Wireless communication apparatus and method

What is claimed is: 1. A wireless communication apparatus comprising: an antenna array including a plurality of antenna elements; a memory configured to store an instruction; and at least one processor configured to execute the instruction to: control a receiving beam formed by the antenna array, the receiving beam being for receiving a radio signal transmitted by another wireless communication apparatus; perform a first processing for changing, using a plurality of antenna elements selected in the antenna array, the receiving beam in a first direction to determine a first angle for the receiving beam; and perform a second processing for changing, using a number of antenna elements larger than or equal to a number of antenna elements used in the first processing, the receiving beam in the first direction from the first angle to determine a second angle that is a final angle for the receiving beam. 2. The wireless communication apparatus according to claim 1 , wherein the first processing includes changing an azimuth angle and an elevation angle for the receiving beam to determine the first angle that is a combination of the azimuth angle and the elevation angle; and the second processing includes changing the azimuth angle and the elevation angle separately from the first angle to determine the second angle that is a final combination of the azimuth angle and the elevation angle. 3. The wireless communication apparatus according to claim 2 , wherein the first processing includes a first searching processing and a second searching processing, the first searching processing includes: changing, using a first number of antenna elements, the azimuth angle and the elevation angle in a first search range defined by the combination of the azimuth angle and the elevation angle; and determining, from the first search range, a first point at which a reception level for the radio signal has a largest value, the second searching processing includes: changing, using a second number of antenna elements larger than or equal to the first number, the azimuth angle and the elevation angle in a second search range defined by the combination of the azimuth angle and the elevation angle; and determining, from the second search range, a second point at which the reception level for the radio signal has a largest value as the first angle, the second search range includes the first point and is smaller than the first search range. 4. The wireless communication apparatus according to claim 3 , wherein the first search range includes a plurality of first search points defined by the combination of the azimuth angle and the elevation angle, the second search range includes a plurality of second search points defined by the combination of the azimuth angle and the elevation angle, and an interval between the second search points adjacent from each other is smaller than an interval between the first search points adjacent from each other. 5. The wireless communication apparatus according to claim 4 , wherein the interval between the second search points adjacent from each other and the interval between the first search points adjacent from each other are set using a half power beam width (HPBW) for the receiving beam. 6. The wireless communication apparatus according to claim 4 , wherein a border of the second search range is set between the first search points corresponding to the first point and the first search points adjacent to the first point. 7. The wireless communication apparatus according to claim 4 , wherein the second search range is set to include the first search point at which a difference with the reception level for the first point is smaller than or equal to a predetermined difference level. 8. The wireless communication apparatus according to claim 7 , wherein the at least one processor is further configured to execute the instruction to perform the first tuning processing and the second tuning processing alternately. 9. The wireless communication apparatus according to claim 3 , wherein the at least one processor is further configured to execute the instruction to: perform the second searching processing using all the antenna elements included in the antenna array; and perform the second processing using all the antenna elements included in the antenna array. 10. The wireless communication apparatus according to claim 2 , wherein the second processing includes a first tuning processing and a second tuning processing, the first tuning processing includes modifying the azimuth angle in the first angle using a first relationship, the first relationship represents a relationship between a first error corresponding to an error between an actual arrival azimuth angle for the radio signal and an estimated arrival azimuth angle for the radio signal, and a gain difference caused due to the first error, and the second tuning processing includes modifying the elevation angle in the first angle using a second relationship, the second relationship represents a relationship between a second error corresponding to an error between an actual arrival elevation angle for the radio signal and an estimated arrival azimuth angle for the radio signal, and a gain difference caused due to the second error. 11. The wireless communication apparatus according to claim 10 , wherein the at least one processor is further configured to execute the instruction to perform the first tuning processing and the second tuning processing repeatedly until a convergence condition for the first error and the second error is met. 12. A method performed in a wireless communication apparatus comprising an antenna array including a plurality of antenna elements, the method comprising: controlling a receiving beam formed by the antenna array, the receiving beam is for receiving radio signal transmitted by another wireless communication apparatus; performing a first processing for changing, using the plurality of antenna elements selected in the antenna array, the receiving beam in a first direction to determine a first angle for the receiving beam; and performing a second processing for changing, using a number of antenna elements larger than or equal to the number of antenna elements used in the first processing, the receiving beam in the first direction from the first angle to determine a second angle that is a final angle for the receiving beam. 13. A wireless communication apparatus comprising: an antenna array including a plurality of antenna elements; a memory configured to store an instruction; and at least one processor configured to execute the instruction to: control a transmitting beam formed by the antenna array, the transmitting beam is for transmitting a radio signal to another wireless communication apparatus; perform a first processing for changing, using a plurality of antenna elements selected in the antenna array, the transmitting beam in a first direction to determine a first angle for the transmitting beam; and perform a second processing for changing, using a number of antenna elements larger than or equal to a number of antenna elements used in the first processing, the transmitting beam in the first direction from the first angle to determine a second angle that is a final angle for the transmitting beam; receive, from another wireless communication apparatus, information about a reception level for the radio signal; and performs the first processing and the second processing using the information.