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Application of homotopy perturbation method to the radial thrust problem

Lorenzo Niccolai, Alessandro A. Quarta, Giovanni Mengali

2022Astrodynamics19 citationsDOIOpen Access PDF

Abstract

Abstract The dynamics of a spacecraft propelled by a continuous radial thrust resembles that of a nonlinear oscillator. This is analyzed in this work with a novel method that combines the definition of a suitable homotopy with a classical perturbation approach, in which the low thrust is assumed to be a perturbation of the nominal Keplerian motion. The homotopy perturbation method provides the analytical (approximate) solution of the dynamical equations in polar form to estimate the corresponding spacecraft propelled trajectory with a short computational time. The accuracy of the analytical results was tested in an orbital-targeting mission scenario.

Topics & Concepts

Perturbation (astronomy)Homotopy perturbation methodThrustSpacecraftNonlinear systemClassical mechanicsPhysicsHomotopy analysis methodHomotopyPoincaré–Lindstedt methodOrbital maneuverMathematical analysisMathematicsAstronomyThermodynamicsPure mathematicsQuantum mechanicsSpacecraft Dynamics and ControlQuantum chaos and dynamical systemsCosmology and Gravitation Theories
Application of homotopy perturbation method to the radial thrust problem | Litcius