Wireless station, network device, control method, storage medium storing program, and communication system for calculating an available bandwidth in a wireless link

The invention claimed is: 1. A wireless station comprising: an antenna configured to receive a reference signal from another wireless station; and a processor configured to calculate an available bandwidth in a wireless link between the wireless station and the other wireless station by: obtaining a bandwidth for the wireless link between the station and the other wireless station based on a first quality index indicating total received power measured at the wireless station, a second quality index indicating received power of the reference signal received from the other wireless station, and a third quality index indicating received quality of the reference signal, obtaining a radio resource usage rate which is a ratio of a number of frequency blocks used for signal transfer, to a plurality of frequency blocks constituting the bandwidth based on the third quality index and a fourth quality index indicating a signal-to-interference noise power ratio of the reference signal, and obtaining radiowave quality of the wireless link based on the signal-to-interference noise power ratio of the reference signal received from the other wireless station. 2. The wireless station according to claim 1 , wherein the processor estimates at least one of the available bandwidth and the radio resource usage rate by using at least one of: the first quality index indicating the total received power measured at the wireless station, the second quality index indicating the received power of the reference signal received from the other wireless station, the third quality index indicating the received quality of the reference signal, and the fourth quality index indicating the signal-to-interference noise power ratio of the reference signal. 3. The wireless station according to claim 2 , wherein the processor calculates the available bandwidth further in consideration of a transmission mode of multi-antenna transmission of the wireless link. 4. The wireless station according to claim 1 , wherein the processor calculates the available bandwidth further in consideration of a transmission mode of multi-antenna transmission of the wireless link. 5. The wireless station according to claim 1 , wherein when the available bandwidth satisfies a predetermined condition, a wireless communication of the wireless station is controlled. 6. The wireless station according to claim 1 , wherein the available bandwidth is estimated, based on the first quality index, the second quality index, and the third quality index. 7. The wireless station according to claim 6 , wherein the processor calculates the available bandwidth further in consideration of a transmission mode of multi-antenna transmission of the wireless link. 8. The wireless station according to claim 1 , wherein the processor calculates the available bandwidth further in consideration of a transmission mode of multi-antenna transmission of the wireless link. 9. A network device comprising: an antenna configured to communicate with a second wireless station connected to a first wireless station via a wireless link; and a processor configured to calculate an available bandwidth in the wireless link between the first wireless station and wireless station by: obtaining a bandwidth for the wireless link based on a first quality index indicating total received power measured at the first wireless station, a second quality index indicating received power of a reference signal received from wireless station, and a third quality index indicating received quality of the reference signal, obtaining a radio resource usage rate which is a ratio of a number of frequency blocks used for signal transfer, to a plurality of frequency blocks constituting the bandwidth based on the third quality index and a fourth quality index indicating a signal-to-interference noise power ratio of the reference signal, and obtaining radiowave quality of the wireless link based on the signal-to-interference noise power ratio of the reference signal received from wireless station. 10. A control method comprising: calculating, by a first wireless station or a network device, an available bandwidth in a wireless link between the first wireless station and a second wireless station by: obtaining a bandwidth for the wireless link between the first wireless station and the second wireless station based on a first quality index indicating total received power measured at the first wireless station, a second quality index indicating received power of a reference signal received from the second wireless station, and a third quality index indicating received quality of the reference signal, obtaining a radio resource usage rate which is a ratio of a number of frequency blocks used for signal transfer, to a plurality of frequency blocks constituting the bandwidth based on the third quality index and a fourth quality index indicating a signal-to-interference noise power ratio of the reference signal, and obtaining radiowave quality of the wireless link based on the signal-to-interference noise power ratio of the reference signal received from the second wireless station. 11. A non-transitory computer-readable storage medium storing a program when executed by a processor to cause a computer to: calculate an available bandwidth in a wireless link between a first wireless station and a second wireless station by: obtaining a bandwidth for the wireless link between the first wireless station and the second wireless station based on a first quality index indicating total received power measured at the first wireless station, a second quality index indicating received power of a reference signal received from wireless station, and a third quality index indicating received quality of the reference signal, obtaining a radio resource usage rate which is a ratio of a number of frequency blocks used for signal transfer, to a plurality of frequency blocks constituting the bandwidth based on the third quality index and a fourth quality index indicating a signal-to-interference noise power ratio of the reference signal, and obtaining radiowave quality of the wireless link based on the signal-to-interference noise power ratio of the reference signal received from wireless station.