Mobility management for high speed user equipment

The invention claimed is: 1. A method for a user equipment (UE) performing an event occurrence report for mobility management in a wireless communication system, the method comprising: receiving reference signals transmitted through a plurality of propagation beams from a serving cell and one or more neighboring cells of a network; determining link reliability with each of the serving cell and the neighboring cells of the network, the link reliability is (a) proportional to a number of the propagating beams from each of the serving cell and the neighboring cells and (b) a degree of ray distribution between the propagating beams, the degree of ray distribution is determined based on an angle of departure (AoD) difference between the propagation beams or an angle of arrival (AoA) difference between the propagation beams; and transmitting the event occurrence report to the network when a receive (Rx) power of a reference signal from a neighboring cell among the neighboring cells is higher than an Rx power of a reference signal from the serving cell by a predetermined threshold, and when the link reliability of the neighboring cell is better than the link reliability of the serving cell. 2. The method according to claim 1 , wherein the number of the propagating beams are counted except for the propagating beams having the Rx power lower than a predetermined reference level. 3. The method according to claim 1 , wherein the Rx power of the reference signals is considered through at least one of Rx power or quality of a reference signal received by each of a plurality of antenna units from each network device of the network, Rx power or quality of all reference signals received by the plurality of the antenna units from each network device of the network, Rx power or quality of each preferred received reference signal of each of plurality of the antenna units from among signals received from each network device of the network, and Rx power or quality of all preferred received reference signals of each of the plurality of the antenna units from among signals received from each network device of the network. 4. The method according to claim 1 , wherein respective measurement parameters of the link reliability are measured by setting different measurement durations. 5. The method according to claim 1 , wherein respective measurement parameters of the link reliability are determined by independently determining whether a plurality of conditions are satisfied. 6. The method according to claim 1 , wherein when a first condition of the plurality of conditions is satisfied, respective measurement parameters of the link reliability are determined by determining whether a second condition following the first condition is satisfied. 7. The method according to claim 1 , wherein the event occurrence report includes information about ray directivity from a specific network device of the network. 8. A User Equipment (UE) for performing an event occurrence report for mobility management in a wireless communication system, the UE comprising: antenna units; and a central unit connected to the antenna units, wherein the antenna units are configured to receive reference signals from a network, wherein the central unit is configured to determine link reliability with each of the serving cell and the neighboring cells of the network, the link reliability is (a) proportional to a number of the propagating beams from each of the serving cell and the neighboring cells and (b) a degree of ray distribution between the propagating beams, the degree of ray distribution is determined based on an angle of departure (AoD) difference between the propagation beams or an angle of arrival (AoA) difference between the propagation beams; and configured to transmit the event occurrence report to the network, when a receive (Rx) power of a reference signal from a neighboring cell among the neighboring cells is higher than an RX power of a reference signal from the serving cell by a predetermined threshold, and when the link reliability of the neighboring cell is better than the link reliability of the serving cell. 9. The UE according to claim 8 , wherein the number of the propagating beams are counted except for the propagating beams having the Rx power lower than a predetermined reference level. 10. The UE according to claim 8 , wherein the Rx power of the reference signals is considered through at least one of Rx power or quality of a reference signal received by each of a plurality of antenna units from each network device of the network, Rx power or quality of all reference signals received by the plurality of the antenna units from each network device of the network, Rx power or quality of each preferred received reference signal of each of plurality of the antenna units from among signals received from each network device of the network, and Rx power or quality of all preferred received reference signals of each of the plurality of the antenna units from among signals received from each network device of the network. 11. The UE according to claim 8 , wherein respective measurement parameters of the link reliability are measured by setting different measurement durations.