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FP7 EU-JP Project : STRAUSS
Ken‐ichi Kitayama (JP Project Coordinator)Osaka University
2Hrizon 2020 – NCP Japan, December 15 2014, Tokyo
Project facts and consortium
www.ict‐strauss.eu @ICTstrauss
Project Facts Start Date: 1/6/2013 Duration: 36M EU Funding: 1.49 M€ JP Funding: 2.82 M€
EU CONSORTIUM CTTC (ES) ADVA Optical Networking (DE), Telefónica I+D (ES) University of Bristol (UK) Fraunhofer – HHI (DE)
JP CONSORTIUM Osaka University KDDI R&D Laboratories Inc. Fujitsu Ltd.
Contact: Raul Muñoz, CTTC Ken‐ichi Kitayama, Osaka University Industrial Partners
Research Centers
Universities
3Hrizon 2020 – NCP Japan, December 15 2014, Tokyo
The STRAUSS project focuses on the design, development and integration of: Highly integrated and scalable software defined optical transceivers
supporting bandwidth variable multi‐flows for flexible Ethernet transmission based on OFDM and DMT.
Flexi‐grid DWDM optical circuit switching node architectures for long haul transport.
Cost/energy efficient and extremely fast‐performing switching node architectures based on variable‐capacity and fixed‐length optical packet switching technology for access and aggregation networks, and OPS/OCS integrated interface.
A virtualization layer for dynamic and on‐demand partitioning of the optical infrastructure, offering virtual optical networks .
Control plane architectures based on either legacy (e.g. GMPLS) and new (e.g. OpenFlow based) approaches for the control and management of virtual optical networks.
A service and network orchestration layer for the interworking and coordination of heterogeneous control planes and transport technologies to offer end‐to‐end Ethernet transport services.
Project Objectives
4Hrizon 2020 – NCP Japan, December 15 2014, Tokyo
Overall architecture
5Hrizon 2020 – NCP Japan, December 15 2014, Tokyo
WP Overview
WP1 Coordination
WP2 Flexible Optical Infrastructure Solutions for Ethernet Transport
WP3 Network Virtualization, Control Plane and Service OrchestrationWP4 Implementation and
demonstration
OPS/OCS‐integrated networking on JGN‐X testbed
EU testbed
Intercontinental EU ‐Japan testbed
StandardizationWP5 Dissemination, Standardization, and Exploitation of Results
Dissemination Exploitation plan
Sliceable, bandwidth‐variable transceiver technologies
Flexible/adaptable optical nodes for Flexi‐grid DWDM networks
Optical Packet switching technology and integrated interface
Transport Network Virtualization
Transport Technology Specific Control plane
SDN‐based cross‐layer and cross‐technology orchestration
6Hrizon 2020 – NCP Japan, December 15 2014, Tokyo
First international SDN-based Network Orchestration of Variable capacity OPS over Programmable Flexi-grid EON
OpenFlow‐basedfixed‐length
variable‐capacity OPS
40‐100Gbps DMT Tx as BVT
OPS<‐>EONInterfacing
OpenFlowController
RX3RX2
OpenFlowagent
optical packets
OpenFlowController
ProvisioningManager
SDN Network Orchestrator
Extended PCEP for OF
Topology Rest API
Flow Programmer REST API
Topology API
PCE
Topology Server
Topology Rest APIFlow
Programmer REST API
Elastic Optical Network with OPS interface
OPS Router RX1
Challenge: Multi‐domain multi‐technology network orchestration
ABNO Controller
7Hrizon 2020 – NCP Japan, December 15 2014, Tokyo
Project public website (www.ict‐strauss.eu) Project private website (intranet with file repository) Dissemination material (Fact sheet, Leaflet, poster, slides, etc) Twitter account: @ICTStrauss Project newsletters (biannual) Scientific Dissemintation:
20 International conferences (1 ECOC 2013 PDP, 3 ECOC 2013 papers, 1 OFC 2014 PDP, 5 OFC 2014 papers), 5 peer‐reviewed journal papers, and 13 invited talks (1 ECOC 2013 workshop, 1 OFC 2014 workshop)
3 live demonstrations (iPOP 2014, TNC 2014 and OFC 2014) Two contributions to IETF drafts (ABNO and PCE) and two IEEE802.3
contributions were prepared and submitted to the 400Gb/S Ethernet Study Group.
Dissemination, Standardization, and Exploitation of Results
8Hrizon 2020 – NCP Japan, December 15 2014, Tokyo
Wide coverage of excellent publications
Conference Papers
Journal Papers Invited Talks Booths & Demonstrators
9Hrizon 2020 – NCP Japan, December 15 2014, Tokyo
Demonstration and exploitation activities
Demonstration of STRAUSS prototype (400GbE Transceiver by Optical DT) at OFC 2014
Demonstration of 4K Video Service Orchestration atTerena Networking Conference 2014
Demostration of OpenFlow‐based OPS/OCS Unified Control Plane at iPoP 2014
10Hrizon 2020 – NCP Japan, December 15 2014, Tokyo
Value proposition of EU-JP collaboration
A synergistic effect is expected by teaming up with academia, telecom carrier, and vendor brings about synergy in EU and JP.
EU‐JP collaboration brings about ; A wide variety of technology alternatives under the open innovation Harnessing a close connection, benefitting international standardization
activities in the future Inspiring experience of exposing to different culture and research
environment Cross‐recruiting opportunity between EU and Japan for young prospects in
academia to industries
Consortium Agreement between all the JP and EU partners were a “must” to start the project, but it took half a year to fill the gap of understanding between the partners and to complete it.
Consortium Agreement between all the JP and EU partners were a “must” to start the project, but it took half a year to fill the gap of understanding between the partners and to complete it.
11Hrizon 2020 – NCP Japan, December 15 2014, Tokyo
A good team‐up for close collaboration between the JP and EU partners.
More and better technical achievements than expected in the Year 1.
Good start of exploitation activities
Excellent dissemination and standardization results
High impact of STRAUSS project than expected top ranking and invited STRAUSS publications wide coverage in high‐profile scientific conferences and journals
Summary
Thank you !
Ken‐ichi Kitayama <[email protected]‐u.ac.jp>