Small celestial body detector flying-around orbit tracking control method

A technology of orbit tracking and control method, which is applied in the field of deep space exploration to achieve the effect of improving robustness

Active Publication Date: 2021-01-12
BEIJING INSTITUTE OF TECHNOLOGYGY +1
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  • Abstract
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  • Application Information

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Problems solved by technology

[0005] The present invention provides a tracking control method for small astronomical probes flying around orbits, which solves the impact of disturbance observation errors on trajectory tracking in the prior art, and at the

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  • Small celestial body detector flying-around orbit tracking control method
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Embodiment Construction

[0091] In order to better illustrate the purpose and advantages of the present invention, the content of the invention will be further described in detail below in conjunction with the embodiments and corresponding drawings.

[0092] The present invention considers disturbance factors such as unmodeled dynamics and unknown external perturbation forces, adopts a long-thrust engine as a thruster, and proposes a small celestial body by combining the motion model of the small celestial body detector system and the nonlinear dynamic characteristics of complex actuators. A tracking control method for a detector flying around an orbit. In the following, a small celestial body 243Ida is used as the object of the detector to fly around, and a method for tracking and controlling the orbit of the small celestial body detector is described in detail.

[0093] see figure 1 As shown, a method for tracking and controlling the orbit of a small astrophysical probe disclosed in this embodiment...

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Abstract

The invention discloses a small celestial body detector flying-around orbit tracking control method, which comprises the steps of designing a nonlinear disturbance observer according to a small celestial body detector flying-around kinetic model under unknown disturbance to estimate external disturbance borne by a detector, and compensating dynamic characteristics of the external disturbance to acontroller; designing an adaptive law to estimate an observation error boundary output by the disturbance observer; introducing a dynamic surface technology to solve the problem of differential explosion caused by derivation of virtual control quantity in adaptive law design; designing a controller combined with a hyperbolic tangent function replacing a sign function; taking the output of the dynamic surface self-adaptive sliding mode controller as the input of a pseudo-rate modulator, enabling the pseudo-rate modulator to output a tuned oscillation pulse for driving a thruster to work, and driving the thruster to generate a control moment on a rolling shaft, a heading shaft and a pitching shaft to counteract an interference moment; the control method disclosed by the invention enables thesmall celestial body detector to achieve high-precision tracking control around the flight section orbit under unknown disturbance.

Description

technical field [0001] The invention provides a tracking control method for a small celestial body detector flying around an orbit, and belongs to the technical field of deep space exploration. Background technique [0002] As "fossils of the solar system", the exploration and research of small celestial bodies is of great significance for human beings to explore the universe. For the detection of small celestial bodies, compared with the detection of the moon and Mars, the probes need to fly farther and for a longer time, and the communication delay with the ground is greater; According to the rules, the probe will be affected by various disturbances such as the gravity of the sun when it orbits a small celestial body. Due to the uncertainty of the small celestial body itself and the surrounding environment, a series of movements such as landing and flying around need to face the complexity of external environmental disturbances, which makes its control method also need to...

Claims

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Application Information

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IPC IPC(8): G06F30/20B64G1/24G06F119/14
CPCG06F30/20B64G1/242G06F2119/14
Inventor 姚文龙杨珂邵巍池荣虎
Owner BEIJING INSTITUTE OF TECHNOLOGYGY
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