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Attitude standard deviation estimation and correction method of star sensor and payload

A payload and star sensor technology, applied to instruments, measuring devices, etc., can solve problems such as complex scan imaging payloads of pendulum mirrors, scanning angle measurement errors, pendulum mirror deformation with temperature, and attitude measurement reference slow-change deviations, etc.

Active Publication Date: 2013-09-25
BEIJING INST OF CONTROL ENG
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Problems solved by technology

From the perspective of attitude reference calibration, the scanning imaging payload of the swinging mirror is more complex, and there are errors in scanning angle measurement and deformation of the swinging mirror with temperature
At present, the star sensor is the standard configuration of the high-precision observation satellite attitude measurement system, and it is the key component to determine the orientation and position of the image. However, the star sensor has a slow-varying error due to the influence of temperature and the spatial change of the field of view.
In addition, there are thermal variations in the mounting structure between the star sensor and the payload
Three factors lead to slow-varying deviations in the attitude references of the star sensor and the payload, making it difficult for high-precision image registration and positioning
Patent CN201110291301 "A Star Sensor Low-Frequency Error Compensation Method Based on Landmark Information", uses the payload to calibrate the low-frequency error of the star sensor based on the observation information of known landmarks. This method represents the mainstream direction of star sensor calibration , since it does not involve the deformation of the payload itself and the influence of the benchmark after the movement of the pendulum mirror, if it is applied to a satellite with a pendulum mirror scanning imaging payload, the impact of the change of the payload benchmark cannot be evaluated, and the calibration accuracy cannot be guaranteed

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  • Attitude standard deviation estimation and correction method of star sensor and payload

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Embodiment Construction

[0059] The estimation and correction method of the present invention will be introduced below by taking a remote sensing satellite as an example. The remote sensing satellite is composed of a star sensor and a two-dimensional scanning payload using two oscillating mirrors. like figure 1 , 2 As shown, it specifically includes the following steps:

[0060] 1. Establish the attitude reference coordinate system of the whole star with the focal plane of payload imaging as a reference; determine the positioning formula of the payload incident light vector according to the payload characteristics and establish the payload error model including the payload reference deviation; according to the star sensor Features Model star sensor errors including star sensor reference bias.

[0061] 1. Payload

[0062] Taking the focal plane of the payload imaging camera as a reference, establish the attitude reference coordinate system Π fixed to the whole star, denoted as X P Y P Z P ,like ...

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Abstract

The invention discloses an attitude standard deviation estimation and correction method of a star sensor and a payload. The attitude standard deviation estimation and correction method comprises the following steps of 1, according to payload characteristics, determining a location formula of an incident light vector of a payload and building a payload error model with payload standard deviation, 2, according to star sensor characteristics, building a star sensor error model with star sensor standard deviation, 3, through the payload, determining measured deviation by observation data of a known target and corresponding star sensor measured data, and building a payload and star sensor standard deviation measurement equation according to the measured deviation, the payload standard deviation and the star sensor standard deviation, 4, carrying out estimation of the star sensor or payload standard deviation according to the payload and star sensor standard deviation measurement equation, and 5, correcting the star sensor or payload measured data by the estimated standard deviation. The attitude standard deviation estimation and correction method can reduce star sensor and imaging payload attitude standard deviation and improve imaging quality and an image positioning precision.

Description

technical field [0001] The invention relates to a calibration method of an attitude measurement reference of a high-precision remote sensing satellite. Background technique [0002] In order to observe the ground or other targets and obtain remote sensing images, remote sensing satellites are equipped with payloads such as cameras, and the precise registration and positioning of the obtained images is the key to ensuring the quality of image products, and its performance directly reflects the quality of a country's aerospace Capabilities and levels of remote sensing applications. [0003] Due to different observation purposes, imaging mechanisms or technical approaches, there are remote sensing payloads in which all components are fixed relative to the satellite, and remote sensing payloads that use moving parts such as pendulum mirrors for scanning and imaging. From the perspective of attitude reference calibration, the scanning imaging payload of the swinging mirror is mo...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01C25/00
Inventor 刘一武汤亮陈守磊朱莲枝丁嘉茹严欣颖刘端胡少春郭廷荣
Owner BEIJING INST OF CONTROL ENG
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