FUTEBOL: Federated Union of Telecommunica�ons Research Facili�es for an EU-Brazil Open Laboratory Enabling experimental research through converged orchestra�on of op�cal, wireless, and cloud domains Consortium Acknowledgment FUTEBOL has received funding from the European Union's Horizon 2020 for research, technological development, and demonstra�on under grant agreement no. 688941 (FUTEBOL), as well from the Brazilian Ministry of Science, Technology and Innova�on (MCTI) through RNP and CTIC. Overview FUTEBOL CF Architecture Contact Johann M. Marquez-Barja – imec/UAntwerp johann.marquez-barja@{imec.be,uantwerpen.be} h�p://www.ict-futebol.org.br/ News LTE-LSA VERONA Clients QoE Measurement LICENSED SHARED ACCESS FOR EXTENDED LTE CAPACITY WITH E2E QoE Robot (Sensor + Actuators) REAL-TIME REMOTE CONTROL OF ROBOTS OVER A WIRELESS-OPTICAL SDN-ENABLED INFRASTRUCTURE Remote User Local Site Temperature Sensor Humidity Sensor Sound Sensor Radio over Fiber RADIO-OVER-FIBER FOR IoT ENVIRONMENT MONITORING Storage Fog Local Site (Sensors/Actuators) ADAPTIVE CLOUD/FOG FOR IoT ACCORDING TO NETWORK CAPACITY AND SERVICE L ATENCY REQUIREMENTS Compu�ng HETEROGENEOUS WIRELESS OPTICAL NETWORK MANAGEMENT W ITH SDN AND VIRTUALIZATION Container Hos�ng D2D RAN Fog Verona Server O2CMF Data Center NFV Orchestrator Op�cal Controller SDN Controller Wireless Controller Service Cloud RAN COPA ABNO Experimenta �on Areas FUTEBOL CF Func�onali�es Experiment orchestration - Inter-testbed live-migration - Functional converged network orchestration - Networking and cloud convergence Network and cloud control - Programmable physical parameters Slicing of heterogeneous resources - Fed4Fire federation Layer 2 inter-testbed connectivity Provisioning of service catalog The FUTEBOL project has established research facilities in both Europe and Brazil to advance research and innovation on the convergence point of wireless-optical telecommunication networks. The FUTEBOL Control Framework (CF) is a software toolkit that integrates the provisioning, control, and orchestration of experiments across wireless, optical, and fog/cloud domains. Each experiment can choose a subset of the available resources and tools, depending on experiment requirements and the capabilities deployed by each testbed. Conclusion Through the FUTEBOL CF we are able to orchestrate heterogeneous wireless, optical, fog/cloud resources in a flexible and coordinated manner, enabling complex experimentation setups to the main challenges in telecommunication networks. Janet FIBREnet Service Layer TCD UNIVBRIS UFRGS USRP-Based Programmable RAN UFES VTT Cloud Infrastructure IoT Environment DWDM DWDM DWDM Packet-Switched OpenFlow Network Op�cal OpenFlow Network LSA Platform UFMG Stitched Circuit Stitched Circuit } Experimenta�on Slice SDR Controller Packet SDN Controller Optical SDN Controller COPA } Infrastructure Orchestra�on Video Streaming Coded Caching Voice Recognition Leap Motion Experiment and Control and Orchestration Layer Virtualiza�on Layer Converged Physical Infrastructure Layer Cloud Virtual Infrastructure Testbed Management Layer Service Catalogue Federation API Slice Management Inter-testbed Connectivity ABNO O2CMF O2CMF AM FOAM CBTM OESS VXLAN Application-Based Network Orchestrator Container Orchestration and Provisioning Architecture OpenStack and OpenFlow Control Management Framework