Algorithms for Blind Separation and Estimation of Transmitter and Receiver IQ Imbalances

We propose a blind transmitter (Tx) and receiver (Rx) in-phase/quadrature (IQ) amplitude and phase imbalances estimation scheme based on a combination of analytical modeling and clustering algorithms. The proposed scheme can isolate and separately estimate Tx and Rx phase and amplitude imbalances, applicable to high-order multi-modulus signals, and hence, is a great physical-layer-monitoring tool for network disaggregation. We first estimate the Rx imbalances by identifying the fact that the received signal distribution in presence of laser frequency offset (FO), phase noise (PN), and Rx imbalance forms concentric ellipses. A convex hull assisted ellipse correction algorithm is used to determine the Rx IQ imbalance parameters that best match the ellipses. Standard laser FO compensation algorithm follows. A k-means clustering assisted blind phase search algorithm is then employed to mitigate the PN in presence of Tx imbalances. Finally, another iterative k-means clustering procedure is used to estimate the Tx IQ imbalances. The proposed scheme is evaluated experimentally for 34 Gbaud QPSK and 16-quadratic-amplitude modulation signals. The accurate estimation for a wide range of Tx and Rx IQ imbalances and good robustness to amplified spontaneous emission noise is demonstrated.

[1]  Darko Zibar,et al.  Widely Linear Equalization for IQ Imbalance and Skew Compensation in Optical Coherent Receivers , 2016, Journal of Lightwave Technology.

[2]  Pascal Scalart,et al.  Blind adaptive transmitter IQ imbalance compensation in M-QAM optical coherent systems , 2016, 2016 IEEE International Conference on Communications (ICC).

[3]  S. Chang,et al.  Impact of Quadrature Imbalance in Optical Coherent QPSK Receiver , 2009, IEEE Photonics Technology Letters.

[4]  Andrew W. Fitzgibbon,et al.  Direct Least Square Fitting of Ellipses , 1999, IEEE Trans. Pattern Anal. Mach. Intell..

[5]  Sun Hyok Chang,et al.  Effect of IQ Mismatch Compensation in an Optical Coherent OFDM Receiver , 2010, IEEE Photonics Technology Letters.

[6]  R. Noe,et al.  Hardware-Efficient Coherent Digital Receiver Concept With Feedforward Carrier Recovery for $M$ -QAM Constellations , 2009, Journal of Lightwave Technology.

[7]  Seb J. Savory,et al.  Digital Signal Processing for Coherent Transceivers Employing Multilevel Formats , 2017, Journal of Lightwave Technology.

[8]  K. Kikuchi,et al.  Compensation for In-Phase/Quadrature Imbalance in Coherent-Receiver Front End for Optical Quadrature Amplitude Modulation , 2013, IEEE Photonics Journal.

[9]  Philippe Ciblat,et al.  Accurate digital frequency offset estimator for coherent PolMux QAM transmission systems , 2009, 2009 35th European Conference on Optical Communication.

[10]  Gabriel Charlet,et al.  Blind Receiver Skew Compensation and Estimation for Long-Haul Non-Dispersion Managed Systems Using Adaptive Equalizer , 2015, Journal of Lightwave Technology.

[11]  Pascal Scalart,et al.  Joint simple blind IQ imbalance compensation and adaptive equalization for 16-QAM optical communications , 2015, 2015 IEEE International Conference on Communications (ICC).

[12]  Jungwon Lee,et al.  Blind Adaptive I/Q Imbalance Compensation Algorithms for Direct-Conversion Receivers , 2012, IEEE Signal Processing Letters.

[13]  Mikko Valkama,et al.  Blind signal estimation in conjugate signal models with application to I/Q imbalance compensation , 2005, IEEE Signal Processing Letters.

[14]  Heinrich Meyr,et al.  Digital filter and square timing recovery , 1988, IEEE Trans. Commun..

[15]  Gee-Kung Chang,et al.  Efficient FIR filter configuration to joint IQ imbalance and carrier-phase recovery in 16-QAM coherent receivers , 2014, 2014 Conference on Lasers and Electro-Optics (CLEO) - Laser Science to Photonic Applications.

[16]  Jieyu Zhang,et al.  Application of Graham scan algorithm in binary phase diagram calculation , 2006 .

[17]  Pascal Scalart,et al.  Blind transmitter IQ imbalance compensation in M-QaM optical coherent systems , 2017, IEEE/OSA Journal of Optical Communications and Networking.

[18]  S.J. Savory,et al.  Compensation of Quadrature Imbalance in an Optical QPSK Coherent Receiver , 2008, IEEE Photonics Technology Letters.