Optical transceiver and method for automatically setting wavelength thereof

What is claimed is: 1 . An optical transceiver comprising: a receiver configured to receive an optical signal; a transmitter configured to transmit the optical signal; and a controller configured to perform an automatic wavelength setting operation with another optical transceiver by: controlling the transmitter to sequentially generate a plurality of optical transmission signals having different wavelengths, wherein each of the plurality of optical transmission signals includes first transmission wavelength information indicating a wavelength of the respective optical transmission signal; controlling the receiver to receive an optical response signal from the other optical transceiver, the optical response signal including second transmission wavelength information of the other optical transceiver and reception wavelength information indicating a wavelength received by the other optical transceiver; and analyzing the second transmission wavelength information and the reception wavelength information to identify a transmittable wavelength and a receivable wavelength. 2 . The optical transceiver of claim 1 , wherein only one among the plurality of optical transmission signals having the different wavelengths is transmitted to the other optical transceiver by a MUX/DEMUX connected between the optical transceiver and the other optical transceiver. 3 . The optical transceiver of claim 1 , wherein the controller is further configured to control the transmitter and the receiver to form an optical link based on the identified transmittable and receivable wavelengths. 4 . The optical transceiver of claim 1 , wherein the plurality of optical transmission signals and the optical response signal are transmitted and received through a channel separated from a data channel used for transmitting and receiving payload data. 5 . An optical communication system comprising: a first optical transceiver configured to sequentially generate a plurality of optical transmission signals of different wavelengths, each optical transmission signal including wavelength information about a wavelength of the optical transmission signal; and a second optical transceiver configured to receive one of the plurality of optical transmission signals, which is selected by a port of a first multiplexer/demultiplexer connected to the first optical transceiver, through a second multiplexer/demultiplexer connected to the first multiplexer/demultiplexer, to identify a reception wavelength for communication with the first optical transceiver based on wavelength information included in the one of the plurality of optical transmission signals, and to generate an optical response signal including reception wavelength information and information on a transmission wavelength among a plurality of wavelengths and output the generated optical response signal to the first optical transceiver, wherein the first optical transceiver is configured to receive the optical response signal and analyze the reception wavelength information and the information on the transmission wavelength in the optical response signal to identify a transmittable wavelength and a receivable wavelength. 6 . The optical communication system of claim 5 , wherein the first optical transceiver is further configured to form an optical link based on the identified transmittable and receivable wavelengths. 7 . The optical communication system of claim 5 , wherein the plurality of optical transmission signals and the optical response signal are transmitted and received through a channel separated from a data channel used for transmitting and receiving payload data.