Transmission apparatus and transmission method

What is claimed is: 1. A transmission apparatus configured to transmit an optical signal to another apparatus, the transmission apparatus comprising: a first modulator configured to modulate a first electrical signal to a second electrical signal that is a multicarrier signal including a plurality of subcarriers to which transmission capacities are allocated, respectively; a light source configured to generate light having a predetermined wavelength; a second modulator configured to modulate the light generated by the light source to the optical signal, based on the second electrical signal modulated by the first modulator; and a processor configured to: measure a first frequency distribution of intensity of the second electrical signal after the second electrical signal has been modulated by the first modulator, measure a second frequency distribution of intensity of the optical signal modulated by the second modulator, compare the first frequency distribution and the second frequency distribution, and control modulation characteristics of the second modulator according to a result of comparing the first frequency distribution and the second frequency distribution. 2. The transmission apparatus according to claim 1 , further comprising: an amplifier configured to amplify the second electrical signal, wherein the processor is configured to control amplification characteristics of the amplifier according to a result of comparing the first frequency distribution and the second frequency distribution. 3. The transmission apparatus according to claim 1 , further comprising: an amplifier configured to amplify the second electrical signal, wherein the processor is configured to measure the first frequency distribution of intensity of the second electrical signal before the second signal is amplified by the amplifier, measure a third frequency distribution of intensity of the second electrical signal amplified by the amplifier, compare the first frequency distribution of intensity of the second electrical signal before the second signal is amplified by the amplifier and the third frequency distribution of intensity of the second electrical signal amplified by the amplifier, and control amplification characteristics of the amplifier according to a result of comparing the first frequency distribution of intensity of the second electrical signal before the second signal is amplified by the amplifier and the third frequency distribution of intensity of the second electrical signal amplified by the amplifier. 4. The transmission apparatus according to claim 1 , further comprising: a nonlinear compensator configured to compensate nonlinear distortion for the second electrical signal, wherein the second modulator is configured to modulate the light generated by the light source to the optical signal, based on the second electrical signal compensated by the nonlinear distortion, and wherein the processor is configured to control compensation characteristics of the nonlinear compensator according to the result of comparing the first frequency distribution and the second frequency distribution. 5. The transmission apparatus according to claim 1 wherein the processor is configured to: compare the first frequency distribution and a fourth frequency distribution of intensity of an optical signal received by the another apparatus, and control modulation characteristics of the second modulator according to a result of comparing the first frequency distribution and the fourth frequency distribution. 6. The transmission apparatus according to claim 5 , further comprising: an amplifier configured to amplify the second electrical signal, wherein the processor is configured to control amplification characteristics of the amplifier according to a result of comparing the first frequency distribution and the fourth frequency distribution. 7. A transmission method of a transmission apparatus to transmit an optical signal from the transmission apparatus to another apparatus, the transmission method comprising: modulating a first electrical signal to a second electrical signal that is a multicarrier signal including a plurality of subcarriers to which transmission capacities are allocated, respectively, by a first modulator; modulating a light having a predetermined wavelength to an optical signal, based on the second electrical signal, by a second modulator; measuring a first frequency distribution of intensity of the second electrical signal after the second electrical signal has been modulated by the first modulator, by a processor; measuring a second frequency distribution of intensity of the optical signal modulated by the second modulator, by the processor; comparing the first frequency distribution and the second frequency distribution, by the processor; and controlling modulation characteristics of the second modulator according to a result of comparing the first frequency distribution and the second frequency distribution, by the processor. 8. The transmission method according to claim 7 , further comprising: amplifying the second electrical signal, by an amplifier, wherein the processor controls amplification characteristics of the amplifier according to a result of comparing the first frequency distribution and the second frequency distribution. 9. The transmission method according to claim 7 , wherein the processor measures the first frequency distribution of intensity of the second electrical signal before the second signal is amplified by the amplifier, measures a third frequency distribution of intensity of the second electrical signal amplified by the amplifier, compares the first frequency distribution of intensity of the second electrical signal before the second signal is amplified by the amplifier and the third frequency distribution of intensity of the second electrical signal amplified by the amplifier, and controls amplification characteristics of the amplifier according to a result of comparing the first frequency distribution of intensity of the second electrical signal before the second signal is amplified by the amplifier and the third frequency distribution of intensity of the second electrical signal amplified by the amplifier. 10. The transmission method according to claim 7 , further comprising: compensating nonlinear distortion for the second electrical signal, by a nonlinear compensator, wherein the second modulator modulates the light to the optical signal, based on the second electrical signal compensated by the nonlinear distortion, and wherein the processor controls compensation characteristics of the nonlinear compensator according to the result of comparing the first frequency distribution and the second frequency distribution. 11. The transmission method according to claim 7 , wherein the processor: compares the first frequency distribution and a fourth frequency distribution of intensity of an optical signal received by the another apparatus, and controls modulation characteristics of the second modulator according to a result of comparing the first frequency distribution and the fourth frequency distribution.