Wireless system capable of using shared frequency, radio resource allocation method in wireless communication using shared frequency, and base station

What is claimed is: 1 . A wireless system capable of using a shared frequency mainly used by an existing first wireless system under predetermined sharing conditions, the wireless system comprising: a communicator that performs wireless communication with at least one terminal accommodated in a communication area of the wireless system; at least one sensor that is disposed around the communication area and measures reception power of a signal sent from the inside of the communication area via the communicator; a memory that stores beam data indicating a correspondence relationship between a beam direction of the signal and a measurement result in the sensor; a determiner that determines allowable maximum transmission power of the signal in each beam direction on the basis of the sharing conditions and the beam data; and an allocator that allocates a radio resource to the terminal on the basis of the allowable maximum transmission power in each beam direction and channel state information reported from the terminal. 2 . The wireless system of claim 1 , further comprising: an acquirer that acquires the sharing conditions including allowable transmission power of the signal calculated to the extent of avoiding interference with the first wireless system from a shared frequency management apparatus connected to the first wireless system, wherein the determiner determines the allowable maximum transmission power in each beam direction on the basis of the allowable transmission power and the beam data. 3 . The wireless system of claim 1 , wherein the communicator receives the channel state information in each beam direction of the signal from the terminal, and wherein the allocator allocates the radio resource to the terminal on the basis of the allowable maximum transmission power in each beam direction, and the channel state information in each beam direction reported from the terminal. 4 . The wireless system of claim 1 , wherein the allocator calculates a wireless parameter corresponding to the radio resource by using the allowable maximum transmission power in each beam direction and the channel state information reported from the terminal, and allocates the radio resource to the terminal on the basis of a ratio between the wireless parameter based on the latest channel state information in the terminal and the wireless parameter based on average channel state information corresponding to a predetermined past time in the terminal. 5 . The wireless system of any one of claim 1 , wherein the sharing conditions include a carrier frequency, a bandwidth, and allowable maximum reception power of a signal in the sensor, calculated to the extent of minimizing interference given to the first wireless system. 6 . A radio resource allocation method in wireless communication of a wireless system capable of using a shared frequency mainly used by an existing first wireless system under predetermined sharing conditions, the method comprising: performing wireless communication with at least one terminal accommodated in a communication area of the wireless system; causing at least one sensor disposed around the communication area to measure reception power of a signal sent from the inside of the communication area; storing, into a memory, beam data indicating a correspondence relationship between a beam direction of the signal and a measurement result in the sensor; determining allowable maximum transmission power of the signal in each beam direction on the basis of the sharing conditions and the beam data; and allocating a radio resource to the terminal on the basis of the allowable maximum transmission power in each beam direction and channel state information reported from the terminal. 7 . A base station in a wireless system capable of using a shared frequency mainly used by an existing first wireless system under predetermined sharing conditions, the base station comprising: a communicator that performs wireless communication with at least one terminal accommodated in a communication area of the wireless system; a memory that stores beam data indicating a correspondence relationship between a measurement result of reception power of a signal sent from the inside of the communication area via the communicator by at least one sensor disposed around the communication area and a beam direction of the signal; a determiner that determines allowable maximum transmission power of the signal in each beam direction on the basis of the sharing conditions and the beam data; and an allocator that allocates a radio resource to the terminal on the basis of the allowable maximum transmission power in each beam direction and channel state information reported from the terminal.