KEYWORDS: Sun, Space operations, Process control, Solar sails, Solar radiation, Remote sensing, Spherical lenses, Telecommunications, Systems modeling, Solar radiation models
Heliotropic orbits and frozen orbits possess unique advantages in Earth observation missions and communication service. However, few scholars have found an orbit that possesses heliotropic and frozen characteristics at the same time. Heliotropic frozen orbits are obtained through a proposed control strategy, which is accomplished by adjusting the area-to-mass ratio and the attitude angles. First, we construct the dynamical model of high area-to-mass ratio spacecraft under the effect of J2 perturbation and solar radiation pressure. Then, nominal heliotropic frozen orbits are solved by assuming that the obliquity angle of the ecliptic with respect to the equator is zero. Finally, a control strategy is proposed to maintain heliotropic frozen orbits when the obliquity angle of the ecliptic with respect to the equator is considered. In addition, practical examples are provided to verify the heliotropic and frozen characteristics and the robustness of the controlled orbits. Orbit design for Earth observation and communication service is also studied.
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