Summary
An optical network, like any system, has to be observable before it can become controllable and be subject to optimization, and this is the first capability ORCHESTRA introduces. ORCHESTRA’s high observability relies on information provided by the coherent transceivers that are extended, almost for free, to operate as software defined multi-impairment optical performance monitors (soft-OPM). Information from multiple soft-OPMs are correlated using network kriging and statistical estimation methods to infer information for unmonitored or un-established paths, effectively support alien wavelength, and localize QoT problems and failures.
High rate optical transmission with coherent detection promises to address the continuous growth of Internet traffic. However, the current control and monitoring (C&M) infrastructure is absolutely not adequate to support this growth. In ORCHESTRA, a new C&M architecture that exploits the monitoring and reconfigurability capabilities of enhanced tubable transceivers will be designed, implemented and validated. The network is viewed as a continuously running process that perceives current conditions, decides, and acts on those conditions. ORCHESTRA’s advanced cross-layer optimization procedures will be implemented within a new specifically designed library module, called DEPLOY. A new dynamic and hierarchical C&M infrastructure will be then created to interconnect the multiple soft-OPMs and the proposed virtual and real C&M entities running the DEPLOY algorithms. At the top of the hierarchical infrastructure, a novel OAM Handler prototype will be implemented, as part of the SDN-based ABNO architecture. The proposed C&M infrastructure will be enriched with active-control functionalities, closing the control loop, and enabling the network to be truly dynamic and self-optimized.
The ORCHESTRA solutions are planned to be industrialized, given the expected improvements in service level validations, CAPEX, energy consumption and OPEX.
High rate optical transmission with coherent detection promises to address the continuous growth of Internet traffic. However, the current control and monitoring (C&M) infrastructure is absolutely not adequate to support this growth. In ORCHESTRA, a new C&M architecture that exploits the monitoring and reconfigurability capabilities of enhanced tubable transceivers will be designed, implemented and validated. The network is viewed as a continuously running process that perceives current conditions, decides, and acts on those conditions. ORCHESTRA’s advanced cross-layer optimization procedures will be implemented within a new specifically designed library module, called DEPLOY. A new dynamic and hierarchical C&M infrastructure will be then created to interconnect the multiple soft-OPMs and the proposed virtual and real C&M entities running the DEPLOY algorithms. At the top of the hierarchical infrastructure, a novel OAM Handler prototype will be implemented, as part of the SDN-based ABNO architecture. The proposed C&M infrastructure will be enriched with active-control functionalities, closing the control loop, and enabling the network to be truly dynamic and self-optimized.
The ORCHESTRA solutions are planned to be industrialized, given the expected improvements in service level validations, CAPEX, energy consumption and OPEX.
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More information & hyperlinks
Web resources: | https://cordis.europa.eu/project/id/645360 |
Start date: | 01-02-2015 |
End date: | 31-01-2018 |
Total budget - Public funding: | 2 620 831,00 Euro - 2 620 331,00 Euro |
Cordis data
Original description
An optical network, like any system, has to be observable before it can become controllable and be subject to optimization, and this is the first capability ORCHESTRA introduces. ORCHESTRA’s high observability relies on information provided by the coherent transceivers that are extended, almost for free, to operate as software defined multi-impairment optical performance monitors (soft-OPM). Information from multiple soft-OPMs are correlated using network kriging and statistical estimation methods to infer information for unmonitored or un-established paths, effectively support alien wavelength, and localize QoT problems and failures.High rate optical transmission with coherent detection promises to address the continuous growth of Internet traffic. However, the current control and monitoring (C&M) infrastructure is absolutely not adequate to support this growth. In ORCHESTRA, a new C&M architecture that exploits the monitoring and reconfigurability capabilities of enhanced tubable transceivers will be designed, implemented and validated. The network is viewed as a continuously running process that perceives current conditions, decides, and acts on those conditions. ORCHESTRA’s advanced cross-layer optimization procedures will be implemented within a new specifically designed library module, called DEPLOY. A new dynamic and hierarchical C&M infrastructure will be then created to interconnect the multiple soft-OPMs and the proposed virtual and real C&M entities running the DEPLOY algorithms. At the top of the hierarchical infrastructure, a novel OAM Handler prototype will be implemented, as part of the SDN-based ABNO architecture. The proposed C&M infrastructure will be enriched with active-control functionalities, closing the control loop, and enabling the network to be truly dynamic and self-optimized.
The ORCHESTRA solutions are planned to be industrialized, given the expected improvements in service level validations, CAPEX, energy consumption and OPEX.
Status
CLOSEDCall topic
ICT-06-2014Update Date
26-10-2022
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H2020-EU.2.1.1. INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies - Information and Communication Technologies (ICT)