Optical transmission system and optical transmission method

The invention claimed is: 1. An optical transmission system comprising: a first and a second client IF (Interface) unit, the first client IF unit being provided in a first relay to which a communication terminal is connected and the second client IF unit being provided in a second relay to which the first relay is connected via a first optical transmission path, the first and second client IF unit being on opposite sides of the first optical transmission path, and the first and second client IF unit setting, in the first optical transmission path connecting the first and second relays, a plurality of optical lanes each having a different wavelength band, and a first and a second line IF unit, the first line IF unit being provided in the second relay and the second line IF unit being provided in another second relay to which the second relay is connected via a second optical transmission path, the first and second line IF unit being on opposite sides of the second optical transmission path, and the first and second line IF unit setting, in the second optical transmission path connecting the second relays, a plurality of optical lanes each having a different wavelength band, the optical transmission system configured to perform processing for changing a band of the second optical transmission path in a line IF section by the first and second line IF unit that relay a signal transmitted through the first optical transmission path in a client IF section by the first and second client IF unit, wherein the first line IF unit on a transmission end and the second line IF unit on a receiving end each comprise a processing unit, including one or more processors, the first line IF unit on the transmission end configured to set a temporary evacuation lane as an optical lane having a band different from those of the plurality of optical lanes in the second optical transmission path in the line IF section, the second line IF unit on the receiving end configured to select either a change-target optical lane or the temporary evacuation lane, the change-target optical lane being provided in the second optical transmission path in the line IF section and having a band to be changed to a same band as a band in the client IF section, while causing a buffer unit to absorb a delay difference between a signal received by the change-target optical lane and a signal received by the temporary evacuation lane, and the first line IF unit on the transmission end configured to set the optical lane not selected to have the same band as the band in the client IF section. 2. The optical transmission system according to claim 1 , wherein the first line IF unit on the transmission end further includes a copy unit, including one or more processors, configured to copy a transmitted signal directed to the optical transmission path in the line IF section, wherein the processing unit of the second line IF unit on the receiving end is configured to set a holding area in the buffer unit in the second line IF unit on the receiving end, the holding area configured to hold a signal data amount corresponding to signal data that is transmitted during a delay difference between a signal received by the change-target optical lane and a signal received by the temporary evacuation lane to absorb the delay difference, wherein the processing unit in the first line IF unit on the transmission end is configured to transmit the transmitted signal which has been copied by the copy unit to the temporary evacuation lane to which a same band as that in the client IF section has been set and the processing unit in the second line IF unit on the receiving end is configured to select, after the transmitted signal has been received by the second line IF unit on the receiving end, the signal received from the temporary evacuation lane via the buffer unit in which the holding area is set, and wherein the processing unit in the first line IF unit on the transmission end is configured to transmit a signal whose transmission speed is increased or decreased after the band of the change-target optical lane has been set to the same band as that in the client IF section and the processing unit in the second line IF unit on the receiving end is configured to select, after the transmitted signal has been received by the second line IF unit on the receiving end, the signal received from the change-target optical lane via the buffer unit in which the holding area is set. 3. The optical transmission system according to claim 1 , wherein the processing unit in each of the first and second line IF unit is configured to perform processing for turning off a power supply to the temporary evacuation lane after the signal from the change-target optical lane has been selected. 4. An optical transmission system comprising: a first and a second client IF unit, the first client IF unit being provided in a first relay to which a communication terminal is connected and the second client IF unit being provided in a second relay to which the first relay is connected via a first optical transmission path, the first and second client IF unit being on opposite sides of the first optical transmission path, and the first and second client IF unit setting, in the first optical transmission path connecting the first and second relays, a plurality of optical lanes each having a different wavelength band, and a first and a second line IF unit, the first line IF unit being provided in the second relay and the second line IF unit being provided in another second relay to which the second relay is connected via a second optical transmission path, the first and second line IF unit being on opposite sides of the second optical transmission path, and the first and second line IF unit setting, in the second optical transmission path connecting the second relays, a plurality of optical lanes each having a different wavelength band, the optical transmission system configured to perform processing for changing a band of the second optical transmission path in a line IF section by the first and second line IF unit that relay a signal transmitted through the first optical transmission path in a client IF section by the first and second client IF unit, wherein the second relay on a transmission end and the another second relay on a reception end comprises: a transmission buffer in the second relay on the transmission end configured to hold a signal transmitted from the first client IF unit in the first relay, in the second client IF unit in the second relay, a reception buffer in the another second relay on the reception end configured to hold a signal received by the second line IF unit via the line IF section, and a processing unit in the second relay on the transmission end, including one or more processors, configured to hold the signal transmitted from the first relay in the transmission buffer for a period of synchronization time needed for synchronizing the transmission end and the reception end when switching to a communication mode in which a modulation method and an error correction method are combined, the communication mode corresponding to an individual one of bands of optical lanes set in the second optical transmission path in the line IF section, and a processing unit on the another second relay on the reception end, including one or more processors, configured to perform synchronization processing for stopping a test signal corresponding to the communication mode at the reception buffer after receiving the test signal via the line IF section. 5. The optical transmission system according to claim 4 , wherein the second relay further comprises a control unit, including one or more processors, configured to set, in setting tables, synchronization time measured by the synchronization processing that is performed after