Identification of asteroids in g-type secular resonances using artificial neural networks.

Abstract

Secular resonances play an important role in the dynamics of small bodies, changing the eccentricity and inclination of the objects of the Solar System. They occur when there is a commensurability between the frequency of precession of an asteroid perihelion, g, or node, s, and the frequency of a planet, like for the case of the ½6 = g-g6 resonance with Saturn. Non-linear secular resonances are higher-order combinations of linear resonances. G-type secular resonances involve the frequency of precession g of the asteroid pericenter, and they affect the proper eccentricities of asteroids in resonant or near-resonance configurations. Here we plan to use Artificial Neural Networks methods to classify images of time-series of resonant angles for asteroids affected by these types of resonances, to facilitate the identification of the resonant population.