelectric encoder (Netzer’s lightweight rotary electric encoder) and a fiber optic gyro (FOG) with specific resolutions and drift rates.
4:Experimental Procedures and Operational Workflow:
The motor rotates a positive and negative circle, and the encoder and gyro outputs are gathered. The error is calculated, analyzed, and fitted to a harmonic model.
5:Data Analysis Methods:
The error is analyzed using Fast Fourier Transformation (FFT) for spectrum analysis and least squares method for fitting the harmonic model.
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