Space-division multiplexing (SDM) transmission technology is attracting attention as an upcoming technology for ultra-large capacity optical networks. In this presentation, we will review the current research and development status of control technology for SDM optical networks. In addition, we will report several demonstrations of software-defined control for sliceable SDM optical networks
Goals and Non-GoalsThis tutorial considers the evolution of SDN control for optical transport networ...
We provide an overview of SDN control architectures for WDM over SDM (WDMoSDM) optical networks. We ...
The deployment of space division multiplexed (SDM) optical networks hinges on this technology being ...
The programmability of optical systems has a key role towards the integration of data and control pl...
Space division multiplexing (SDM) super-channels are the only way to guarantee a sustainable scaling...
Network operators are facing a critical issue on their optical transport networks to deploy 5G++ and...
The combination of Spatial Division Multiplexing (SDM) with flexi-grid WDM enables optical transceiv...
We present the first SDN-enabled multi-domain multi-layer (WDM/SDM) control architecture for partial...
We demonstrate the first SDN-enabled sliceable SDM-WDM transceiver providing multiple spectral-spati...
Photonic technologies and software-defined networking (SDN) are key to supporting hyperconnectivity ...
Space division multiplexing (SDM) has been proposed as the ultimate solution to address the capacity...
Space-division multiplexing technology is an attractive candidate for overcoming a potential future ...
Software defined optical transmission (SDOT) and sliceable programmable transceivers, exploiting mul...
This tutorial considers the evolution of software-defined networking (SDN) control for optical trans...
Spatial division multiplexing (SDM) by employing few-mode fiber or multi-core fiber is expected to e...
Goals and Non-GoalsThis tutorial considers the evolution of SDN control for optical transport networ...
We provide an overview of SDN control architectures for WDM over SDM (WDMoSDM) optical networks. We ...
The deployment of space division multiplexed (SDM) optical networks hinges on this technology being ...
The programmability of optical systems has a key role towards the integration of data and control pl...
Space division multiplexing (SDM) super-channels are the only way to guarantee a sustainable scaling...
Network operators are facing a critical issue on their optical transport networks to deploy 5G++ and...
The combination of Spatial Division Multiplexing (SDM) with flexi-grid WDM enables optical transceiv...
We present the first SDN-enabled multi-domain multi-layer (WDM/SDM) control architecture for partial...
We demonstrate the first SDN-enabled sliceable SDM-WDM transceiver providing multiple spectral-spati...
Photonic technologies and software-defined networking (SDN) are key to supporting hyperconnectivity ...
Space division multiplexing (SDM) has been proposed as the ultimate solution to address the capacity...
Space-division multiplexing technology is an attractive candidate for overcoming a potential future ...
Software defined optical transmission (SDOT) and sliceable programmable transceivers, exploiting mul...
This tutorial considers the evolution of software-defined networking (SDN) control for optical trans...
Spatial division multiplexing (SDM) by employing few-mode fiber or multi-core fiber is expected to e...
Goals and Non-GoalsThis tutorial considers the evolution of SDN control for optical transport networ...
We provide an overview of SDN control architectures for WDM over SDM (WDMoSDM) optical networks. We ...
The deployment of space division multiplexed (SDM) optical networks hinges on this technology being ...