In this study, based on the trajectory data of a mobile ballistic missile, the path of a mobile ballistic missile was predicted using the time series data prediction function of generative AI. A mobile ballistic missile initially has the same movement characteristics as a ballistic missile, and after the re-entry stage, it uses lift to maneuver to the desired target point. In the case of traditional ballistic missiles, it is possible to predict the future path using the track information received from the detection sensor, but in the case of mobile ballistic missiles, it is difficult to predict the future path due to the uncertainty of future dynamic information changes in the track. In this study, a test was conducted to predict the future path of a mobile ballistic missile by applying two previously published generative AI-based path prediction models. The learning data used simulated trajectories created through modeling of motion characteristics reflecting lift by applying aerodynamic characteristics using the published shape and specifications of the missile, and the same data was learned as two models and their performances were compared. In addition, an inference performance analysis was performed on two generative AI-based path prediction models. As a result of the test, it was confirmed that it is possible to predict future routes using track data with a generative AI-based route prediction model.