Communication control apparatus, communication terminal, communication system, communication control method, and non-transitory computer-readable storage medium

1 . A communication control apparatus which controls communication between a plurality of communication terminals each located in any one of a plurality of areas and a plurality of base station, the communication control apparatus comprising at least one processor, the at least one processor carrying out a control process in which a directivity direction of each of antennas of the plurality of communication terminals is determined, on the basis of: terminal location prediction information in which locations of the plurality of communication terminals are predicted; and an electric wave environment database in which the plurality of base stations, beam directions of respective electric waves from the base stations, the plurality of areas, and reception powers of the respective electric waves in the plurality of areas are associated with each other. 2 . The communication control apparatus according to claim 1 , wherein, in the control process: in a case where on the basis of the electric wave environment database, the directivity direction of each of antennas of one or more communication terminals, among the plurality of communication terminals, in a predetermined area is set to not a direction toward a first base station, which transmits a beam of a first electric wave having a first reception strength in the predetermined area, but a direction toward a second base station, which transmits a beam of a second electric wave having a second reception strength lower than the first reception strength in the predetermined area, the at least one processor calculates a level of interference of the first electric wave to the second electric wave; and in a case where the level of the interference is not more than a predetermined level, the at least one processor calculates, on the basis of the terminal location prediction information, (a) a first communication efficiency in a case where the directivity direction of each of the antennas of the communication terminals located in the predetermined area is set to the direction toward the first base station and (b) a second communication efficiency in a case where the directivity direction of each of the antennas of the communication terminals located in the predetermined area is set to the direction toward the second base station, and the at least one processor determines, on the basis of the first and second communication efficiencies, the directivity direction of each of the antennas of the communication terminals located in the predetermined area. 3 . The communication control apparatus according to claim 2 , wherein the beam of the first electric wave has a largest reception power in the predetermined area, and the beam of the second electric wave has a second largest reception power in the predetermined area. 4 . The communication control apparatus according to claim 2 , wherein, in the control process: the at least one processor calculates (a) the first number of the one or more communication terminals that are located in the predetermined area and that are capable of communicating with the first terminal station in a case where the directivity direction of each of the antennas of the communication terminals in the predetermined area is set to the direction toward the first base station and (b) the second number of communication terminals that are located in the predetermined area and that are capable of communicating with the second terminal station in a case where the directivity direction of each of the antennas of the communication terminals in the predetermined area is set to the direction toward the second base station; and the at least one processor calculates the first communication efficiency on the basis of the first number of the one or more communication terminals and the second communication efficiency on the basis of the second number of the one or more communication terminals. 5 . The communication control apparatus according to claim 1 , wherein, in the control process: the at least one processor identifies an area where a level of interference caused by the respective electric waves transmitted by the plurality of base stations is not less than a predetermined level, on the basis of the terminal location prediction information and the electric wave environment database; the at least one processor identifies, in the area thus identified, a base station that has a largest effect on the level of interference; the at least one processor determines a direction of a beam of an electric wave from the base station thus identified; and the at least one processor determines the directivity direction of an antenna of a communication terminal located in the area identified such that the directivity direction corresponds to the direction of the electric wave determined. 6 . The communication control apparatus according to claim 1 , wherein: the plurality of base stations include a ground base station and a non-terrestrial network base station; and in the control process, the at least one processor calculates, on the electric wave environment database, a level of interference in a communication terminal located in a predetermined area, the interference being caused by a beam of an electric wave from the non-terrestrial network base station, and in a case where the level of the interference is not less than a predetermined level, the at least one processor determines the directivity direction of an antenna of the communication terminal located in the predetermined area so that the directivity direction is set to a direction toward the ground base station so as to avert the non-terrestrial network base station or set to a direction toward the non-terrestrial network base station. 7 . A communication terminal that changes a directivity direction of an antenna on the basis of a directivity direction of the antenna which has been determined by the communication control apparatus according to claim 1 . 8 . A communication system comprising a communication control apparatus according to claim 1 , and a communication terminal that changes a directivity direction of an antenna on the basis of a directivity direction of the antenna which has been determined by the communication control apparatus. 9 . A communication control method which is carried out by a communication control apparatus for controlling communication between a plurality of communication terminals each located in any one of a plurality of areas and a plurality of base station, the communication control apparatus including at least one processor, the at least one processor carrying out a control process in which a directivity direction of each of antennas of the plurality of communication terminals is determined, on the basis of: terminal location prediction information in which locations of the plurality of communication terminals are predicted; and an electric wave environment database in which the plurality of base stations, beam directions of respective electric waves transmitted from the base stations, the plurality of areas, and reception powers of the respective electric waves in the plurality of areas are associated with each other. 10 . The communication control method according to claim 9 , wherein, in the control process: in a case where on the basis of the electric wave environment database, the directivity direction of each of antennas of one or more communication terminals, among the plurality of communication terminals, in a predetermined area is set to not a direction toward a first base station, which transmits a beam of a first electric wave having a first reception strength in the predetermined area, but a direction toward a second base station, which transmits a beam of a s