Add to ORKGThis paper aims to revealing the interrelation between channel spacing, transmission distance, and power efficiency on WDM system level of backbone optical network which configuration in based on the concept of Mixed-Line Rate (MLR). In such MLR network, three different types of wavelengths could co-propagate over the same optical fiber: 1) 2.5 Gbps Non-Return-to-Zero (NRZ) On-Off Keying (OOK), 2) 10 Gbps NRZ-OOK, and 3) 40 Gbps NRZ-Differential Phase-Shift Keying (DPSK). It is found that depending on spectral efficiency power costs per transmitted bps can be reduced more than eight times for the same transmission distance
Due to the increasing heterogeneity and the growing volume of traffic, telecom backbone networks ar...
The authors have investigated the minimal allowed channel spacing for developed mixed wavelength div...
The authors have studied the possibilities to obtain the maximum spectral efficiency for a combined ...
It has been proved that Mixed-Line Rate (MLR) could in a cost-efficient manner scope with heterogene...
With steady traffic volume growth in the core networks, it is predicted that the future optical netw...
The objective of future optical fiber networks is to provide an efficient infrastructure capable of ...
We present a mathematical model to evaluate the energy efficiency of mixed-line-rate (MLR) optical n...
This paper aims at assessing the trade-off between spectral efficiency and the power consumption in ...
We present a mathematical model to evaluate the energy efficiency of mixed-line-rate (MLR) optical n...
We present a mathematical model to evaluate the energy efficiency of mixed-line-rate (MLR) optical n...
We present a mathematical model to evaluate the energy efficiency of mixed-line-rate (MLR) optical n...
We present a mathematical model to evaluate the energy efficiency of mixed-line-rate (MLR) optical n...
Due to the increasing heterogeneity and the growing volume of traffic, telecom backbone networks ar...
Due to the increasing heterogeneity and the growing volume of traffic, telecom backbone networks ar...
Due to the increasing heterogeneity and the growing volume of traffic, telecom backbone networks ar...
Due to the increasing heterogeneity and the growing volume of traffic, telecom backbone networks ar...
The authors have investigated the minimal allowed channel spacing for developed mixed wavelength div...
The authors have studied the possibilities to obtain the maximum spectral efficiency for a combined ...
It has been proved that Mixed-Line Rate (MLR) could in a cost-efficient manner scope with heterogene...
With steady traffic volume growth in the core networks, it is predicted that the future optical netw...
The objective of future optical fiber networks is to provide an efficient infrastructure capable of ...
We present a mathematical model to evaluate the energy efficiency of mixed-line-rate (MLR) optical n...
This paper aims at assessing the trade-off between spectral efficiency and the power consumption in ...
We present a mathematical model to evaluate the energy efficiency of mixed-line-rate (MLR) optical n...
We present a mathematical model to evaluate the energy efficiency of mixed-line-rate (MLR) optical n...
We present a mathematical model to evaluate the energy efficiency of mixed-line-rate (MLR) optical n...
We present a mathematical model to evaluate the energy efficiency of mixed-line-rate (MLR) optical n...
Due to the increasing heterogeneity and the growing volume of traffic, telecom backbone networks ar...
Due to the increasing heterogeneity and the growing volume of traffic, telecom backbone networks ar...
Due to the increasing heterogeneity and the growing volume of traffic, telecom backbone networks ar...
Due to the increasing heterogeneity and the growing volume of traffic, telecom backbone networks ar...
The authors have investigated the minimal allowed channel spacing for developed mixed wavelength div...
The authors have studied the possibilities to obtain the maximum spectral efficiency for a combined ...