Receiver, transmission system, method for receiving polarization multiplexed optical signal, and non-transitory computer readable medium storing receiver control program

The invention claimed is: 1. A receiver comprising: a reception front end that receives a polarization-scrambled polarization multiplexed optical signal, polarization-separates the received polarization multiplexed optical signal into first and second polarization components, and photoelectrically converts the first and second polarization components into first and second digital signals, respectively; a digital signal processor that samples the first and second digital signals, demodulates the first and second digital signals by using a polarization separation digital signal processing algorithm, and outputs first and second demodulated signals; and a control circuit that, when phase variations of the first and second demodulated signals or amplitude variations of the first and second demodulated signals are greater than a first predetermined value, causes the digital signal processor to interrupt processing using the polarization separation digital signal processing algorithm, changes an initial value of a filter coefficient used for the polarization separation digital signal processing algorithm, and then causes the digital signal processor to start the processing using the polarization separation digital signal processing algorithm. 2. The receiver according to claim 1 , wherein the polarization separation digital signal processing algorithm is a CMA algorithm. 3. The receiver according to claim 1 , wherein the digital signal processor includes a butterfly filter that receives the first and second digital signals, and the butterfly filter includes: first and second adders; a first FIR filter that outputs, to the first adder, a signal obtained by filtering the first digital signal; a second FIR filter that outputs, to the first adder, a signal obtained by filtering the second digital signal; a third FIR filter that outputs, to the second adder, a signal obtained by filtering the first digital signal; a fourth FIR filter that outputs, to the second adder, a signal obtained by filtering the second digital signal; and a polarization separation digital signal processing algorithm operation unit that monitors the first and second adders, and updates filter coefficients of the first to fourth FIR filters according to a monitoring result. 4. The receiver according to claim 1 , wherein the polarization multiplexed optical signal is polarization-multiplexed by a transmitter, and is polarization-scrambled by a polarization scrambler, and the polarization-scrambled polarization multiplexed optical signal is input to the receiver through a transmission line. 5. The receiver according to claim 1 , wherein When a difference between the phase variation of the first demodulated signal and the phase variation of the second demodulated signal or a difference between the amplitude variation of the demodulated signal and the amplitude variation of the second demodulated signal is greater than a second predetermined value, the control circuit causes the digital signal processor to interrupt the processing using the polarization separation digital signal processing algorithm, changes initial value of the filter coefficient used for the polarization separation digital signal processing algorithm, and then causes the digital signal processor to start the processing using the polarization separation digital signal processing algorithm. 6. The receiver according to claim 5 , wherein during an initial calculation step, the control circuit causes the digital signal processor to sample the first and second digital signals a plurality of times, calculates, for each sampling, phase variations of the first and second demodulated signals or amplitude variations of the first and second demodulated signals, and sets a minimum value of the calculated variations as the first predetermined value. 7. The receiver according to claim 6 , Wherein, during the initial calculation step,the control circuit calculates, for each sampling, a difference between the phase variation of the first demodulated signal and the phase variation of the second demodulated signal or a difference between the amplitude variation of the first demodulated signal and the amplitude variation of the second demodulated signal, and sets a minimum value of the calculated difference as the second predetermined value. 8. A transmission system comprising: a transmitter that outputs a polarization multiplexed optical signal; a polarization scrambler that polarization-scrambles the polarization multiplexed optical signal; a transmission line through which the polarization-scrambled polarization multiplexed optical signal is propagated; and a receiver that receives the polarization-scrambled polarization multiplexed optical signal through the transmission line, wherein the receiver includes: a reception front end that polarization-separates the received polarization multiplexed optical signal into first and second polarization components, and photoelectrically converts the first and second polarization components into first and second digital signals, respectively; a digital signal processor that samples the first and second digital signals, demodulates the first and second digital signals by using a polarization separation digital signal processing algorithm, and outputs first and second demodulated signals; and a control circuit that, when phase variations of the first and second demodulated signals or amplitude variations of the first and second demodulated signals are greater than a first predetermined value, causes the digital signal processor to interrupt processing using the polarization separation digital signal processing algorithm, changes an initial value of a filter coefficient used for the polarization separation digital signal processing algorithm, and then causes the digital signal processor to start the processing using the polarization separation digital signal processing algorithm. 9. The transmission system according to claim 8 , wherein the polarization separation digital signal processing algorithm is a CMA algorithm. 10. The transmission system according to claim 8 , wherein the digital signal processor includes a butterfly filter that receives the first and second digital signals, and the butterfly filter includes: first and second adders; a first FIR filter that outputs, to the first adder, a signal obtained by filtering the first digital signal; a second FIR filter that outputs, to the first adder, a signal obtained by filtering the second digital signal; a third FIR filter that outputs, to the second adder, a signal obtained by filtering the first digital signal; a fourth FIR filter that outputs, to the second adder, a signal obtained by filtering the second digital signal; and a polarization separation digital signal processing algorithm operation unit that monitors the first and second adders, and updates filter coefficients of the first to fourth FIR filters according to a monitoring result. 11. The transmission system according to claim 8 , wherein when a difference between the phase variation of the first demodulated signal and the phase variation of the second demodulated signal or a difference between the amplitude variation of the first demodulated signal and the amplitude variation of the second demodulated signal is greater than a second predetermined value, the control circuit causes the digital signal processor to interrupt the processing using the polarization separation digital signal processing algorithm, changes the value of the filter coefficient used for the polarization separation digital signal processing algorithm, and then causes the digital signal processor to start the processing