We present a new approach in astrodynamics and celestial mechanics fields, called hybrid perturbation theory. A hybrid perturbation theory combines an integrating technique, general perturbation theory or special perturbation theory or semianalytical method, with a forecasting technique, statistical time series model or computational intelligence method. This combination permits an increase in the accuracy of the integrating technique, through the modeling of higher-order terms and other external forces not considered in the integrating technique. In this paper, neural networks have been used as time series forecasters in order to help two economic general perturbation theories describe the motion of an orbiter only perturbed by the Earth's oblateness. © 2013 Iván Pérez et al.
CITATION STYLE
Pérez, I., San-Juan, J. F., San-Martín, M., & López-Ochoa, L. M. (2013). Application of computational intelligence in order to develop hybrid orbit propagation methods. Mathematical Problems in Engineering, 2013. https://doi.org/10.1155/2013/631628
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