Optical transmitter, optical receiver, method of compensating non-linear distortion, and communication apparatus

What is claimed is: 1. An optical transmitter comprising: a digital signal processor (DSP) configured to: perform a predetermined non-linear distortion calculation on a combination of possible amplitude components of a transmission signal, the possible amplitude components being caused being changed depending on a multivalued level and non-linear effect of the transmission signal; subtract the resultant non-linear distortion calculation from the transmission signal to preliminarily compensate the non-linear distortion of the transmission signal; re-map a transmission signal with a first multivalued level to a transmission signal with a second multivalued level lower than the first multivalued level; apply the re-mapped transmission signal with the second multivalued level into the predetermined non-linear distortion calculation; a digital-analog converter (DAC) configured to convert the signal with the first multivalued level compensated the non-linear distortion as a digital signal by the DSP into a analog signal; and an output port configured to output the analog signal converted by the DAC. 2. The optical transmitter according to claim 1 , the DSP configured: to generate the signal with the first multivalued level by mapping transmission binary data to electric field information, and to generate the signal with the second multivalued level from the transmission binary data by using the transmission binary data before the mapping to the electric field information as the transmission signal. 3. The optical transmitter according to claim 1 , the DSP configured: to generate a signal with the first multivalued level by mapping transmission binary data to electric field information, and to generate the signal with the second multivalued level from the signal with the first multivalued level by using the signal with the first multivalued signal obtained by mapping the transmission binary data to the electric field information as the transmission signal. 4. The optical transmitter according to claim 1 , wherein the non-linear distortion is non-linear distortion occurred in accordance with the non-linear effect of an optical transmission line or a wireless transmission line through which the signal with the first multivalued level is transmitted. 5. The optical transmitter according to claim 1 , wherein the non-linear distortion is non-linear distortion occurred in accordance with the non-linear effect of an optical device or an electric device related to transmission of the signal with the first multivalued level. 6. A communication apparatus comprising: the optical transmitter according to claim 1 . 7. A method of compensating non-linear distortion comprising: performing, by a digital signal processor (DSP), a predetermined non-linear distortion calculation on a combination of possible amplitude components of a transmission signal, the possible amplitude components being caused being changed depending on a multivalued level and non-linear effect of the transmission signal; subtracting, by the DSP, the resultant non-linear distortion calculation from the transmission signal to preliminarily compensate the non-linear distortion of the transmission signal; re-mapping, by the DSP, a transmission signal with a first multivalued level to a transmission signal with a second multivalued level lower than the first multivalued level; applying, by the DSP, the re-mapped transmission signal with the second multivalued level into the predetermined non-linear distortion calculation; converting, by a digital-analog converter (DAC), the signal with the first multivalued level compensated the non-linear distortion as a digital signal by the DSP into a analog signal; and outputing, through an output port, the analog signal converted by the DAC. 8. An optical receiver comprising: a local oscillation light source configured to generate local light; an optical front end configured to demodulate and photoelectrically-covert the signal with the first multivalued level using the local light of the local oscillation light source; an analog-digital converter (ADC) configured to convert the signal with the first multivalued level photoelectrically-coverted by the optical front end into a digital signal; and a digital signal processor (DSP) configured to: perform a predetermined non-linear distortion calculation on a combination of possible amplitude components of a reception signal, the possible amplitude components being caused being changed depending on a multivalued level and non-linear effect of the reception signal; subtract the resultant non-linear distortion calculation from the reception signal to preliminarily compensate the non-linear distortion of the reception signal; re-map a reception signal with a first multivalued level to a reception signal with a second multivalued level lower than the first multivalued level; apply the re-mapped reception signal with the second multivalued level into the predetermined non-linear distortion calculation. 9. The optical receiver according to claim 8 , wherein the reception signal is the signal with the first multivalued level received through a transmission line.