A low-complexity feed-forward carrier phase estimation (CPE) technique is presented for dual-polarization (DP)-16-QAM transmission systems. By combining QPSK partitioning, maximum likelihood (ML) detection and phase offset estimation between signals in different polarizations, simulation and experimental results for a 200Gb/s DP-16-QAM system demonstrate similar linewidth tolerance to the best feedforward CPE reported to date while the computational complexity is at least three times lower compared with other simplified feed-forward CPE techniques.Department of Electrical EngineeringDepartment of Electronic and Information Engineerin
We present a statistical inference based multi-pilot aided CPE algorithm and analyze its performance...
Abstract: We propose a novel carrier phase estimator based on two-stage Viterbi-Viterbi and QPSK par...
We present a statistical inference based multi-pilot aided CPE algorithm and analyze its performance...
2011-2012 > Academic research: refereed > Publication in refereed journalVersion of RecordPublishe
A detailed simulative and experimental analysis of different CPE schemes for 64-QAM systems is prese...
We proposed a novel algorithm for carrier phase estimation with differential demodulation, phase cou...
This paper presents a hardware-efficient carrier phase estimator with high-linewidth tolerance for 1...
We show the influence of 10.7-Gb/s NRZ neighbors on 43-Gb/s polarization-multiplexed NRZ-DQPSK trans...
Coherent optical communications based on higher order modulation formats are severely affected by th...
AbstractWe numerically investigate the performance of Viterbi-Viterbi (VV) carrier phase estimation ...
We investigate the performance of carrier phase estimation (CPE) and digital backward propagation (D...
Abstract: We propose a novel algorithm for carrier phase estimation with differential demodulation, ...
A carrier phase estimation and compensation algorithm using a digital phase locked loop is proposed ...
We present a statistical inference based multi-pilot aided CPE algorithm and analyze its performance...
Abstract: We propose a novel carrier phase estimator based on two-stage Viterbi-Viterbi and QPSK par...
We present a statistical inference based multi-pilot aided CPE algorithm and analyze its performance...
2011-2012 > Academic research: refereed > Publication in refereed journalVersion of RecordPublishe
A detailed simulative and experimental analysis of different CPE schemes for 64-QAM systems is prese...
We proposed a novel algorithm for carrier phase estimation with differential demodulation, phase cou...
This paper presents a hardware-efficient carrier phase estimator with high-linewidth tolerance for 1...
We show the influence of 10.7-Gb/s NRZ neighbors on 43-Gb/s polarization-multiplexed NRZ-DQPSK trans...
Coherent optical communications based on higher order modulation formats are severely affected by th...
AbstractWe numerically investigate the performance of Viterbi-Viterbi (VV) carrier phase estimation ...
We investigate the performance of carrier phase estimation (CPE) and digital backward propagation (D...
Abstract: We propose a novel algorithm for carrier phase estimation with differential demodulation, ...
A carrier phase estimation and compensation algorithm using a digital phase locked loop is proposed ...
We present a statistical inference based multi-pilot aided CPE algorithm and analyze its performance...
Abstract: We propose a novel carrier phase estimator based on two-stage Viterbi-Viterbi and QPSK par...
We present a statistical inference based multi-pilot aided CPE algorithm and analyze its performance...