Under the premise of the Earth's layer structure and mass distribution, the solid inner core cannot be stable in the center of the sphere. Thus, the deviation of the inner core is towards the sphere's center and the liquid outer core must have asymmetrical thermal convection. Based on the two suggestions, a concise and self-consistent global motion model can be built. The model consists of the following cycle: an asymmetrical thermal convection structure in the outer core led by the dislocation of the inner core→the plume is in special upwell position because of differential activation→the formation and split of lithosphere→the split plates drift and assemble in a new location, the mass of which causes the inner core to deviate towards this direction again→the new asymmetry is formed. As this circulation continues, a definite and periodical motion emerges/forms. Its nonlinear features result in the Earth's motion with simple mechanisms but complex behavior. Ultraterrestrial events may disturb or even Under the premise of the Earth's layer structure and mass distribution, the solid inner core can not be stable in the center of the sphere. Thus, the deviation of the inner core is towards the sphere's center and the liquid outer core must have asymmetrical thermal convection. Based on the two suggestions, a concise and self-consistent global motion model can be built. The model consists of the following cycle: an asymmetrical thermal convection structure in the outer core led by the dislocation of the inner core → the plume is in special upwell position because of differential activation → the formation and split of lithosphere → the split plates drift and assemble in a new location, the mass of which causes the inner core to deviate towards this direction again → the new asymmetry is formed. , a definite and periodical motion emerges / forms. Its nonlinear features result in the Earth's motion with simple mechanisms but complex behavior. Ultraterrestrial eve nts may disturb or even