In this paper, we consider a linear quadratic regulator control problem for spacecraft rendezvous in an elliptical orbit. A new spacecraft rendezvous model is established. On the basis of this model, a linear quadratic regulator control problem is formulated. A parametric Lyapunov differential equation approach is used to design a state feedback controller such that the resulting closed-loop system is asymptotically stable, and the performance index is minimized. By an appropriate choice of the value of a parameter, an approximate state feedback controller is obtained from a solution to the periodic Lyapunov differential equation, where the periodic Lyapunov differential equation is solved on the basis of a new numerical algorithm. The spacecraft rendezvous mission under the controller obtained will be accomplished successfully. Several illustrative examples are provided to show the effectiveness of the proposed control design method. Copyright (c) 2014 John Wiley & Sons, Ltd.
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机译:在本文中,我们考虑了椭圆轨道上交会的线性二次调节器控制问题。建立了新的航天器交会模型。基于该模型,提出了线性二次调节器控制问题。参数Lyapunov微分方程方法用于设计状态反馈控制器,以使所得的闭环系统渐近稳定,并使性能指标最小化。通过适当选择参数的值,可以从周期Lyapunov微分方程的解中获得近似状态反馈控制器,其中基于新的数值算法求解周期Lyapunov微分方程。所获得的控制器下的航天器交会任务将成功完成。提供了几个说明性示例,以显示所提出的控制设计方法的有效性。版权所有(c)2014 John Wiley&Sons,Ltd.
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