Distributed radio communication base station system, base band unit, remote radio unit, and method for operating distributed radio communication base station system

What is claimed is: 1. A distributed radio communication base station system comprising: a base band unit (BBU); a remote radio unit (RRU); and an optical fiber connecting the BBU and the RRU, wherein one of the BBU and the RRU comprises a sampling frequency conversion section, wherein a sampling frequency of an optical signal is converted from a predetermined value to a reduced value RoF signal according to an allocated band of the radio signal, and transmitted through the optical fiber, and wherein the other of the BBU and the RRU comprises a sampling frequency restoration section, wherein the sampling frequency is restored to the predetermined value when the reduced value RoF signal is received through the optical fiber and an aliasing noise generated in the restoration of the sampling frequency is removed. 2. The distributed radio communication base station system according to claim 1 , wherein the sampling frequency conversion section reduces the sampling frequency to the sampling frequency in a range where signal quality deterioration given to the radio signal by the aliasing noise is not more than an allowable value. 3. The distributed radio communication base station system according to claim 1 , wherein the conversion section has a transmission approval/disapproval function of detecting a no signal section of the reduced value RoF signal transmitted through the optical fiber and stopping the reduced value RoF transmission in the no signal section. 4. The distributed radio communication base station system according to claim 3 , wherein the transmission approval/disapproval function restores the reduced value RoF transmission when the transmitted signal is again started to be received through the optical fiber. 5. The distributed radio communication base station system according to claim 3 , wherein in the transmission approval/disapproval function, the base station system detects the no signal section of the transmitted signal from the RRU to the BBU based on radio band information set in communication with a radio terminal, and the BBU instructs the RRU to stop the reduced value RoF transmission in the no signal section. 6. A base band unit (BBU) of a distributed radio communication base station system, wherein the BBU comprises: a sampling frequency conversion section, wherein a sampling frequency of an optical signal is converted from a predetermined value to a reduced value RoF signal according to an allocated band of the radio signal, and transmitted through an optical fiber that connects the BBU and a remote radio unit (RRU); and a sampling frequency restoration section, wherein the sampling frequency is restored to the predetermined value when the reduced value RoF signal is received through the optical fiber and an aliasing noise generated in the restoration of the sampling frequency is removed. 7. A remote radio unit (RRU) of a distributed radio communication base station system, wherein the RRU comprises: a sampling frequency conversion section, wherein a sampling frequency of an optical signal is converted from a predetermined value to a reduced value RoF signal according to an allocated band of the radio signal, and transmitted through an optical fiber that connects the RRU and a base band unit (BBU); and a sampling frequency restoration section, wherein the sampling frequency is restored to the predetermined value when the reduced value RoF signal is received through the optical fiber and an aliasing noise generated in the restoration of the sampling frequency is removed. 8. A method for operating a distributed radio communication base station system, wherein the system comprises: a base band unit (BBU); a remote radio unit (RRU); and an optical fiber connecting the BBU and the RRU, the method comprising: using a sampling frequency converter section to reduce a sampling frequency of an RoF signal that is transmitted through the optical fiber from a predetermined value according to an allocated band of a radio signal at one of the BBU and RRU; receiving the reduced sampling frequency RoF signal through the optical fiber at the other of the BBU and RRU; using a sampling frequency restorer section to restore the sampling frequency to the predetermined value at the other of the BBU and RRU; and removing an aliasing noise generated in the restoration of the sampling frequency to the predetermined value at the other of the BBU and RRU. 9. The method for operating a distributed radio communication base station system according to claim 8 , further comprising stopping a reduced value RoF transmission when a no signal section in the reduced value RoF signal transmitted through the optical fiber is detected at the other of the BBU and RRU. 10. The distributed radio communication base station system according to claim 2 , wherein one of the BBU and RRU has a transmission approval/disapproval function that detects a no signal section of a signal transmitted through the optical fiber and stops the reduced value RoF transmission in the no signal section. 11. The distributed radio communication base station system according to claim 4 , wherein the reduced value RoF signal is transmitted from the RRU to the BBU, the BBU detects the no signal section of the reduced value RoF signal transmitted from the RRU to the BBU based on radio band information set in communication with a radio terminal, and the BBU instructs the RRU to stop RoF transmission in the no signal section. 12. The distributed radio communication base station system according to claim 1 , wherein the sampling frequency conversion section reduces the sampling frequency to a range wherein the aliasing noise component and the desired signal component do not overlap. 13. A base band unit (BBU) of a distributed radio communication base station system according to claim 6 , wherein the sampling frequency conversion section reduces the sampling frequency to a range wherein the aliasing noise component and the desired signal component do not overlap. 14. A remote radio unit (RRU) of a distributed radio communication base station system, according to claim 7 , wherein the sampling frequency conversion section reduces the sampling frequency to a range wherein the aliasing noise component and the desired signal component do not overlap. 15. The method for operating a distributed radio communication base station system according to claim 8 , wherein the sampling frequency is reduced to a range wherein the aliasing noise component and the desired signal component do not overlap. 16. The distributed radio communication base station system according to claim 1 , wherein the sampling frequency conversion section reduces the sampling frequency to one fourth, further comprising a filter to remove aliasing noise to obtain a desired signal component. 17. A base band unit (BBU) of a distributed radio communication base station system according to claim 6 , wherein the sampling frequency conversion section reduces the sampling frequency to one fourth, further comprising a filter to remove aliasing noise to obtain a desired signal component. 18. A remote radio unit (RRU) of a distributed radio communication base station system, according to claim 7 , wherein the sampling frequency conversion section reduces the sampling frequency to one fourth, further comprising a filter to remove aliasing noise to obtain a desired signal component. 19. The method for operating a distributed radio communication base station system according to claim 8 , wherein the sampling frequency is reduced to one