Add to ORKGBy means of numerical simulations, we demonstrated that all-optical signal processing methods (XPM-suppressor module and in-line nonlinear equalization) significantly increase the system performance of digital nonlinear compensation (digital backward propagation) and improve the system performance in five-channel 112 Gbit/s DP-16QAM and DP-QDB transmission over 2400 km large- effective-area pure-silica-core fiber (LA eff-PSCF). The system performance is quantified with the help of Q-factor (dB) for both dispersion-managed and nondispersion-managed fiber links
In this paper, we numerically investigate the non-linear tolerance of root-raised-cosine (RRC) pulse...
In this paper, we report on the performance comparison of all-optical signal processing methodologie...
The achievable information rates of optical communication networks have been widely increased over t...
By means of numerical simulations, we demonstrated that all-optical signal processing methods (XPM-s...
We have evaluated that in-line non-linear compensation schemes decrease the complexity of digital ba...
We have numerically investigated the impact of non-linear impairments on the performance of 400Gbit/...
We report on the complexity comparison of the digital signal processing (DSP) module to compensate c...
We report on the performance comparison of all-optical and digital signal processing techniques to c...
Next-generation optical communication systems will continue to push the ( bandwidth $cdot$ distance)...
We have numerically evaluated the transmission performances of digital backward propagation (DBP) al...
We have numerically implemented a receiver side all-optical signal processing method, i.e. optical b...
We have numerically implemented a receiver side all-optical signal processing method, i.e. optical b...
The hybrid mid-link spectral inversion (H-MLSI) and digital signal processing techniques to compensa...
We present results of nonlinear compensation achieved by digital backward-propagation (DBP) for next...
In this paper, we numerically investigate the non-linear tolerance of root-raised-cosine (RRC) pulse...
In this paper, we numerically investigate the non-linear tolerance of root-raised-cosine (RRC) pulse...
In this paper, we report on the performance comparison of all-optical signal processing methodologie...
The achievable information rates of optical communication networks have been widely increased over t...
By means of numerical simulations, we demonstrated that all-optical signal processing methods (XPM-s...
We have evaluated that in-line non-linear compensation schemes decrease the complexity of digital ba...
We have numerically investigated the impact of non-linear impairments on the performance of 400Gbit/...
We report on the complexity comparison of the digital signal processing (DSP) module to compensate c...
We report on the performance comparison of all-optical and digital signal processing techniques to c...
Next-generation optical communication systems will continue to push the ( bandwidth $cdot$ distance)...
We have numerically evaluated the transmission performances of digital backward propagation (DBP) al...
We have numerically implemented a receiver side all-optical signal processing method, i.e. optical b...
We have numerically implemented a receiver side all-optical signal processing method, i.e. optical b...
The hybrid mid-link spectral inversion (H-MLSI) and digital signal processing techniques to compensa...
We present results of nonlinear compensation achieved by digital backward-propagation (DBP) for next...
In this paper, we numerically investigate the non-linear tolerance of root-raised-cosine (RRC) pulse...
In this paper, we numerically investigate the non-linear tolerance of root-raised-cosine (RRC) pulse...
In this paper, we report on the performance comparison of all-optical signal processing methodologie...
The achievable information rates of optical communication networks have been widely increased over t...