RAN coordination can be applied to various mobility and handover scenarios, such as horizontal handover, which involves the transfer of a user from one base station or access point to another within the same RAT or frequency band. In this case, RAN coordination can help select the best target base station or access point, coordinate the timing and signaling of the handover, manage the interference and load among the neighboring cells, and maintain service continuity and quality for the user. Additionally, vertical handover requires a user to move from one RAT or frequency band to another. Here, RAN coordination can determine the optimal RAT or frequency band for the user, coordinate the activation and deactivation of the different RATs or frequency bands, harmonize parameters and policies among these different RATs or frequency bands, and ensure a seamless transition and integration for the user. Lastly, multi-connectivity involves simultaneous connection of a user to multiple base stations or access points. In this scenario, RAN coordination can allocate and split resources and traffic among these multiple base stations or access points, coordinate transmission and reception of signals among them, synchronize and align data and control planes among them, and enhance reliability and diversity for the user.