Towards monitoring hybrid next-generation software-defined and service provider MPLS networks

[1]  Luca Chiaraviglio,et al.  SDN‐based resource allocation in MPLS networks: A hybrid approach , 2019, Concurr. Comput. Pract. Exp..

[2]  Pere Barlet-Ros,et al.  Flow monitoring in Software-Defined Networks: Finding the accuracy/performance tradeoffs , 2018, Comput. Networks.

[3]  Mohamed Talea,et al.  Novel SDN architecture for smart MPLS Traffic Engineering-DiffServ Aware management , 2018, Future Gener. Comput. Syst..

[4]  P. Castoldi,et al.  P4 In-Band Telemetry (INT) for Latency-Aware VNF in Metro Networks , 2019, 2019 Optical Fiber Communications Conference and Exhibition (OFC).

[5]  George Varghese,et al.  P4: programming protocol-independent packet processors , 2013, CCRV.

[6]  Elisa Rojas,et al.  ARP-P4: deep analysis of a hybrid SDN ARP-Path/P4Runtime switch , 2019, Telecommunication Systems.

[7]  Ayoub Bahnasse,et al.  Smart hybrid SDN approach for MPLS VPN management on digital environment , 2019, Telecommunication Systems.

[8]  Rui L. Aguiar,et al.  Network Functions Virtualization: The Long Road to Commercial Deployments , 2019, IEEE Access.

[9]  Nazaruddin Omar,et al.  Hybrid Software-Defined Network Monitoring , 2019, IDCS.

[10]  Cristina L. Abad,et al.  The SPEC-RG Reference Architecture for FaaS: From Microservices and Containers to Serverless Platforms , 2019, IEEE Internet Computing.

[11]  Zhiyang Su,et al.  CeMon: A Cost-effective Flow Monitoring System in Software Defined Networks , 2015, Comput. Networks.

[12]  Chuanchang Liu,et al.  Clé: Enhancing Security with Programmable Dataplane Enabled Hybrid SDN , 2019, CoNEXT Companion.