NFV orchestration over disaggregated metro optical networks with end-to-end multi-layer slicing enabling crowdsourced live video streaming
Author:
Funder
Engineering and Physical Sciences Research Council
H2020 LEIT Information and Communication Technologies
Publisher
The Optical Society
Subject
Computer Networks and Communications
Reference24 articles.
1. The lockdown effect: implications of the COVID-19 pandemic on Internet traffic;Feldmann,2020
2. Cloud-Assisted Live Streaming for Crowdsourced Multimedia Content
3. A control and management architecture supporting autonomic NFV services
4. Field trial of multi-layer slicing over disaggregated optical networks enabling end-to-end crowdsourced video streaming;Muqaddas,2020
5. Service Orchestration Over Wireless Network Slices: Testbed Setup and Integration
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1. Enabling P4 Network Telemetry in Edge Micro Data Centers With Kubernetes Orchestration;IEEE Access;2023
2. Optical network design and analysis tools: A test of time;Optical Switching and Networking;2022-05
3. Advances in SDN control and telemetry for beyond 100G disaggregated optical networks [Invited];Journal of Optical Communications and Networking;2022-03-16
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