Compensation of fiber impairments using advanced DPS techniques will play a fundamental role in future communications systems. In particular, technologies for nonlinearity compensation using digital backward propagation are discussed in this paper. © OSA/ANIC/IPR/Sensors/SL/SOF/SPPCom/2011
The capacity of optical fiber communication networks is limited by the Kerr effect inherent to trans...
Abstract—Optical fiber transmission is impacted by linear and nonlinear impairments. We study the us...
Nonlinearity mitigation using digital signal processing has been shown to increase the achievable da...
Compensation of fiber impairments using advanced DPS techniques will play a fundamental role in futu...
This chapter describes a universal postcompensation scheme to compensate all deterministic impairmen...
This paper reviews digital signal processing techniques that compensate, mitigate, and exploit fiber...
We present results of nonlinear compensation achieved by digital backward-propagation (DBP) for next...
It is shown experimentally that impairments induced by dispersion and Kerr nonlinearity can be compe...
The next generation fiber transmission system is limited by fiber nonlinearity. A distributed nonlin...
Abstract—Next-generation optical fiber systems will employ coherent detection to improve power and s...
Recent progress in nonlinearity compensation using coherent detection and digital signal processing ...
We propose and numerically demonstrate impairment compensation via digital backward propagation (DBP...
AbstractWe numerically evaluate the robustness of digital backward propagation (DBP) algorithm for t...
We have numerically investigated the impact of non-linear impairments on the performance of 400Gbit/...
Digital distributed impairment postcompensation for dispersion and nonlinear effects using backward ...
The capacity of optical fiber communication networks is limited by the Kerr effect inherent to trans...
Abstract—Optical fiber transmission is impacted by linear and nonlinear impairments. We study the us...
Nonlinearity mitigation using digital signal processing has been shown to increase the achievable da...
Compensation of fiber impairments using advanced DPS techniques will play a fundamental role in futu...
This chapter describes a universal postcompensation scheme to compensate all deterministic impairmen...
This paper reviews digital signal processing techniques that compensate, mitigate, and exploit fiber...
We present results of nonlinear compensation achieved by digital backward-propagation (DBP) for next...
It is shown experimentally that impairments induced by dispersion and Kerr nonlinearity can be compe...
The next generation fiber transmission system is limited by fiber nonlinearity. A distributed nonlin...
Abstract—Next-generation optical fiber systems will employ coherent detection to improve power and s...
Recent progress in nonlinearity compensation using coherent detection and digital signal processing ...
We propose and numerically demonstrate impairment compensation via digital backward propagation (DBP...
AbstractWe numerically evaluate the robustness of digital backward propagation (DBP) algorithm for t...
We have numerically investigated the impact of non-linear impairments on the performance of 400Gbit/...
Digital distributed impairment postcompensation for dispersion and nonlinear effects using backward ...
The capacity of optical fiber communication networks is limited by the Kerr effect inherent to trans...
Abstract—Optical fiber transmission is impacted by linear and nonlinear impairments. We study the us...
Nonlinearity mitigation using digital signal processing has been shown to increase the achievable da...