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An Adaptive Trajectory Planning Method for Atmospheric Entry Guidance

An adaptive and atmospheric technology, applied in the direction of adaptive control, integrated navigator, general control system, etc., can solve problems such as unsatisfied parachute opening constraints, landing mission failure, little attention to the spread of parachute opening heights, etc.

Active Publication Date: 2019-10-22
BEIJING INST OF CONTROL ENG
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  • Description
  • Claims
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Problems solved by technology

[0004] At present, the published literature at home and abroad mainly focus on the guidance accuracy and the amount of misses as the primary control objectives, and rarely pay attention to the spread of parachute opening height.
And when the flight capability of the probe is very limited, if the landing accuracy is blindly pursued, it is likely that all the control capabilities will be used to control the accuracy of the landing point, and the ability to adjust the height will be lost.
The final parachute opening altitude will not meet the parachute opening constraints, and the parachute cannot be deployed smoothly, resulting in the failure of the landing mission

Method used

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  • An Adaptive Trajectory Planning Method for Atmospheric Entry Guidance
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  • An Adaptive Trajectory Planning Method for Atmospheric Entry Guidance

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Embodiment Construction

[0063] The present invention will be described in detail below in conjunction with the accompanying drawings and examples.

[0064] An adaptive trajectory planning method for atmospheric entry guidance, such as figure 1 As shown, the steps are as follows:

[0065] (1) Analyze the flight capability of the probe;

[0066] Here, the flight capability analysis mainly refers to the change law of the flight longitudinal and transverse paths with the roll angle for a detector with a fixed configuration, where the longitudinal and transverse paths are defined as follows figure 2 shown. It can be obtained from the latitude and longitude of the initial entry point and the actual landing point. The initial entry point is known, and the roll angle is assumed to be a constant value. The actual landing point can be obtained by integrating the dynamic equation.

[0067] Let the point of intersection between the center of mass of the landing patrol and the center of the sphere and the su...

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Abstract

The invention discloses a self-adaptive planning method for an atmosphere entrance guidance trajectory. The method comprises the following steps: (1) acquiring a change rule of a flight longitudinal range and a cross range along with a heeling angle; (2) sectioning a whole entrance process, and determining a guidance law of each stage; (3) setting different entrance point initial longitudinal ranges, judging whether parachute-opening states in different entrance points satisfy given constraints, if so, positively increasing the initial longitudinal range or negatively decreasing the initial cross range, until a certain constraint is not satisfied, and determining a limit range of the initial longitudinal range which can be adjusted by the above guidance law; (4) in a actual flight process,judging whether the initial entrance point longitudinal range is within the above limit range, if so, using the guidance law in the step (2) to control; if not, executing the step (5); and (5) calculating a deviation value of the actual initial longitudinal range exceeding the limit range, correcting a longitudinal range reference value of a reference ground track, and substituting a corrected value into the guidance law in the step (2), to obtain a new guidance law, and using the new guidance law to control.

Description

technical field [0001] The invention belongs to the field of guidance for the entry process of a small lift body into a thin atmosphere in a deep space exploration planetary surface landing project, and relates to an analytical prediction correction method based on a nominal trajectory. Background technique [0002] my country's first planetary exploration mission will implement planetary orbiting, landing and patrol detection through a single launch. The key to the mission is to successfully implement a soft landing on the surface of the planet. However, 18 planetary landing exploration missions have been implemented in the world at present, and only 7 of them are completely successful, with a success rate of less than 39%. It can be seen that the planetary landing exploration mission is very difficult. Among them, the entry, descent and landing process (EDL, Entry, Descent, and Landing) is the biggest challenge faced by planetary landing exploration missions. [0003] The...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01C21/24G05B13/04
Inventor 郭敏文黄翔宇李茂登张晓文魏春岭徐超胡锦昌王晓磊
Owner BEIJING INST OF CONTROL ENG
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