Optical transmission device and control method therefor

What is claimed is: 1. An optical transmission device comprising: an optical modulator configured to include a first waveguide and a second waveguide, each of the first waveguide and the second waveguide modulating carrier light by using a modulation drive signal having multiple intensity levels; a phase shifter configured to provide a predetermined phase difference between a first optical signal output from the first waveguide and a second optical signal output from the second waveguide; a photodetector configured to detect a portion of a multilevel optical signal acquired by multiplexing the first optical signal and the second optical signal between which the phase difference is provided, and apply photoelectric conversion to the portion; and a first controller configured to provide a first bias voltage and a second bias voltage to the first waveguide and the second waveguide, respectively, based on an output signal from the photodetector, wherein the first controller comprises: a signal amplitude detector configured to receive an output of the photodetector and output signal amplitude information of the output of the photodetector; and a second controller configured to input the signal amplitude information and correcting at least one of the first bias voltage to be provided to the first waveguide and the second bias voltage to be provided to the second waveguide, based on a quadrature state between the first waveguide and the second waveguide of the optical modulator, the quadrature state being represented by the signal amplitude information. 2. The optical transmission device according to claim 1 , wherein the first controller further comprises: an oscillator configured to output a signal having a predetermined relatively low frequency; and a bias circuit configured to superimpose the signal output from the oscillator on a direct-current voltage to generate the first bias voltage and the second bias voltage, wherein the signal amplitude detector comprises envelope detector configured to detect an envelope of a signal input into the signal amplitude detector, and wherein the second controller extracts a signal component output from the oscillator by using an envelope detection signal from the envelope detector, and corrects one or both of the first bias voltage and the second bias voltage, based on information about at least one of intensity or a phase of the extracted signal component output from the oscillator. 3. The optical transmission device according to claim 1 , wherein the signal amplitude detector further comprises an RMS detector configured to generate a root mean square value of a signal input into the signal amplitude detector, and the second controller further inputs the root mean square value from the RMS detector and limits changes in an output of one or both of the first bias voltage and the second bias voltage, based on the root mean square value. 4. The optical transmission device according to claim 2 , wherein the signal amplitude detector further comprises an RMS detector configured to generate a root mean square value of a signal input into the signal amplitude detector; the second controller inputs the root mean square value from the RMS detector in addition to the envelope detection signal from the envelope detector; and at least one of information about intensity or a phase of the envelope detection signal and the root mean square value is used at the phase shifter to control a phase between a first optical signal output from the first waveguide and a second optical signal output from the second waveguide. 5. The optical transmission device according to claim 4 , wherein the bias circuit further generates a third bias voltage by superimposing an output signal of the oscillator onto a direct-current voltage and the third bias voltage is provided to the phase shifter. 6. The optical transmission device according to claim 4 , wherein the first controller further comprises: an amplifier configured to receive an output signal of the photodetector; a filter configured to receive an output of the amplifier and selectively pass a signal having a predetermined frequency; a first synchronous detector configured to synchronously detect a signal that has passed through the filter; and second synchronous detector configured to synchronously detect the envelope detection signal from the envelope detector, wherein the signal amplitude detector inputs an output signal of the amplifier, and wherein the second controller comprises: a noise component detector configured to input the root mean square value from the RMS detector and the envelope detection signal synchronously detected by the second synchronous detector, and output a noise component signal; a noise removing circuit configured to input an output from the first synchronous detector as a control signal for generating a bias voltage, input the noise component signal from the noise component detector, remove noise from the control signal and providing the control signal to the bias circuit; and a quadrature skew detector configured to provide a signal resulting from filtering of a noise component signal generated by the noise component detector, based on the envelope detection signal to the bias circuit. 7. The optical transmission device according to claim 6 , wherein the first controller further comprises a time-division circuit configured to superimpose a signal from the oscillator onto at least the first bias voltage and the second bias voltage from the bias circuit and providing a resulting signal to the first waveguide and the second waveguide in a time-division manner. 8. A method of controlling an optical transmission device, the method performing control to: separately modulate light propagating through a first waveguide of an optical modulator and light propagating through a second waveguide of the optical modulator by using a modulation drive signal having multiple intensity levels; provide a predetermined phase difference between a first optical signal output from the first waveguide and a second optical signal output from the second waveguide; detect a portion of a multilevel optical signal acquired by multiplexing the first optical signal and the second optical signal between which the phase difference is provided and apply photoelectric conversion to the portion; and provide a bias voltage to the optical modulator, based on a signal resulting from the photoelectric conversion, wherein the method comprises: acquiring signal amplitude information of the signal resulting from the photoelectric conversion, and correcting at least one of a first bias voltage to be provided to the first waveguide and a second bias voltage to be provided to the second waveguide, based on a quadrature state between the first waveguide and the second waveguide, the quadrature state being represented by the signal amplitude information. 9. The method of controlling an optical transmission device according to claim 8 , comprising: generating a predetermined signal having a predetermined relatively low frequency; superimposing the generated signal having the relatively low frequency to a direct-current voltage to generate the first bias voltage and the second bias voltage; performing envelope detection to acquire an envelope detection signal from the signal resulting from photoelectric conversion; and extracting a signal component of the signal having the relatively low frequency by using the envelope detection signal, and correcting one or both of the first bias voltage and the second bias voltage, based on information about at least one