In this paper, the statistics of received signals in a single-channel dispersion-managed dual-polarization fiber-optical channel are derived in the limit of low dispersion. The joint probability density function (pdf) of the received amplitudes and phases of such a system is derived for both lumped and distributed amplification. The new pdf expressions are used to numerically evaluate the performance of modulation formats over channels with nonlinear phase noise. For example, a sensitivity gain of up to 2 dB is calculated for a specific system using polarization-multiplexed 8-ary phase shift keying compared with a similar single-polarization system at the same spectral efficiency and a symbol error rate of 5*10^(-4). Moreover, the accuracy ...
We present a closed-form maximum likelihood-based data detection algorithm for long-haul optical cha...
In the past decade, accessing information has become easier than ever, leading to a rapid growth in...
An empirical phase noise channel model suitable for performance evaluation of high spectrally effici...
In this paper, the statistics of received signals in a single-channel dispersion-managed dual-polari...
A low-complexity detector is introduced for polarization-multiplexed M-ary phase shift keying modula...
The problem of optimal symbol detection in the presence of laser phase noise is studied, for uncoded...
Coherent dual-polarization (DP) optical transmission systems encode information on the four availabl...
This dissertation is designed to focus on the field of nonlinear impairments generated along the fib...
In this work, we study the performance of polarization division multiplexing nonlinear inverse synth...
Optical communication systems that exploit the orthogonality between two polarizations of light conv...
We study the statistics of optical data transmission in a noisy nonlinear fiber channel with a weak ...
The noise statistics of optically demodulated signal of the recently proposed modulation format, nam...
After reviewing models and mitigation strategies for interchannel nonlinear interference (NLI), we s...
Following the rise in interest in transmission systems employing the nonlinear Fourier transform (NF...
We present a closed-form maximum likelihood-based data detection algorithm for long-haul optical cha...
In the past decade, accessing information has become easier than ever, leading to a rapid growth in...
An empirical phase noise channel model suitable for performance evaluation of high spectrally effici...
In this paper, the statistics of received signals in a single-channel dispersion-managed dual-polari...
A low-complexity detector is introduced for polarization-multiplexed M-ary phase shift keying modula...
The problem of optimal symbol detection in the presence of laser phase noise is studied, for uncoded...
Coherent dual-polarization (DP) optical transmission systems encode information on the four availabl...
This dissertation is designed to focus on the field of nonlinear impairments generated along the fib...
In this work, we study the performance of polarization division multiplexing nonlinear inverse synth...
Optical communication systems that exploit the orthogonality between two polarizations of light conv...
We study the statistics of optical data transmission in a noisy nonlinear fiber channel with a weak ...
The noise statistics of optically demodulated signal of the recently proposed modulation format, nam...
After reviewing models and mitigation strategies for interchannel nonlinear interference (NLI), we s...
Following the rise in interest in transmission systems employing the nonlinear Fourier transform (NF...
We present a closed-form maximum likelihood-based data detection algorithm for long-haul optical cha...
In the past decade, accessing information has become easier than ever, leading to a rapid growth in...
An empirical phase noise channel model suitable for performance evaluation of high spectrally effici...