论文信息 - Integrated OAM and Transport SDN Architecture for Automatic and Dynamic Restoration of Signal-Degraded Connections within Flexi-Grid Optical Networks

Integrated OAM and Transport SDN Architecture for Automatic and Dynamic Restoration of Signal-Degraded Connections within Flexi-Grid Optical Networks

The programmability of upcoming transport optical networks is handled by a centralized Transport SDN (T-SDN) controller. The T-SDN controller dynamically computes and selects the resources to automatically accommodate optical connection requests by configuring the involved network elements and devices (i.e., optical switches and transceivers). Additionally, the T-SDN controller should provide management functions to ensure high reliability and correct service status in terms of QoS, QoT, failure detection, etc. during the whole connection duration. These management functions are typically addressed by the operation, administration and maintenance (OAM) Handler. Thereby, the OAM Handler interacts with the monitoring system to gather notifications about connection failures or degradations and trigger the required actions to preserve / recover the services. This work first overviews the designed and implemented architecture integrating required OAM functions into a deployed T-SDN controller for flexi-grid optical networks. Next, two restoration routing approaches are presented, which are compared with respect to the blocked bandwidth ratio (BBR), restorability and average number of used sub-transceivers. The experimental performance is made varying both the traffic load and the generation of signal degraded events of existing connections, forcing their automatic restoration.

[1] Piero Castoldi,et al. Control plane solutions for sliceable bandwidth transceiver configuration in flexi-grid optical networks , 2016, IEEE Communications Magazine.

[2] R. Casellas,et al. Distributed vs. centralized PCE-based transport SDN controller for flexi-grid optical networks , 2017, 2017 Optical Fiber Communications Conference and Exhibition (OFC).

[3] M. Svaluto Moreolo,et al. Experimental study of adaptive loading in IM/DD OFDM using in-band optical sub-carrier SNR monitoring , 2016, 2016 Optical Fiber Communications Conference and Exhibition (OFC).

[4] P. Pavon-Marino,et al. Evolution of core traffic for growing CDNs: Is the growth rate of core network traffic overestimated? , 2017, 2017 Optical Fiber Communications Conference and Exhibition (OFC).

[5] R. Casellas,et al. Experimental Validation of Transport SDN Restoration of Signal-Degraded Connections in Flexi-Grid Networks , 2018, 2018 Optical Fiber Communications Conference and Exposition (OFC).

[6] Adrian Farrel,et al. An Architecture for Use of PCE and the PCE Communication Protocol (PCEP) in a Network with Central Control , 2017, RFC.

[7] Adrian Farrel,et al. A PCE-Based Architecture for Application-Based Network Operations , 2015, RFC.

[8] Piero Castoldi,et al. Monitoring Plane Architecture and OAM Handler , 2016, Journal of Lightwave Technology.