Add to ORKGAn energy model including both operational and embodied energy is proposed to evaluate the performance evolution of optical transport networks in a multi-period study up to 15 years. Significant improvements in energy efficiency per GHz and energy reductions can be achieved for flexi-grid OFDM-based networks with respect to fixed-grid WDM ones. An energy model including both operational and embodied energy is proposed to evaluate the performance evolution of optical transport networks in a multi-period study up to 15 years. Significant improvements in energy efficiency per GHz and energy reductions can be achieved for flexi-grid OFDM-based networks with respect to fixed-grid WDM ones
We present a mathematical model to evaluate the energy efficiency of mixed-line-rate (MLR) optical n...
Both bandwidth demand and energy consumption of ICT and communication networks is increasing and opt...
We present a mathematical model to evaluate the energy efficiency of mixed-line-rate (MLR) optical n...
A realistic energy-oriented model is necessary to formally characterize the energy consumption and t...
The energy efficiency in telecommunication networks is gaining more relevance as the Internet traffi...
A realistic energy-oriented model is necessary to formally characterize the energy consumption and t...
As the Internet traffic grows, the energy efficiency gains more attention as a design factor for the...
Abstract — The energy efficiency in telecommunication networks is gaining more relevance as the Inte...
The traffic volume that needs to be handled by communication networks is growing very fast due to th...
The forecasted growth in the Internet traffic has made the operators and industry to be concerned ab...
Both bandwidth demand and energy consumption of ICT and communication networks is increasing and opt...
We present a mathematical model to evaluate the energy efficiency of mixed-line-rate (MLR) optical n...
Energy consumption is now one of the most important issues for network carriers, since the majority ...
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...
Both bandwidth demand and energy consumption of ICT and communication networks is increasing and opt...
We present a mathematical model to evaluate the energy efficiency of mixed-line-rate (MLR) optical n...
A realistic energy-oriented model is necessary to formally characterize the energy consumption and t...
The energy efficiency in telecommunication networks is gaining more relevance as the Internet traffi...
A realistic energy-oriented model is necessary to formally characterize the energy consumption and t...
As the Internet traffic grows, the energy efficiency gains more attention as a design factor for the...
Abstract — The energy efficiency in telecommunication networks is gaining more relevance as the Inte...
The traffic volume that needs to be handled by communication networks is growing very fast due to th...
The forecasted growth in the Internet traffic has made the operators and industry to be concerned ab...
Both bandwidth demand and energy consumption of ICT and communication networks is increasing and opt...
We present a mathematical model to evaluate the energy efficiency of mixed-line-rate (MLR) optical n...
Energy consumption is now one of the most important issues for network carriers, since the majority ...
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...
Both bandwidth demand and energy consumption of ICT and communication networks is increasing and opt...
We present a mathematical model to evaluate the energy efficiency of mixed-line-rate (MLR) optical n...