论文信息 - Optimal Low-Thrust Transfers to Lunar L1 Halo Orbit Using Variable Specific Impulse Engine

Optimal Low-Thrust Transfers to Lunar L1 Halo Orbit Using Variable Specific Impulse Engine

AbstractGiven the advantages of variable specific impulse (VSI) engine, it is very likely that in the future there will be deep space missions that use this thrust as propulsion system. In this study, a design technique for a fuel optimal Earth-to-Halo transfer using VSI is proposed. The calculus of variations approach and direct parameter optimization are combined to formulate the trajectory optimization problem. The classic stable manifold, developed in dynamical systems theory, is employed to further reduce fuel consumption. Adjoint control transformation (ACT) and analytical gradients are incorporated to improve performance of the algorithm. Four transfer examples—direct transfers from 500 km low Earth orbit (LEO) and 3,629 km medium Earth orbit (MEO) to lunar L1 halo orbit—and indirect transfers with lunar flybys, are presented.

Shijie Xu | Rui Qi

[1] Shenmin Zhang,et al. Surrogate-based parameter optimization and optimal control for optimal trajectory of Halo orbit rendezvous , 2013 .

[2] L. C. W. Dixon,et al. Adjoint—control transformations for solving practical optimal control problems , 2007 .

[3] K. Howell,et al. Low-Thrust Transfers in the Earth-Moon System, Including Applications to Libration Point Orbits , 2010 .

[4] K. Howell,et al. Natural and non-natural spacecraft formations near the L1 and L2 libration points in the Sun–Earth/Moon ephemeris system , 2005 .

[5] Cesar A. Ocampo,et al. Low-Thrust Variable-Specific-Impulse Transfers and Guidance to Unstable Periodic Orbits , 2005 .

[7] Shane D. Ross,et al. Low Energy Transfer to the Moon , 2001 .

[8] Ming Xu,et al. Impulsive Control for Formation Flight About Libration Points , 2012 .

[9] Jaume Llibre,et al. On the optimal station keeping control of halo orbits , 1986 .

[10] Gerard Gómez,et al. Study of the transfer from the Earth to a halo orbit around the equilibrium pointL1 , 1993 .

[11] W. Zhong,et al. Optimal guidance based on receding horizon control for low-thrust transfer to libration point orbits , 2013 .