Optical branch insertion device and optical transmission system using optical branch insertion device

The invention claimed is: 1. An optical add/drop multiplexer configured to drop or add an optical signal between the optical add/drop multiplexer and a transponder connected with a communication terminal, the optical signal being transmitted by wavelength division multiplexing to a light transmission path included in a communication network, the optical add/drop multiplexer comprising: a cyclic arrayed waveguide grating (cAWG) that includes a plurality of first side ports and a plurality of second side ports connected between the transponder and the light transmission path and in which a first channel interval of each of the first and second side ports is a plurality of times larger than a second channel interval of an optical signal input to and output from the transponder and optical signals of a plurality of different wavelengths from one or a plurality of transponders or the light transmission path can pass or transmit through a first channel, wherein the cAWG is configured to cause an optical signal output from each transponder to pass through the first channel at one of the first side ports, output and transmit the passing optical signal to the light transmission path in a cyclic relation determined in accordance with a corresponding second side port among the plurality of second side ports and the wavelength of the output optical signal from the transponder, cause the optical signal transmitted through the light transmission path to pass through the first channel at one of the second side ports, and output the passing optical signal to the transponder in a cyclic relation determined in accordance with the first side port among the plurality of first side ports and the wavelength of the output optical signal from the transponder; and a 1×N optical coupler that includes a port connectable with a port of the cAWG and includes ports connectable with a plurality of the transponders is connected between the cAWG and the transponder. 2. The optical add/drop multiplexer according to claim 1 , further comprising an optical switch (SW) unit, including one or more processors, configured to transmit or cut off, when the light transmission path includes a different light transmission path, an optical signal between the different light transmission path and the cAWG, wherein when the wavelength of a transponder signal as an optical signal from each transponder is changed to a different wavelength, the optical SW unit is configured to transmit the transponder signal of the changed wavelength to the different light transmission path. 3. The optical add/drop multiplexer according to claim 2 , wherein when a plurality of the cAWGs and a plurality of the transponders are provided, the optical SW unit is configured to transmit, to different light transmission paths, transponder signals having an identical wavelength, transmitted from different transponders, and having passed through the first channel at different cAWGs. 4. The optical add/drop multiplexer according to claim 2 , wherein the optical SW unit includes a wavelength selective switch (WSS) configured to perform multiplexing-demultiplexing of the wavelength of an optical signal transmitted to the light transmission path and path switching of the optical signal, and the cAWG is connected in parallel with the WSS. 5. The optical add/drop multiplexer according to claim 1 , wherein an optical amplifier is connected between the cAWG and the 1×N optical coupler. 6. The optical add/drop multiplexer according to claim 1 , wherein N ports of the 1×N optical coupler are connected with a multi carrier optical path transponder including a plurality of transmission ports and a plurality of reception ports, and the cAWG is connected with a single carrier optical path transponder. 7. A light transmission system comprising: an optical add/drop multiplexer configured to drop or add an optical signal between the optical add/drop multiplexer and a transponder connected with a communication terminal, the optical signal being transmitted by wavelength division multiplexing to a light transmission path included in a communication network, the optical add/drop multiplexer comprising: a cyclic arrayed waveguide grating (cAWG) that includes a plurality of first side ports and a plurality of second side ports connected between the transponder and the light transmission path and in which a first channel interval of each of the first and second side ports is a plurality of times larger than a second channel interval of an optical signal input to and output from the transponder and optical signals of a plurality of different wavelengths from one or a plurality of the transponders or the light transmission path can pass or transmit through a first channel, wherein the cAWG is configured to cause an optical signal output from each transponder to pass through the first channel at one of the first side ports, output and transmit the passing optical signal to the light transmission path in a cyclic relation determined in accordance with a corresponding second side port among the plurality of second side ports and the wavelength of the output optical signal from the transponder, cause the optical signal transmitted through the light transmission path to pass through the first channel at one of the second side ports, and output the passing optical signal to the transponder in a cyclic relation determined in accordance with the first side port among the plurality of first side ports and the wavelength of the output optical signal from the transponder; and a 1×N optical coupler that includes a port connectable with a port of the cAWG and includes ports connectable with a plurality of the transponders is connected between the cAWG and the transponder; and a monitoring control device separately connected with the optical add/drop multiplexer and configured to instruct optical path generation control and wavelength change control to the optical add/drop multiplexer, wherein the optical add/drop multiplexer includes a monitoring control unit, including one or more processors, configured to perform the instructed optical path generation control and wavelength change control to generate an optical path and change the wavelength of an optical signal in the optical add/drop multiplexer. 8. The light transmission system according to claim 7 , wherein the optical add/drop multiplexer includes a second optical coupler connected with a light transmission path and configured to bifurcate or connect an optical signal, and an optical amplifier connected with an input-output side of the second optical coupler, and when input power of the optical amplifier or the number of wavelength of an input optical signal deviates by a predetermined value or more from input power or the number of wavelength of an input optical signal at path generation control, which is instructed by the monitoring control device, the monitoring control unit is configured to perform control to stop output from a transponder that transmits and receives optical signals to and from the optical coupler. 9. The optical add/drop multiplexer according to claim 7 , further comprising an optical switch (SW) unit, including one or more processors, configured to transmit or cut off, when the light transmission path includes a different light transmission path, an optical signal between the different light transmission path and the cAWG, wherein when the wavelength of a transponder signal as an optical signal from each transponder is changed to a different wavelength, the optical SW unit is configured to transmit the transponder signal of the changed wavelength to the different light transmission path. 10. The optical add/drop multiplexer according to