Signal processing device, optical communication system, and signal processing method

What is claimed is: 1. A signal processing device comprising: a first dispersion compensation unit that is implemented by an optical device and that is configured to perform dispersion compensation, using an optical method, on signal light on which polarization multiplexing and quadrature amplitude modulation are performed and which is transmitted through a transmission channel, an electrical signal generation unit that is implemented by an optoelectrical/photoelectric device and that is configured to generate an electrical signal based on the signal light; a first non-linear compensation unit that is implemented by the optoelectrical/photoelectric device and that is configured to perform a phase rotation compensation process on the electrical signal; and a distortion compensation unit that is implemented by the optoelectrical/photoelectric device and that is configured to perform a dispersion compensation process and a non-linear compensation process in this order, at least once, on the electrical signal after having compensation performed thereon by the first non-linear compensation unit; wherein a sum of an amount of dispersion compensation performed by the first dispersion compensation unit and an amount of dispersion compensation performed by the distortion compensation unit is set to be equal to an amount of dispersion which is received by the signal light in the transmission channel and measured or calculated in advance. 2. The signal processing device according to claim 1 , wherein the electrical signal generation unit includes: an interference unit that is implemented by the optical device and that is configured to generate four pieces of output light by causing the signal light and local light to interfere with each other; a photoelectric conversion unit that is implemented by the optoelectrical/photoelectric device and that is configured to photoelectrically convert the four pieces of output light to generate four analog signals; an analog-digital conversion unit that is implemented by the optoelectrical/photoelectric device and that is configured to convert the four analog signals into four digital signals; and a polarized signal generation unit that is implemented by the optoelectrical/photoelectric device and that is configured to generate two polarized signals corresponding to two polarization components of the signal light, as the electrical signal, from the four digital signals. 3. The signal processing device according to claim 1 , wherein the distortion compensation unit is further configured to perform the dispersion compensation process and the non-linear compensation process in this order, at least once, and then to perform an additional dispersion compensation process. 4. An optical communication system comprising: an optical transmitter configured to transmit an optical signal; and an optical receiver configured to receive the optical signal through a transmission channel, wherein the optical transmitter includes an optical signal generation unit that is implemented by a first optoelectrical device and that is configured to generate the optical signal by performing polarization multiplexing and quadrature amplitude modulation on light, one of the optical transmitter and the optical receiver includes a first dispersion compensation unit that is implemented by an optical device and that is configured to perform dispersion compensation on the signal light using an optical method, and the optical receiver includes: an electrical signal generation unit that is implemented by a second optoelectrical device and that is configured to generate an electrical signal based on the signal light after having compensation performed thereon by the first dispersion compensation unit, a first non-linear compensation unit that is implemented by the second optoelectrical device and that is configured to perform a phase rotation compensation process on the electrical signal, and at least one distortion compensation unit that is implemented by the second optoelectrical device and that is configured to perform a dispersion compensation process and a non-linear compensation process in this order, on the electrical signal after having compensation performed thereon by the first non-linear compensation unit, wherein a sum of an amount of dispersion compensation performed by the first dispersion compensation unit and an amount of dispersion compensation performed by the at least one distortion compensation unit is set to be equal to an amount of dispersion which is received by the signal light in the transmission channel and measured or calculated in advance. 5. An optical communication system comprising: an optical transmitter configured to transmit an optical signal; and an optical receiver configured to receive the optical signal through a transmission channel, wherein the optical transmitter includes: a first dispersion compensation unit that is implemented by an electrical circuit and that is configured to perform a dispersion compensation process on a signal before being converted into the optical signal, and an optical signal generation unit that is implemented by a first optoelectrical device and that is configured to generate the optical signal by modulating light using the signal after having compensation performed thereon by the first dispersion compensation unit, and the optical receiver includes an electrical signal generation unit that is implemented by a second optoelectrical device and that is configured to generate an electrical signal based on the signal light, a first non-linear compensation unit that is implemented by the second optoelectrical device and that is configured to perform a phase rotation compensation process on the electrical signal, and at least one distortion compensation unit that is implemented by the second semiconductor device and that is configured to perform a dispersion compensation process and a non-linear compensation process in this order, on the electrical signal after having compensation performed thereon by the first non-linear compensation unit; wherein a sum of an amount of dispersion compensation performed by the first dispersion compensation unit and an amount of dispersion compensation performed by the at least one distortion compensation unit is set to be equal to an amount of dispersion which is received by the signal light in the transmission channel and measured or calculated in advance.