Optical transmission apparatus and optical transmission method

What is claimed is: 1. An optical transmission apparatus, comprising: a receiver configured to receive a wavelength division multiplexing optical signal including a first optical signal modulated based on a first modulation system and a second optical signal modulated based on a second modulation system with a higher multi-level degree than the first modulation system; a wavelength selective switch configured to attenuate power of the first optical signal to a first level and attenuate power of the second optical signal to a second level lower than the first level; an optical amplifier configured to amplify the wavelength division multiplexing optical signal including the first optical signal and the second optical signal output from the wavelength selective switch; and a transmitter configured to transmit the wavelength division multiplexing optical signal amplified by the optical amplifier. 2. The optical transmission apparatus according to claim 1 , further comprising: a processor configured to control the wavelength selective switch in such a manner that power of the wavelength division multiplexing optical signal to be input to the optical amplifier comes close to an upper-limit level determined based on characteristics of the optical amplifier. 3. The optical transmission apparatus according to claim 2 , further comprising: an optical channel monitor configured to measure the power of the first optical signal and the power of the second optical signal, wherein the processor is configured to: receive a measurement result of the power of the first optical signal and the power of the second optical signal from the optical channel monitor, and transmit an instruction for adjusting the power of the first optical signal and the power of the second optical signal to the wavelength selective switch based on the received measurement result. 4. The optical transmission apparatus according to claim 2 , wherein the processor is configured to: control the wavelength selective switch and the optical amplifier in such a manner that the power of the first optical signal to be input to an optical fiber comes close to a first target level and the power of the second optical signal to be input to the optical fiber comes close to a second target level lower than the first target level, and determine a third target level and a fourth target level lower than the third target level by difference between the first target level and the second target level, and the wavelength selective switch is configured to: attenuate the power of the first optical signal to the third target level, and attenuate the power of the second optical signal to the fourth target level. 5. The optical transmission apparatus according to claim 4 , wherein the processor is configured to determine a target gain of the optical amplifier based on difference between the first target level and the third target level or difference between the second target level and the fourth target level, and the optical amplifier is configured to amplify the wavelength division multiplexing optical signal output from the wavelength selective switch by the target gain. 6. The optical transmission apparatus according to claim 4 , wherein the processor is configured to determine the third target level by dividing the upper-limit level by the number of optical signals included in the wavelength division multiplexing optical signal to be input to the optical amplifier. 7. The optical transmission apparatus according to claim 2 , wherein the processor is configured to correct the second target level based on quality of the second optical signal measured at a node that receives the wavelength division multiplexing optical signal. 8. The optical transmission apparatus according to claim 2 , wherein the processor is configured to determine the second target level based on transmission distance between the optical transmission apparatus and an adjacent node that receives the wavelength division multiplexing optical signal. 9. The optical transmission apparatus according to claim 2 , wherein the processor is configured to determine the second target level according to whether or not Raman amplification is carried out at an adjacent node that receives the wavelength division multiplexing optical signal. 10. An optical transmission method executed by an optical transmission apparatus, the optical transmission method comprising: receiving, by a receiver, a wavelength division multiplexing optical signal including a first optical signal modulated based on a first modulation system and a second optical signal modulated based on a second modulation system with a higher multi-level degree than the first modulation system; attenuating, by a wavelength selective switch, power of the first optical signal to a first level and attenuating power of the second optical signal to a second level lower than the first level; amplifying, by an optical amplifier, the wavelength division multiplexing optical signal including the first optical signal and the second optical signal output from the wavelength selective switch; and transmitting, by a transmitter, the wavelength division multiplexing optical signal amplified by the optical amplifier. 11. The optical transmission method according to claim 10 , further comprises controlling, by a processor, the wavelength selective switch in such a manner that power of the wavelength division multiplexing optical signal to be input to the optical amplifier comes close to an upper-limit level determined based on characteristics of the optical amplifier. 12. The optical transmission method according to claim 10 , further comprises: measuring, by an optical channel monitor, the power of the first optical signal and the power of the second optical signal, receiving, by the processor, a measurement result of the power of the first optical signal and the power of the second optical signal from the optical channel monitor, and transmitting, by the processor, an instruction for adjusting the power of the first optical signal and the power of the second optical signal to the wavelength selective switch based on the received measurement result. 13. The optical transmission method according to claim 11 , further comprises: correcting, by the processor, the second target level based on quality of the second optical signal measured at a node that receives the wavelength division multiplexing optical signal.