Two different detectors that account for the nonlinear signal–noise interaction in a single channel coherent optical link are compared. The results indicate that accounting for the correlation between the samples leads to improved performance over stochastic digital backpropagation
The performance of long-haul coherent optical systems is fundamentally limited by fiber nonlinearity...
This paper discusses the investigation of maximum-likelihood sequence estimation (MLSE) receivers op...
Coherent detection allows for a more effective compensation of transmission impairments in the elect...
Two different detectors that account for the nonlinear signal-noise interaction in a singlechannel c...
In this paper, we propose a novel detector for single-channel long-haul coherent optical communicati...
We present stochastic backpropagation, a novel maximum a posteriori detection method for coherent op...
We present a closed-form maximum likelihood-based data detection algorithm for long-haul optical cha...
A low-complexity detector is introduced for polarization-multiplexed M-ary phase shift keying modula...
We perform an experimental investigation of a maximum likelihood-based (ML-based) algorithm for bulk...
AbstractWe perform an experimental investigation of a maximum likelihood-based (ML-based) algorithm ...
The exponential growth of the demand for higher data rates is pushing scientists to find ways to imp...
In this paper, we investigate the performance limits of electronic chromatic dispersion compensation...
We design a novel receiver based on the theoretical finding that the linear phase noise is uncorrela...
Data-aided algorithms for coherent optic receivers are discussed as an extension of existing non-dat...
An experimental comparison is made between nonlinearity mitigation through coherent superposition op...
The performance of long-haul coherent optical systems is fundamentally limited by fiber nonlinearity...
This paper discusses the investigation of maximum-likelihood sequence estimation (MLSE) receivers op...
Coherent detection allows for a more effective compensation of transmission impairments in the elect...
Two different detectors that account for the nonlinear signal-noise interaction in a singlechannel c...
In this paper, we propose a novel detector for single-channel long-haul coherent optical communicati...
We present stochastic backpropagation, a novel maximum a posteriori detection method for coherent op...
We present a closed-form maximum likelihood-based data detection algorithm for long-haul optical cha...
A low-complexity detector is introduced for polarization-multiplexed M-ary phase shift keying modula...
We perform an experimental investigation of a maximum likelihood-based (ML-based) algorithm for bulk...
AbstractWe perform an experimental investigation of a maximum likelihood-based (ML-based) algorithm ...
The exponential growth of the demand for higher data rates is pushing scientists to find ways to imp...
In this paper, we investigate the performance limits of electronic chromatic dispersion compensation...
We design a novel receiver based on the theoretical finding that the linear phase noise is uncorrela...
Data-aided algorithms for coherent optic receivers are discussed as an extension of existing non-dat...
An experimental comparison is made between nonlinearity mitigation through coherent superposition op...
The performance of long-haul coherent optical systems is fundamentally limited by fiber nonlinearity...
This paper discusses the investigation of maximum-likelihood sequence estimation (MLSE) receivers op...
Coherent detection allows for a more effective compensation of transmission impairments in the elect...