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Lunar finite thrust multi-capture orbit realization method

A technology of multiple capture and implementation methods, applied in the aerospace field, can solve problems that cannot be approximated as pulse processing, long time, high fuel consumption, etc.

Active Publication Date: 2018-01-19
BEIJING INSTITUTE OF TECHNOLOGYGY
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Problems solved by technology

For tiny satellites with small self-thrust, it takes a long time to generate the same speed increment, and the braking speed increment cannot be approximated as pulse processing, and the gravity loss is large, so it is not suitable for the moon capture design with limited thrust.
[0004] Prior technology [2] (see Li Junfeng, Gong Shengping, Mars exploration and capture strategy analysis of limited thrust model [J] Chinese Science: Physics, Mechanics and Astronomy, 2013,43(6):781-786.) studied the limited thrust of Mars rover For the capture problem, the strategies of fuel optimal capture, attitude uniform rotation and attitude inertial directional capture were analyzed. However, this study was still designed for detectors with high thrust, and only considered the case of a single capture orbit. The capture efficiency was low and the fuel consumption was low. Big

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Embodiment 1

[0055] This embodiment discloses a method for realizing a lunar limited-thrust multi-acquisition orbit by establishing a dynamic equation of the limited thrust of the probe under the lunar inertial system. Decompose a single lunar capture maneuver into multiple capture maneuvers, and optimize the parameters of each capture maneuver. Convert the speed pulse required for the first maneuver and the remaining multiple maneuvers into the optimal limited thrust capture orbit, optimize the engine start phase, thrust direction and working time, achieve the optimal limited thrust capture, and enter the target orbit.

[0056] A method for realizing a lunar limited thrust multiple capture orbit disclosed in this embodiment includes the following steps:

[0057] Step 1: Establish the finite thrust dynamic equation of the probe under the lunar inertial system.

[0058] The lunar capture process of the probe is located near the moon, and the gravitational field of the inertial coordinate s...

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Abstract

The invention discloses a lunar finite thrust multi-capture orbit realization method and belongs to the field of aerospace technology. According to the specific realization method, a prober finite thrust kinetic equation is established under a lunar inertial system; a single lunar capture maneuver is decomposed into multiple capture maneuvers, and parameters of each capture maneuver are optimized;and velocity pulses needed by the first maneuver and the remaining maneuvers are converted into an optimal finite thrust capture orbit, an initial work phase, a thrust direction and work time of an engine are optimized, optimal finite thrust capture is realized, and a target orbit is entered. Through the lunar finite thrust capture orbit realization method, the needed velocity increment is small,capture efficiency is high, the finite thrust capture orbit meeting constraint can be obtained, and convergence is good.

Description

technical field [0001] The invention relates to a method for realizing multiple capturing orbits with limited thrust of the moon, which is suitable for the design of lunar capturing orbits of probes using limited thrust, and belongs to the technical field of aerospace. Background technique [0002] The moon is the closest celestial body to the earth. It has important scientific exploration value and is also the starting point for human deep space exploration. At present, humans have carried out many lunar exploration missions, mainly large-scale detectors. Compared with large satellites, microsatellites have the characteristics of low cost, small size, and diverse functions. They are one of the focuses of current satellite development and will also be widely used in lunar exploration. The design of the lunar capture orbit is an important part of the lunar exploration mission. It requires the probe to use its own thrust brake to achieve the lunar capture. The capture process ...

Claims

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Application Information

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IPC IPC(8): G06F17/50
Inventor 乔栋李翔宇孙超杜燕茹胡勃钦
Owner BEIJING INSTITUTE OF TECHNOLOGYGY
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