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Trajectory re-planning method for elliptical rescue orbit under rocket thrust drop fault

A technology of rocket thrust and re-planning, which is applied to instruments, adaptive control, control/regulation systems, etc., and can solve problems such as non-convergence, long solving time, and low computing efficiency.

Pending Publication Date: 2021-07-30
DALIAN UNIV OF TECH +1
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Problems solved by technology

[0004] Aiming at the shortcomings of the adaptive pseudo-spectral method in the online trajectory re-planning of the thrust drop fault, which takes a long time or does not converge, the present invention provides a trajectory re-planning method, which provides a reasonable initial value for the trajectory planning of the online elliptical rescue track, and It can avoid the reduction of computational efficiency caused by the conflict between variables in the objective function

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  • Trajectory re-planning method for elliptical rescue orbit under rocket thrust drop fault
  • Trajectory re-planning method for elliptical rescue orbit under rocket thrust drop fault
  • Trajectory re-planning method for elliptical rescue orbit under rocket thrust drop fault

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Embodiment 1

[0064] Taking the entire secondary flight stage of the launch vehicle as the research object, the parameters come from the literature Z.Song, C.Wang, Q.Gong, Joint dynamic optimization of the target orbit and flight trajectory of a launch vehicle based on state-triggered indices, ActaAstronaut. , 174(2020) 82-93. The collocation points used in the adaptive pseudospectral method are the zeros of the orthogonal Legendre polynomials. The state distribution of faults established by the sample set is based on the occurrence time of 0-378s, with a step size of 0.5s; the thrust drop size is 13%-50%, with a step size of 0.25%, and 5330 samples of the elliptical rescue orbit type. In the sample set, 90% of the data is randomly selected as the training set, and the remaining 10% of the data is used as the test set. The diffusion factor of radial basis neural network training is 0.5, and the number of neurons in the final trained hidden layer is 300. The absolute error of semi-major axi...

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Abstract

The invention discloses a trajectory re-planning method for an elliptical rescue orbit under rocket thrust drop faults. The trajectory re-planning method comprises the following steps: constructing trajectory optimization problems of an elliptical rescue orbit under various thrust drop faults; adopting an adaptive pseudo-spectral method to solve the trajectory optimization problem of the elliptical rescue orbit in an off-line mode so as to obtain a sample set of fault state-orbit injection parameters; performing normalization processing on the sample data by adopting a maximum-minimum method, selecting a radial basis function neural network data center through an orthogonal least square method, and training the radial basis function neural network in an off-line manner so as to establish a nonlinear mapping relation from a fault state to an orbit injection parameter, wherein theradial basis function is a Gaussian basis function; and solving an optimal propellant optimization problem on line by adopting a self-adaptive pseudo-spectral method to obtain a flight trajectory. According to the invention, the orbit injection parameters are decided through the radial basis function neural network, a reasonable initial value is provided for trajectory planning of the online elliptical rescue orbit, and the situation that the calculation efficiency is reduced due to conflicts among variables in the target function can be avoided.

Description

technical field [0001] The invention relates to the technical field of launch vehicle rescue under failure, in particular to a trajectory re-planning method for an elliptical rescue orbit under a rocket thrust drop failure. Background technique [0002] As a rocket power device, the engine is the decisive factor for the flight reliability and safety of the rocket. In actual flight missions, the failure of the launch vehicle engine and other reasons will easily cause the thrust to drop. If the guidance and control scheme under the nominal ballistic condition is continued to be used, it will be difficult to complete the mission, which will lead to the failure of the mission. [0003] Generally, the trajectory optimization problem is described as an optimal control problem, and the adaptive pseudospectral method is widely used in the traditional solution method. However, there are some deficiencies in solving the online trajectory optimization problem for thrust descent faults...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G05B13/04
CPCG05B13/042
Inventor 何骁谭述君刘玉玺毛玉明吴志刚张立勇
Owner DALIAN UNIV OF TECH
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