Observability constraint-based random planet landing track optimizing method

A stochastic optimization, trajectory technique, applied in instrumentation, adaptive control, control/regulation systems, etc., which can solve problems such as poor estimation performance

Inactive Publication Date: 2013-02-27
BEIJING INSTITUTE OF TECHNOLOGYGY
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Problems solved by technology

[0005] The purpose of the present invention is to solve the problem of poor estimation performance caused by limited observation ability in the proces

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  • Observability constraint-based random planet landing track optimizing method
  • Observability constraint-based random planet landing track optimizing method
  • Observability constraint-based random planet landing track optimizing method

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Embodiment Construction

[0024] In order to further illustrate the purpose and advantages of the present invention, the content of the present invention will be further described below in conjunction with the accompanying drawings and embodiments.

[0025] ①Establish the dynamic equation of the detector under the fixed coordinate system of the landing point

[0026] r · = v ·

[0027] v · = u + g - a e - a k + a Δ

[0028] Among them, r, v are the position vector and velocity vector of the probe relative to the predetermined landing point, u is the control input of the probe, g is the gravitational acceleration of the planet, a e ,a k are the centrifugal inertial acceleration and Coriolis accele...

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Abstract

The invention relates to an observability constraint-based random planet landing track optimizing method, and belongs to the technical field of the deep space probe navigation and guidance. According to the method, a deep space landing guidance control task based on the monocular vision navigation is used as the background, the dual problem between the effective control and the reliable estimation is considered, the system uncertainty is used as partial cost and is introduced into a quadratic performance index through an expansion-state space, so that a random optimization feedback control law can be provided by adopting a linear quadratic type control technique, an expansion-state space description model of a established probe system is substituted, the real-time optimization of a planet landing track is realized. The dynamic planning and the burden in calculation based on a searching method are avoided, the problem of observability shortage in the landing process is effectively overcome, and the navigation estimation performance of the system is improved, so that the overall performance during the planet probe navigation and guidance control is ensured, and the final target that a planet is reliably landed is achieved.

Description

technical field [0001] The invention relates to a random optimization method for a planetary landing trajectory based on observability constraints, and belongs to the technical field of navigation and guidance of deep space probes. Background technique [0002] During planetary landing, since the lander is affected by various uncertain factors, the design of its guidance and control law must be based on the optimal estimation of the system state, which makes accurate navigation and positioning particularly critical; in addition, the landing time is relatively short. In the deep space environment, the communication delay time is long, and the navigation guidance control mode based on the ground station is no longer applicable. Therefore, the development of an autonomous, real-time and accurate navigation guidance control strategy for deep space landing has become a research hotspot among scholars at home and abroad. [0003] In the prior art [1] (see R.R.Sostaric, J.R.Rea. Po...

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Application Information

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IPC IPC(8): G05B13/04G05D1/10
Inventor 崔平远高艾徐瑞朱圣英于正湜
Owner BEIJING INSTITUTE OF TECHNOLOGYGY
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