A comprehensive treatment of digital backward propagation (DBP) accounting for the vectorial nature of optical transmission is presented. Experimental results show that self-phase and cross-phase modulation are the major sources of nonlinear impairments, even for small channel spacings and for transmission in low dispersion fibers. It is verified that compensating only the incoherent nonlinear impairments not only has the advantage of requiring lower computational load but also removes the necessity of using phase-locked carriers for the signal or phase-locked local oscillators. Simulation results show that polarization-mode dispersion has to be taken into account for practical wavelength division multiplexing systems for DBP to work proper...
An improved digital backward propagation (DBP) is proposed to compensate inter-nonlinear effects and...
Compensation of fiber impairments using advanced DPS techniques will play a fundamental role in futu...
The next generation fiber transmission system is limited by fiber nonlinearity. A distributed nonlin...
It is shown experimentally that impairments induced by dispersion and Kerr nonlinearity can be compe...
Selective post-compensation of nonlinear impairments is investigated for polarization-division multi...
An advanced split-step method is employed for the digital backward-propagation (DBP) method using th...
Selective post-compensation of nonlinear impairments is investigated for polarization-division multi...
We investigate a digital back-propagation simplification method to enable computationally-efficient ...
Digital backpropagation (DBP) is a promising digital-domain technique to mitigate Kerr-induced nonli...
This chapter describes a universal postcompensation scheme to compensate all deterministic impairmen...
An improved split-step method (SSM) for digital backward propagation (DBP) applicable to wavelength-...
We present results of nonlinear compensation achieved by digital backward-propagation (DBP) for next...
We review the latest advances on digital backward-propagation for the compensation of inter-channel ...
In this paper, we numerically investigate the impact of polarisation mode dispersion on the efficien...
A computationally efficient dispersion-folded (D-folded) digital backward propagation (DBP) method f...
An improved digital backward propagation (DBP) is proposed to compensate inter-nonlinear effects and...
Compensation of fiber impairments using advanced DPS techniques will play a fundamental role in futu...
The next generation fiber transmission system is limited by fiber nonlinearity. A distributed nonlin...
It is shown experimentally that impairments induced by dispersion and Kerr nonlinearity can be compe...
Selective post-compensation of nonlinear impairments is investigated for polarization-division multi...
An advanced split-step method is employed for the digital backward-propagation (DBP) method using th...
Selective post-compensation of nonlinear impairments is investigated for polarization-division multi...
We investigate a digital back-propagation simplification method to enable computationally-efficient ...
Digital backpropagation (DBP) is a promising digital-domain technique to mitigate Kerr-induced nonli...
This chapter describes a universal postcompensation scheme to compensate all deterministic impairmen...
An improved split-step method (SSM) for digital backward propagation (DBP) applicable to wavelength-...
We present results of nonlinear compensation achieved by digital backward-propagation (DBP) for next...
We review the latest advances on digital backward-propagation for the compensation of inter-channel ...
In this paper, we numerically investigate the impact of polarisation mode dispersion on the efficien...
A computationally efficient dispersion-folded (D-folded) digital backward propagation (DBP) method f...
An improved digital backward propagation (DBP) is proposed to compensate inter-nonlinear effects and...
Compensation of fiber impairments using advanced DPS techniques will play a fundamental role in futu...
The next generation fiber transmission system is limited by fiber nonlinearity. A distributed nonlin...