Method of controlling the generation of a coherent optical signal and coherent optical signal control apparatus

The invention claimed is: 1. A method of controlling a parameter in the generation of a coherent optical signal, the method comprising the steps of: receiving a set of signal samples relating to detection of a coherent optical signal; transforming the set of signal samples into a set of spectrum samples in the frequency domain, the set of spectrum samples being an estimation of the spectrum of the coherent optical signal; calculating at least one feedback variable based on the spectrum samples; and adjusting the parameter based on the at least one feedback variable, wherein the parameter comprises a driving voltage for an optical modulator used to generate the coherent optical signal; and wherein the at least one feedback variable comprises a non-linear modulation index indicating an effective bandwidth of the coherent optical signal at detection, and the effective bandwidth is calculated based on the spectrum samples, and wherein the driving voltage is adjusted in inverse proportion to the non-linear modulation index. 2. A method as claimed in claim 1 , wherein the signal samples are equalizer output signals relating to detection of the coherent optical signal and the method comprises storing the equalizer output signals in a memory and the step of transforming the set of signal samples comprises performing a Fourier transform on the stored equalizer output signals. 3. A method as claimed in claim 1 , wherein the non-linear modulation index comprises a ratio of the effective bandwidth of the coherent optical signal at detection and a predefined ideal effective bandwidth of the coherent optical signal at an output of a predefined ideal optical modulator. 4. A method as claimed in claim 1 , wherein the parameter comprises a frequency response of a digital filter used to generate the coherent optical signal. 5. A method as claimed in claim 4 , wherein the at least one feedback variable is a set of error spectrum samples and the error spectrum samples are calculated as a difference between the spectrum samples and a set of reference spectrum samples of a predefined ideal spectrum of the coherent optical signal at detection, and wherein the frequency response of the digital filter is adjusted based on the error spectrum samples. 6. A coherent optical signal control apparatus comprising: a signal processor, wherein the signal processor is arranged to receive a set of signal samples relating to detection of a coherent optical signal and arranged to transform the set of signal samples into a set of spectrum samples in the frequency domain, the set of spectrum samples being an estimation of the spectrum of the coherent optical signal; and a feedback controller arranged to calculate at least one feedback variable based on the spectrum samples and arranged to generate a feedback control signal configured to communicate the at least one feedback variable to be used to control a parameter in the generation of the coherent optical signal, wherein the parameter comprises a driving voltage for an optical modulator used to generate the coherent optical signal; and wherein the at least one feedback variable comprises a non-linear modulation index and wherein the feedback controller is arranged to calculate an effective bandwidth of the coherent optical signal at detection based on the spectrum samples, and the feedback controller is arranged to calculate the non-linear modulation index indicating the effective bandwidth. 7. The coherent optical signal control apparatus as claimed in claim 6 , wherein the signal processor is arranged to receive a set of equalizer output signals relating to detection of the coherent optical signal and the signal processor is arranged to store the equalizer output signals in a memory and to transform the set of signal samples by performing a Fourier transform on the stored equalizer output signals. 8. The coherent optical signal control apparatus as claimed in claim 6 , wherein the feedback controller is arranged to calculate the non-linear modulation index comprising a ratio of the effective bandwidth and a predefined ideal effective bandwidth of the coherent optical signal at an output of a predefined ideal optical modulator. 9. The coherent optical signal control apparatus as claimed in claim 6 , wherein the parameter comprises a frequency response of a digital filter used to generate the coherent optical signal. 10. The coherent optical signal control apparatus as claimed in claim 9 , wherein the at least one feedback variable comprises a set of error spectrum samples and the feedback controller is arranged to calculate the set of error spectrum samples as a difference between the spectrum samples and a set of reference spectrum samples of a predefined ideal spectrum of the coherent optical signal at the receiver. 11. A coherent optical receiver comprising the coherent optical signal control apparatus as claimed in claim 6 . 12. A coherent optical transmission system comprising: an optical transmitter arranged to generate and transmit a coherent optical signal, the optical transmitter comprising a transmitter controller arranged to control a parameter of the optical transmitter; an optical link; and a coherent optical receiver located remote from the optical transmitter and arranged to receive the coherent optical signal, the receiver comprising: detection apparatus arranged to detect the received signal; and sampling apparatus arranged to sample the detected signal to generate a set of signal samples; and the coherent optical signal control apparatus as claimed in claim 6 , wherein the transmitter controller is arranged to receive the feedback control signal and to adjust the parameter based on the at least one feedback variable. 13. A nontransitory computer readable storage medium comprising instructions which, when executed on at least one processor, cause the at least one processor to carry out a method of controlling a parameter in the generation of a coherent optical signal, the method comprising the steps of: receiving a set of signal samples relating to detection of a coherent optical signal; transforming the set of signal samples into a set of spectrum samples in the frequency domain, the set of spectrum samples being an estimation of the spectrum of the coherent optical signal; calculating at least one feedback variable based on the spectrum samples; and adjusting the parameter based on the at least one feedback variable, wherein the parameter comprises a driving voltage for an optical modulator used to generate the coherent optical signal; and wherein the at least one feedback variable comprises a non-linear modulation index indicating an effective bandwidth of the coherent optical signal at detection, and the effective bandwidth is calculated based on the spectrum samples, and wherein the driving voltage is adjusted in inverse proportion to the non-linear modulation index.