Wireless communication system, wireless communication method, and base station

What is claimed is: 1. A wireless communication system comprising: at least one first base station connectable to a backbone network by a wireless backhaul; and a path generator generating a wireless multi-hop path including the first base station and one or more second base stations connected to the first base station by a wireless multi-hop, wherein the first base station reports, to the path generator, a first quality measurement result indicating a line quality of the wireless backhaul and a second quality measurement result indicating a line quality between the first base station and one of the one or more second base stations, the path generator generates a path signal based on the first quality measurement result and the second quality measurement result, and the first base station is switched, responsive to the path signal, to a first mode in which the first base station functions as a core node base station by being connected to the backbone network by the wireless backhaul, or to a second mode in which the first base station functions as a relay node base station by being connected to the one of the one or more second base stations by the wireless multi-hop. 2. The wireless communication system of claim 1 , wherein the wireless multi-hop path further includes a third base station connected to the backbone network by a wire backhaul and connected to the one or more second base stations by the wireless multi-hop. 3. The wireless communication system of claim 1 , wherein the first base station is switched to the second mode based on the path signal, which is transmitted from the path generator after the first base station reports the first quality measurement result that is smaller than a predetermined value. 4. The wireless communication system of claim 3 , wherein the first base station, in the second mode, transmits data signals by the wireless multi-hop to both an upstream side and a downstream side of the wireless multi-hop path. 5. The wireless communication system of claim 1 , wherein the first base station is switched to the first mode based on the path signal, which is transmitted from the path generator after the first base station reports the first quality measurement result that is larger than or equal to a predetermined value. 6. The wireless communication system of claim 5 , wherein the first base station, in the first mode, transmits a data signal by the wireless backhaul to an upstream side of the wireless multi-hop path, and transmits a data signal by the wireless multi-hop to a downstream side of the wireless multi-hop path. 7. A wireless communication method in a wireless communication system including at least one first base station connectable to a backbone network by a wireless backhaul, and a path generator generating a wireless multi-hop path including the first base station and one or more second base stations connected to the first base station by a wireless multi-hop, the wireless communication method comprising: reporting, by the first base station to the path generator, a first quality measurement result indicating a line quality of the wireless backhaul and a second quality measurement result indicating a line quality between the first base station and one of the one or more second base stations; generating, by the path generator, a path signal based on the first quality measurement result and the second quality measurement result; and switching the first base station, responsive to the path signal, to a first mode in which the first base station functions as a core node base station by being connected to the backbone network by the wireless backhaul, or to a second mode in which the first base station functions as a relay node base station by being connected to the one of the one or more second base stations by the wireless multi-hop. 8. The wireless communication method of claim 7 , wherein the wireless multi-hop path further includes a third base station connected to the backbone network by a wire backhaul and connected to the one or more second base stations by the wireless multi-hop. 9. The wireless communication method of claim 7 , wherein the first base station is switched to the second mode based on the path signal, which is transmitted from the path generator after the first base station reports the first quality measurement result that is smaller than a predetermined value. 10. The wireless communication method of claim 9 , wherein the first base station, in the second mode, transmits data signals by the wireless multi-hop to both an upstream side and a downstream side of the wireless multi-hop path. 11. The wireless communication method of claim 7 , wherein the first base station is switched to the first mode based on the path signal, which is transmitted from the path generator after the first base station reports the first quality measurement result that is larger than or equal to a predetermined value. 12. The wireless communication method of claim 11 , wherein the first base station, in the first mode, transmits a data signal by the wireless backhaul to an upstream side of the wireless multi-hop path, and transmits a data signal by the wireless multi-hop to a downstream side of the wireless multi-hop path. 13. A base station connectable to a backbone network by a wireless backhaul, comprising: a first communicator communicating with a path generator generating a wireless multi-hop path, which includes the base station and one or more external base stations connected to the base station by a wireless multi-hop; a second communicator communicating with the one or more external base stations by the wireless multi-hop; a first measurer measuring a first quality indicating a line quality of the wireless backhaul and reporting the first quality to the path generator; a second measurer measuring a second quality indicating a line quality between the base station and one of the one or more external base stations and reporting the second quality to the path generator; and a controller performing switching, responsive to a path signal transmitted from the path generator based on the first quality and the second quality, to a first mode in which the base station functions as a core node base station by being connected to the backbone network by the wireless backhaul, or to a second mode in which the base station functions as a relay node base station by being connected to the one of the one or more external base stations by the wireless multi-hop. 14. The base station of claim 13 , wherein the wireless multi-hop path further includes a third base station connected to the backbone network by a wire backhaul and connected to the one or more external base stations by the wireless multi-hop. 15. The base station of claim 13 , wherein the controller switches to the second mode based on the path signal, which is transmitted from the path generator after the first measurer reports the first quality that is smaller than a predetermined value. 16. The base station of claim 15 , which, in the second mode, transmits data signals by the wireless multi-hop to both an upstream side and a downstream side of the wireless multi-hop path. 17. The base station of claim 13 , wherein the controller switches to the first mode based on the path signal, which is transmitted from the path generator after the first measurer reports the first quality that is larger than or equal to a predetermined value. 18. The base station of claim 17 , which, in the first mode, transmits a data signal by the wireless ba