Transmission apparatus and transmission system

What is claimed is: 1. A transmission apparatus comprising: a waveform shaper that performs spectrum correction on an optical signal converted from an electrical signal encoded by OFDM (Orthogonal Frequency Division Multiplexing); a converter that converts the optical signal on which the waveform shaper has performed the spectrum correction, into the electrical signal; and a nonlinear compensator that compensates for a nonlinear distortion with respect to the electrical signal converted by the converter. 2. The transmission apparatus as claimed in claim 1 , wherein the waveform shaper removes at least a part of a spectrum component in one of sidebands of the optical signal to perform the spectrum correction. 3. The transmission apparatus as claimed in claim 2 , further comprising: a transmission characteristic measurer that measures a transmission characteristic of the optical signal; and a calculator that calculates a parameter relating to a transmission distance of the optical signal from a result of the measurement; wherein the waveform shaper switches to any one of an operation that removes at least the part of the spectrum component in one of the sidebands of the optical signal and an operation that transmits all bands of the optical signal, depending on the parameter. 4. The transmission apparatus as claimed in claim 1 , wherein the nonlinear compensator is a digital filter based on a polynomial structure of a Volterra series. 5. A transmission system comprising: a first transmission apparatus that transmits an optical signal; and a second transmission apparatus that receives the optical signal; the first transmission apparatus including: a generator that generates an OFDM (Orthogonal Frequency Division Multiplexing) signal; a first converter that converts the OFDM signal into the optical signal; and a waveform shaper that performs spectrum correction on the optical signal converted by the first converter; the second transmission apparatus including: a second converter that converts the optical signal on which the waveform shaper has performed the spectrum correction, into the OFDM signal; and a nonlinear compensator that compensates for a nonlinear distortion with respect to the OFDM signal acquired by the conversion of the second converter. 6. The transmission system as claimed in claim 5 , wherein the waveform shaper removes at least a part of a spectrum component in one of sidebands of the optical signal to perform the spectrum correction. 7. The transmission system as claimed in claim 6 , wherein the second transmission apparatus further includes an error rate measurer that measures an error rate of the optical signal, and the first transmission apparatus further includes a power controller that controls a power of the optical signal acquired by the conversion of the first converter based on the error rate measured by the error rate measurer. 8. The transmission system as claimed in claim 7 , wherein the power controller controls the power of the optical signal so as to be a minimum value in a range that the error rate is equal to or less than a threshold value. 9. The transmission system as claimed in claim 6 , wherein the first transmission apparatus further includes a first optical amplifier that amplifies the OFDM signal converted into the optical signal by the first converter before the waveform shaper performs the spectrum correction, the waveform shaper is a first filter that removes at least the part of the spectrum component in one of the sidebands of the optical signal, the second transmission apparatus further includes: a second optical amplifier that amplifies the optical signal before the optical signal is converted into the OFDM signal by the second converter; and a second filter that removes at least a part of a spectrum component in one of sidebands of the optical signal amplified by the second optical amplifier. 10. The transmission system as claimed in claim 6 , wherein the second transmission apparatus further including: a transmission characteristic measurer that measures a transmission characteristic of the optical signal; and a calculator that calculates a parameter relating to a transmission distance of the optical signal from a result of the measurement; wherein the waveform shaper switches to any one of an operation that removes at least the part of the spectrum component in one of the sidebands of the optical signal and an operation that transmits all bands of the optical signal, depending on the parameter. 11. The transmission system as claimed in claim 5 , wherein the nonlinear compensator is a digital filter based on a polynomial structure of a Volterra series. 12. A transmission system comprising: a first transmission apparatus that transmits an optical signal; and a second transmission apparatus that receives the optical signal; the first transmission apparatus including: a generator that generates an OFDM (Orthogonal Frequency Division Multiplexing) signal; and a first converter that converts the OFDM signal into the optical signal; the second transmission apparatus including: a waveform shaper that performs spectrum correction on the optical signal transmitted from the first transmission apparatus; a second converter that converts the optical signal on which the waveform shaper has performed the spectrum correction, into the OFDM signal; and a nonlinear compensator that compensates for a nonlinear distortion with respect to the OFDM signal acquired by the conversion of the second converter. 13. The transmission system as claimed in claim 12 , wherein the waveform shaper removes at least a part of a spectrum component in one of sidebands of the optical signal to perform the spectrum correction. 14. The transmission system as claimed in claim 13 , wherein the second transmission apparatus further including: a transmission characteristic measurer that measures a transmission characteristic of the optical signal; and a calculator that calculates a parameter relating to a transmission distance of the optical signal from a result of the measurement; wherein the waveform shaper switches to any one of an operation that removes at least the part of the spectrum component in one of the sidebands of the optical signal and an operation that transmits all bands of the optical signal, depending on the parameter. 15. The transmission system as claimed in claim 12 , wherein the nonlinear compensator is a digital filter based on a polynomial structure of a Volterra series.