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Sequence image state expression-based spacecraft autonomous navigation robust filtering algorithm

A sequential image and autonomous navigation technology, applied in navigation computing tools, image analysis, integrated navigators, etc., can solve problems such as state estimation and truncation errors, and achieve the effect of reducing approximate errors and simple and feasible measurement methods

Pending Publication Date: 2022-06-24
BEIJING INST OF SPACECRAFT SYST ENG
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Problems solved by technology

[0004] In the past nonlinear filtering algorithms, the nonlinear system is often approximated by Taylor expansion or deterministic sampling method. Although these methods can improve the state estimation accuracy of the nonlinear system to a certain extent, there is still a certain truncation error in the state estimation.

Method used

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  • Sequence image state expression-based spacecraft autonomous navigation robust filtering algorithm
  • Sequence image state expression-based spacecraft autonomous navigation robust filtering algorithm
  • Sequence image state expression-based spacecraft autonomous navigation robust filtering algorithm

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Embodiment

[0153] The main steps are summarized as follows: (1) Taking the relative position and relative velocity of the space non-cooperative target and the serving spacecraft as state variables, according to the law of relative orbital dynamics, combined with the orbital maneuvering momentum of the serving spacecraft, construct a relative orbital dynamics model; (2) Since it is difficult to achieve state estimation with a single image, it is necessary to use orbital maneuvering to cooperate with the sequence images of the monocular camera, and use the target observation angle obtained from the sequence images as the measurement variable to build a measurement model for the sequence image of the monocular camera; (3) Combining the state variables of (1), the measurement model of (2) is transformed, and the state expression model based on the sequence image is constructed by using the sequence image measurement data, and then the measurement value and the measurement error value are separ...

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Abstract

The invention relates to a spacecraft autonomous navigation robust filtering algorithm based on sequence image state expression, and belongs to the technical field of autonomous navigation. The method comprises the following steps: 1, constructing a spatial non-cooperative target autonomous relative navigation system state equation; 2, constructing a monocular camera sequence image measurement equation; 3, constructing a state expression model based on a sequence image, separating a measurement value from a measurement error value by using a trigonometric function formula, and obtaining a measurement noise expectation matrix epsilon k according to measurement error distribution; 4, obtaining a one-step state prediction value at the moment k and a one-step prediction covariance matrix Pkk-1 at the moment k; 5, calculating to obtain an optimal gain Kk of state estimation; step 6, calculating to obtain a state estimation value xkk and a state estimation covariance matrix Pkk at the moment k; according to the method, the anti-interference performance on the inaccurate initial value of the system state can be improved, so that a state estimation result with higher precision is obtained.

Description

technical field [0001] The invention belongs to the technical field of autonomous navigation, and relates to a spacecraft autonomous navigation robust filtering algorithm based on sequence image state expression. Background technique [0002] The relative navigation method based on monocular camera sequence images is a key technical means to determine the relative position of space non-cooperative targets such as failed spacecraft, enemy satellites, and small celestial bodies. important role. [0003] Monocular camera sequence images can only provide line-of-sight angle information, which is poor in observability compared to navigation systems, and service spacecraft need to actively maneuver to provide distance information. In addition, due to the non-linearity of the relative navigation system and the influence of the space environment background, uneven illumination, and vibration of rotating parts on the spacecraft’s in-orbit operation, it is difficult to accurately est...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01C21/24G01C21/20G01C25/00G06T7/00
CPCG01C21/24G01C21/20G01C25/00G06T7/00
Inventor 王大轶侯博文李茂登董天舒
Owner BEIJING INST OF SPACECRAFT SYST ENG
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