Transcript FIRE - AsiaFI

Future Internet Research and
Experimentation – FIRE
www.ict-fire.eu
Jacques Magen
FIRE STATION
[email protected]
AsiaFI 2011– August 10, 2011
1
What is FIRE?
Validation
Research
FIRE Research
Large Scale
Experiments
Requirements
FIRE Experimental Facility
User Communities
Test bed 1
Test bed 1
Test bed 2
Test bed 4
Test bed 3
Exp 2
Test bed 2
Exp 5
Test bed 9
Test bed 3
Test bed 5
Exp 4
Test bed 4 Exp1
Test bed 6
Test bed 5
Exp
3
Test bed 7
Test bed 6
Test bed Federated
7
Test bed 8
Service Testbeds
Test bed 8
Federated Network Testbeds
FIRE - Future Internet Research and Experimentation
2
Benefits of FIRE for Europe
The FIRE initiative creates an
open research environment,
which facilitates strategic
research and development on
new Internet concepts giving
researchers an instrument to
carry out large-scale
experimentation on new
paradigms
3
FIRE: One of several Future Internet activities
FI in international context
FP7 “Challenge 1”:
Network of the Future
European
Areas of
relevance
for FIRE
~200 projects covering
research in communications,
networks, media technologies,
software & services, trust &
security, Internet of things
Started: 2007 Funded here
FI Assembly
Constituency building
Future research trends
FIA constituency impact
FIA conference &
workshops
FIA scientific book
Started 2008
National FI Initiatives
National
More than 15 European
countries have national FI
focussed RTD &
Innovation actions
ongoing
Research & Innovation
FI-PPP
Innovation oriented FI
research partnership
Will start in 2011
- United States,
- Japan
- Korea,
- BRIC (Brazil, Russia,
India, China)
-…
FP8 Definition
CIP Pilots
Stimulate deployment of FIbased services in smart cities.
2010
Representatives of EU
Member states and FP7
associated countries
Started 2009
FI Forum
EUREKA
- CELTIC-PLUS
(communications)
- CATRENE (nano-electronics)
- EURIPIDES (microsystems)
- ITEA2 (software)
Pilots
Representatives of
EU Member states
and FP7 associated
countries.
Started 2009
Policy
4
technology risk
Future Internet: Comprehensive EU approach
longer-term R&D 
integration of new ICT & new ideas 
open platforms and interoperability 
FI PPP
CIP
Piloting
deployment
FP7
 at-scale experimentation
FIRE
 collaborative/exploratory
environ.
 market oriented R&D, supply/demand
 cost-efficiency, common enablers
 large scale trials (using existing
technology)
 service innovation
2-3 years
5-10 years
time to market
5
FIRE: Experimentally driven R&D
coordination and support measures
experimental facility
experimentally-driven research
• Supporting research and innovation on new network
and service architectures
• Through large scale experimentation, predict
behaviour and assess non-technical impact
6
FIRE Projects – Research
Multi-hop
wireless
Cognitive
routing
User
centric
LAWA
OPNEX
ECODE
CONVERGENCE
PlanetLab (OneLab2)
N4C
Smart
Antennas
P2P /
IMS
Services on Clouds/Grids
(BonFIRE, TEFIS)
EULER
Smart
buildings
HOBNET
Internet of Things
(WISEBED, SmartSantander)
Vital ++
Network
Resilience
Routing
IMS (PII)
Self
Mngt.
Self-Net
NOVI
Core network (FEDERICA)
SCAMPI
Resume-Net
Edge
Infrastructure
Content
centric
Cognitive radio (CREW)
DTN
Open Flow (OFELIA)
Smart-Net
Flexible
radio
CONECT
FIRE experimental
Facilities:
PERIMETER
Large-scale
data
Nanodatacenters
SPITFIRE
Internet of
things
Virtual
infra.
Services
on opport.
networks
7
FIRE Projects – Call 2 (completed)
Main Facility Projects
• OneLab2: An open federated laboratory supporting network
research for the future Internet - the European part of PlanetLab
http://www.onelab.eu/index.php/projects/onelab2.html
• PanLab – PII: Pan-European Laboratory Infrastructure
Implementation http://www.panlab.net/
• WISEBED: A number of independent sensor networks located at
9 locations throughout Europe http://www.wisebed.eu/
• FEDERICA1: Federated E-infrastructure Dedicated to European
Researchers Innovating in Computing network Architectures
http://www.fp7-federica.eu/
1
Not funded from the FIRE Programme
8
FIRE Projects – Call 5
FIREBALL
PARADISO 2
MyFire
FIRE Station
Building the Experimental Facility and stimulating its use
Smart Santander
TEFIS
BonFIRE
OFELIA
CREW
Users
Users
Experimentally-driven Research
CONECT
EULER
LAWA
SPITFIRE
SCAMPI
Validation
Research
Requirements
IP Facility Projects Call 5
HOBNET
CONVERGENCE
NOVI
Large Scale
Experiments
STREP Projects Call 5
Coordination & support actions Call 5
17 projects, 50 M€ - start in 2010
Coordination and Support Actions
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What is new with the Call 5 FIRE projects
•
Expanded scope related to
networking and far beyond:
• Service architectures and clouds
• Sensor networks
• New networking issues:
Cognitive radio,
OpenFlow
•
Increased emphasis on system level
• Some FIRE research projects focus on system-level testing
•
Support for demand-driven open federation of facilities
• Joint FIRE Architecture Board moderated by FIRE STATION
• 20% of budget in each new facility project reserved for
federation between facilities
10
FIRE Projects – Call 5 (started mid- 2010)
Facility Projects
• BonFIRE: Building service testbeds for Future
Internet Research and Experimentation
• CREW: Cognitive Radio Experimentation World
• OFELIA: OpenFlow in Europe – Linking
Infrastructure and Applications
• Smart Santander: Environmental sensor
network in the Spanish city of Santander
• TEFIS: Testbed for Future Internet Services
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BonFIRE
Objectives:
Building service
testbeds for Future Internet Research
and Experimentation
•
To build a multi site cloud
facility to support
applications, services
and systems research,
targeting the future Internet
of Services
•
To give researchers access
to a facility which enables large
scale experimentation of their
systems and applications
•
To evaluate the cross-cutting effects of converged service
and network infrastructures
www.bonfire-project.eu
12
CREW
Cognitive Radio Experimentation World
Objectives:
•
To build an open federated platform
for experimentally-driven research on
advanced spectrum sensing, cognitive
radio and cognitive networking
strategies in view of horizontal and
vertical spectrum sharing in licensed and
unlicensed bands
•
The CREW facility will incorporate 4 individual wireless testbeds
incorporating diverse wireless technologies (heterogeneous ISM,
heterogeneous licensed, cellular, wireless sensor) augmented with state-ofthe-art cognitive sensing platforms
www.crew-project.eu
13
OFELIA
OpenFlow in Europe - Linking Infrastructure
and Applications
Objectives:
•
To create a unique experimental facility that allows
researchers to not only experiment on a test network but to
control the network itself precisely and dynamically
•
The OFELIA facility is based on OpenFlow, a currently
emerging networking technology that allows to virtualize and
control the network environment through secure and
standardized interfaces
More
www.fp7-ofelia.eu
14
Smart Santander
Objectives:
•
To build a unique-in-theworld city-scale
experimental research
facility in support of typical
applications and services for
a Smart City
•
More than 20,000 sensors
based on a real life Internet
of Things deployment in an
urban setting
www.smartsantander.eu
15
TEFIS
Testbed for Future Internet Services
Objectives:
•
To build a multi site cloud open platform able to integrate
existing and next generation testing and experimental
facilities
•
To develop a connector model that enables facilities to be
accessed and used in a unified manner using Web
services
•
The TEFIS platform integrates 7 complementary
experimental facilities, including network and software
testing facilities, and user-oriented living labs
www.tefisproject.eu
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Use Cases of new FIRE facilities (1a)
OFELIA has 5 testbeds across Europe that create a distributed OpenFlow infrastructure
of multi-layer and multi-technology. The experimental facility will offer access to diverse
technologies, including Ethernet, optical and wireless domains. The islands are
connected by multiple 1GE links to the GEANT network.
CREW has 4 wireless testbeds across Europe, with advanced spectrum sensing
solutions. These can be combined to allow industry
and academia to evaluate wireless protocols
and/or hardware in a controlled environment.
BonFIRE is open for experiments that pose
state-of-the-art research challenges in Cloud
Computing. For example:
• Dynamic Service Landscape Orchestration
for an Internet of Services
• QoS-Oriented Service Engineering for
Federated Clouds
• Elasticity Requirement for Cloud Based
Applications
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“Use Cases” of new FIRE facilities (1b)
SmartSantander has a unique city-scale experimental research facility that
supports typical sensor (IoT) applications and services for a smart city.
TEFIS has a Web portal that provides a single access point to different testing and
experimental facilities. Initially, the TEFIS platform integrates 7 complementary
experimental facilities, including network
and software testing facilities.
An example of a typical Use Case is
a large scale SOA application for a
huge travel-business eCommerce
platform accessible both from
Websites and Web Services.
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FIRE Facility projects
Cognitive
radio
IBBT Virtual
Wall
Federated einfrastructue
Open flow
Services
OpenCirrus/
Clouds
Services
Grid5000
SmartSantander
Smart Cities
SmartSantander
WISEBED
TEAGLE
IMS
PlanetLab
Sensors
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Status of International cooperation
PanLab Project involves a
Canadian partner
A Russian partner
In MyFIRE
Regular links with Korea
Participation in AsiaFI 2011
OFELIA, ResumeNet
And CONECT involve
US Partners
An Indian partner
In MyFIRE
A Japanese
partner in
OneLab2
A Chinese partner in
TEFIS, OneLab and
MyFIRE’s consorsiums
TEFIS and MyFIRE
include a
Brazilian Partner
NanoDataCenter, Onelab2
and ResumeNet involve
Australian Partners
20
International cooperation under way
EU / US (GENI) cooperation
Several common workshops were already organized; joint
projects shall start soon.
EU/Brazil cooperation
A joint Call for Proposal has just closed –one project is about to
start.
Others
Some actions have taken and are taking place with Canada,
India, and Russia.
21
Cooperation with Japan
FIRE STATION represented FIRE during the 3rd EU-Japan
Symposium on Future Internet and New Generation Networks
(NWGN) held in Tampere, Finland, on 20-22 October 2010.
An EU-Japan common call in the near future could be the way
to follow up concretely.
The interaction with CoreLab (PlanetLab) Japan is frequent
and systematic for FIRE projects such as OneLab2.
22
Cooperation with China
China is already a key player in the area of Internet with a
strong emphasis on testbeds. The most developed groups
seem to be located in Beijing and Shanghai.
TEFIS has a Chinese partner: The Shanghai Development
Center of Computer Software Technology.
FIRE STATION’s interactions with China’s take the form of
discussions with contacts in the Networking Research field,
participation in conferences and events.
23
Cooperation with Korea
FIRE Projects
OneLab is working with PlanetLab Korea through PlanetLab
Europe (PlanetLab Korea is federated with PlanetLab Europe).
FIRE STATION
FIRE STATION represented FIRE during the last KOREN
workshop. It was another opportunity to demonstrate the
visibility and importance of FIRE, and make contacts for
potential future cooperation.
More with the AsiaFI Community? For discussion today!
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The FIRESTATION Support Action
FIRE STREP
Projects
Other test beds (outside
FIRE EC projects)
FIRE Office
Entry point from the outside
FIRE STATION
Project Mgt
Other initiatives
(incl. GEANT,
NRENs, G-Lab,
GENI, Asia FI,
FIA, FI-PPP, FIF,
ETPs, etc.)
MyFIRE
Support Action
(BRIC, Standards,
Business Models)
External Relations
FIREBALL
Support Action
(Living Labs in the context
of Smart Cities)
FIRE Architecture Board
Federation between facility projects
Chairman + Moderator
+ 1 representative per running IP project
+ representatives from other relevant
projects
External Experts
Advisory Group
PARADISO2
Support Action
(The socio-economics of
the future Internet)
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FIRE plans under Work Programme 2011/12
Call 7 (closing date: January 2011)
•
Maturing and expanding the FIRE Facility
Complimentary areas
Extending and advancing early prototypes
IPs only, 15 M€
•
FIRE Science
Multidisciplinary NoE in holistic FI research
Overcome fragmentation and integrate life and human sciences
5 M€
3 new facilities:
Networks &
Services;
Content and
Multimedia;
Social Networks
(TBC)
Call 8 (closing date: January 2012)
•
FIRE Federation
Implement a high level federation framework for all facilities
Making it self-sustainable towards 2015
Develop credible business models assuming decrease of EU funding
1 IP, 8M€
•
FIRE Experimentation
Challenging RTD, e.g. on holistic network and service architectures
Innovative usage of the FIRE facility
STREPs only, 15 M€
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FIRE Projects – Open Calls
An “Open Calls Information Day” was organized on 9
February 2011 in Brussels for three FIRE experimental
facilities: BonFIRE, OFELIA and TEFIS. These Open Calls are
designed to stimulate the use of the facilities of each of
these facilities through new innovative experiments.
The Open calls were a real success:
-
71 proposals submitted (about 10 will be retained);
A total amount of 16 million euros (requested funding: 11.8 million
euros);
Most of the proposals demonstrated technically brilliant ideas with a real
added value for the FIRE facilities.
Next Open Calls Information Day: 14 September 2011 in Brussels (for
CREW, SmartSantander and OpenLab)
Open to international cooperation!
More info at: www.ict-fire.eu
27
New EU initiative: “Future Internet PPP”
To answer FI challenges,
the European Commission
has launched the Future
Internet Public-Private
Partnership Programme
(FI-PPP).
The main goal is to advance
a shared vision for
harmonised European-scale
technology platforms and
their implementation, as
well as the integration and
harmonisation of the
relevant policy, legal,
political and regulatory
frameworks.
More at www.fi-ppp.eu
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The INFINITY Project
INFRASTRUCTURES AND
EXPERIMENTAL TRIALS
ALL OVER EUROPE
Communication
Channels
Other
Users
Concertation
Board
Requirements
Technical
Exchanges
Partnership
Strategy
Methodology
Database
USER
WEB
REPOSITORY
www.fi-infinity.eu
Communication
& Dissemination
FI-PPP Projects
SMEs
Industry
Academic Institutions
Public Authorities
Etc.
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The FIRE Website www.ict-fire.eu
Maintained by the FIRESTATION Support Action
30
The FIRE Brochure
Downloadable at http://www.ict-fire.eu/home/publications.html
31
The FIRE Wiki http://wiki.ict-fire.eu
(maintained by the FIRESTATION Support Action)
http://wiki.ict-fire.eu
32
Thank you for your attention
More information: www.ict-fire.eu
Contact: [email protected]
The research leading to these results has received funding from the European Union's Seventh Framework Programme (FP7 2007-2013, ICT
objective 1.6) under grant agreement nr. 257439 FIRESTATION.
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