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Spacecraft ACS on-orbit reconstruction method oriented to multi-task multi-index optimization constraints

A multi-task and spacecraft technology, applied in the direction of instruments, adaptive control, control/regulation systems, etc., can solve the problems of large task revenue and task revenue decline, so as to improve the ability to deal with failures, avoid excessive calculations, and improve Effects on Task Completion Ability

Active Publication Date: 2018-09-28
NANJING UNIV OF AERONAUTICS & ASTRONAUTICS
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Problems solved by technology

[0005] The purpose of the invention of the present invention is to address the deficiencies in the above-mentioned background technology, and provide a spacecraft ACS on-orbit reconstruction method oriented to multi-task and multi-index optimization constraints, which incorporates multi-task constraints into the design of utility functions and performance index functions. Find the optimal reconfiguration decision under the following conditions to obtain the maximum task benefit with as little control energy consumption as possible, and solve the technical problem that the reconfigured control system of the existing reconfiguration method cannot guarantee to meet the task execution requirements and cause the task benefit to decline

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  • Spacecraft ACS on-orbit reconstruction method oriented to multi-task multi-index optimization constraints
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  • Spacecraft ACS on-orbit reconstruction method oriented to multi-task multi-index optimization constraints

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[0045] The technical solution of the invention will be described in detail below in conjunction with the accompanying drawings.

[0046] The on-orbit reconstruction method of spacecraft ACS for multi-task constraints is as follows: figure 1 shown. This method is not only based on state information and fault information, but also considers multi-task constraints for on-orbit reconstruction. Multi-task constraints include constraints such as task window, target attitude, task priority, and control energy consumption. Multi-task constraints are reflected in the state transition and performance index functions, among which, the total task revenue performance index function is used to evaluate the total task revenue level of the reconstruction strategy, and the total control energy consumption performance index function is used to evaluate the total control energy of the reconstruction strategy consumption level. The optimal reconstruction strategy in the form of HJB equation is...

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Abstract

The invention discloses a spacecraft ACS on-orbit reconstruction method oriented to multi-task multi-index optimization constraints, and belongs to the technical field of spacecraft attitude control.According to the method, for a spacecraft with on-orbit time relevant multi-task constraint, the state and the motion under the multi-task constraint are defined, a utility function about the state-motion is designed and a performance index function is determined, and then an optimal reconstruction strategy in the form of the HJB equation is obtained. Aiming at the problem that the HJB equation isdifficult to solve accurately, an approximate solution method based on the BOADP is provided, the task network and the energy consumption network are designed for estimating two performance index functions, and the convergence of neural network estimation errors is achieved through an iterative learning algorithm, so that an approximate solution of the HJB equation is achieved, and then an optimal reconstruction strategy is obtained, and the maximization of the task earnings is achieved by controlling the energy consumption as few as possible. According to the invention, the multi-task completion capability and the fault response capability of the spacecraft are improved.

Description

technical field [0001] The invention discloses a spacecraft attitude control system (Attitude Control System, ACS) on-orbit reconfiguration method oriented to multi-task and multi-index optimization constraints, and belongs to the technical field of spacecraft attitude control. Background technique [0002] Once an in-orbit spacecraft fails, even a failure of only a few minutes or ten minutes may lead to the failure of the entire mission. Because the spacecraft is far away from the ground, ground measurement and control personnel are often unable to deal with failures in time, and the spacecraft should have the ability to autonomously reconfigure on-orbit. The current reconfiguration control methods mainly focus on the design of fault-tolerant controllers, and achieve system stability after faults through active fault tolerance or passive fault tolerance. However, active or passive fault tolerance does not consider multi-task constraints, and the reconfigured control system...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G05B13/02
CPCG05B13/024
Inventor 程月华姜斌陆宁云陈嘉文叶正宇
Owner NANJING UNIV OF AERONAUTICS & ASTRONAUTICS
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