Optical modulation schemes having reduced nonlinear optical transmission impairments

We claim: 1. A method of transmitting a data signal using an optical transmitter of an optical communications system, the optical transmitter being configured to modulate an optical carrier in successive sets of signalling intervals to generate an optical signal, the method comprising: an encoder optical transmitter encoding the data signal to generate a respective set of symbols to be modulated onto orthogonal polarizations of the optical carrier in two or more signalling intervals, and selecting a value of one or more of the symbols to control at least one of a variance of filtered power doublets and a variance of filtered polarization doublets of the optical signal; and a modulator of the optical transmitter modulating the orthogonal polarizations of the optical carrier in accordance with the respective sequence of symbols to generate an optical signal for transmission through the optical communications system. 2. The method of claim 1 , wherein at least one of the symbols modulated onto the carrier in the two or more signalling intervals comprises at least one overhead bit, and wherein selecting a value of one or more of the symbols comprises selecting a value of the at least one overhead bit. 3. The method of claim 1 , wherein selecting a value of one or more of the symbols comprises selecting a value of one or more of the symbols so as to minimize a function of the variances of filtered power doublets and filtered polarization doublets. 4. The method of claim 1 , wherein the filtered power doublets and the filtered polarization doublets are filtered using a set of predetermined filter coefficients that quantify nonlinear interactions between pairs of optical channels in the optical communications system. 5. The method of claim 1 , wherein selecting a value of one or more of the symbols comprises selecting a value of one or more of the symbols such that the respective sign of a first polarization doublet in a first signalling interval is opposite that of a second polarization doublet in a second signalling interval. 6. The method of claim 2 , wherein the overhead bits are grouped together in one of the symbols. 7. The method of claim 2 , wherein the overhead bits are distributed across both of the X- and Y-polarizations. 8. The method of claim 2 , wherein the overhead bits are distributed across both of the first and second signalling intervals. 9. The method of claim 2 , further comprising selecting a value of at least one overhead bit such that a power variation of the optical signal is minimized. 10. The method of claim 2 further comprising a receiver recovering the data signal using one or more of the overhead bits. 11. An optical transmitter of an optical communications system, the optical transmitter being configured to modulate an optical carrier in successive sets of signalling intervals to generate an optical signal for transmission trough the optical communications system, the optical transmitter comprising: an encoder of the optical transmitter configured to encode the data signal to generate a respective set of symbols to be modulated onto orthogonal polarizations of the optical carrier in two or more signalling intervals, and configured to select a value of one or more of the symbols to control at least one of a variance of filtered power doublets and a variance of filtered polarization doublets of the optical signal; and a modulator configured to modulate the orthogonal polarizations of the optical carrier in accordance with the respective sequence of symbols to generate the optical signal. 12. The optical transmitter of claim 11 , wherein at least one of the symbols modulated onto the carrier in the two or more signalling intervals comprises at least one overhead bit, and wherein selection of a value of one or more of the symbols comprises selection of a value of the at least one overhead bit. 13. The optical transmitter of claim 11 wherein selection of a value of one or more of the symbols comprises selection of a value of one or more of the symbols so as to minimize a function of the variances of filtered power doublets and filtered polarization doublets. 14. The optical transmitter of claim 13 wherein the filtered power doublets and the filtered polarization doublets, respectively, are filtered using a set of predetermined filter coefficients that quantify nonlinear interactions between pairs optical channels in the optical system. 15. The optical transmitter of claim 11 , wherein selection of a value of one or more of the symbols comprises selection of a value of one or more of the symbols such that the respective sign of a first polarization doublet in a first signalling interval is opposite that of a second polarization doublet in a second signalling interval. 16. The optical transmitter of claim 12 , wherein the overhead bits are grouped together in one of the symbols. 17. The optical transmitter of claim 12 , wherein the overhead bits are distributed across both of the X- and Y-polarizations. 18. The optical transmitter of claim 12 , wherein the overhead bits are distributed across both of the first and second signalling intervals. 19. The optical transmitter of claim 12 , wherein the encoder is further configured to select a value of at least one overhead bit such that a power variation of the optical signal is minimized. 20. An optical communications system comprising: an optical transmitter configured to modulate an optical carrier in successive sets of signalling intervals to generate an optical signal for transmission trough the optical communications system, the optical transmitter including: an encoder of the configured to encode the data signal to generate a respective set of symbols to be modulated onto orthogonal polarizations of the optical carrier in two or more signalling intervals, and configured to select a value of one or more of the symbols to control at least one of a variance of filtered power doublets and a variance of filtered polarization doublets of the optical signal, and a modulator configured to modulate the orthogonal polarizations of the optical carrier in accordance with the respective sequence of symbols to generate the optical signal; and a receiver configured to recover the data signal using one or more of the overhead bits.