Kalman Filtering for Carrier Phase Recovery in Optical Offset-QAM Nyquist WDM Systems

Nyquist wavelength-division-multiplexing (NWDM) systems based on offset quadrature amplitude modulation (OQAM) have been considered as interesting candidates to achieve a better spectral efficiency. However, such systems are very sensitive to laser phase noise that causes the loss of OQAM orthogonality. In this letter, we investigate carrier phase recovery using a modified extended Kalman filter (M-EKF) in OQAM-based NWDMsystems. The proposed method can achieve an optical signal-to-noise ratio (OSNR) penalty lower than that of the state-of-the-art modified blind phase search (M-BPS) algorithm. More specifically, for a 10(-5) normalized laser linewidth, the M-EKF method exhibits 0.8- and 1.7-dB OSNR penalties (at a bit error rate of 3.8 x 10(-3)) lower than the M-BPS method for 16- and 64-OQAM modulations, respectively. Furthermore, compared with the M-BPS method, our proposed method is of lower complexity. The required total number of multiplications and additions of the M-EKF method is reduced by about 3.3 and 6.7 times compared with that of M-BPS for 16- and 64-OQAM modulations, respectively, confirming the effectiveness of the proposed method.