© 2003 – rnp advanced applications and optical networking in brazil winco’05 mexico city,...
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© 2003 – RNP
Advanced Applications and Optical Networking
in Brazil
WINCO’05Mexico City, Mexico
April 2005
Advanced Applications and Optical Networking
in Brazil
WINCO’05Mexico City, Mexico
April 2005
Tereza Cristina M. B. CarvalhoANSP (Academic Network of S. Paulo State)
University of São Paulo – USP, Brazil<[email protected]>
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AgendaAgenda
Networking Testbeds in Brazil.● Giga Project● TIDIA Program and KyaTera Project
KyaTera Project
International Collaborative Initiatives
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Current experimental optical networking projects in BrazilCurrent experimental optical networking projects in Brazil
GIGA Project - Optical Networking and Advanced Applications Testbed
TIDIA Program – Advanced Internet Technologies● e-learning● Content Incubator● KyaTera Testbed
NetworkingWebLabs
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GIGA Project (Brazil)GIGA Project (Brazil)
Partnership between RNP and CPqD (former telco monopoly’s R&D centre in Campinas, SP) www.rnp.br and www.cpqd.com.br
Explore user control of optical fibre infrastructure● interconnect 17 academic R&D centres along the corridor Campinas -
Rio de Janeiro (~600 km)● use of IP/DWDM with Ethernet framing over dark fibre
Support R&D subprojects in optical and IP networking technology and advanced applications and services
Industry participation (telcos provide the fibres; technology transfer of products and services required)
Government funding for 3 years - started December 2002
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Experimental GIGA network (R&D only): States of São Paulo and Rio de Janeiro
Experimental GIGA network (R&D only): States of São Paulo and Rio de Janeiro
telcosUNIFESP
USP - IncorUSP -
C.Univ.
CPqDLNLS
Unicamp
LNCC
CPTEC UFF
CTAINPE
CBPFLNCC
FiocruzIME
IMPA-RNPPUC-Rio
telcosUERJUFRJ
UniversitiesIMEPUC-RioUERJUFFUFRJUnicampUNIFESPUSP
R&D CentresCBPF - physicsCPqD - telecomCPTEC - meteorologyCTA - aerospaceFiocruz - healthIMPA - mathematicsINPE - space sciencesLNCC - HPCLNLS - physics
About 600 km extension - not to scale
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Rede Nordeste (NorthEast Network): integration with RNPng
Rede Nordeste (NorthEast Network): integration with RNPng
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Rede Nordeste (NorthEast Network): integration with the testbed of Project GIGA
Rede Nordeste (NorthEast Network): integration with the testbed of Project GIGA
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Rede Nordeste: future of R&D of Project GIGA
Rede Nordeste: future of R&D of Project GIGA
Project GIGA lasts for 3 years, until the end of 2005.
We have as product a large laboratory for R&D in telecommunications and advanced networking – the testbed
Project Rede Nordeste extends this testbed from 700 to 4.000 km, connecting R&D institutions in cities in NE Brazil.
It is expected that Project Rede Nordeste also includes support, from 2006, for:maintenance and operation of the extended testbed networknew R&D activities in telecom and advanced networking using the extended testbed
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TIDIA Program: KyaTera ProjectTIDIA Program: KyaTera Project
Organization
KyaTera Project● Objectives● Organization - Working Groups
Optical LayerTransport LayerWebLabs
São Paulo State
Internet
Internet2
RMAV-SP
RNP2
Campinas
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TIDIA OrganizationTIDIA Organization
TIDIA = IT in the Development of the Advanced Internet
The TIDIA program is organized in 3 subprojects:● KyaTera Project
Network infrastructure. Just started in March 2004.
● E-Learning Project E-Learning tools. To start in May 2004.
● Content Incubator Project Free repository for data and programs. Operating since March, 2003.
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TIDIA OrganizationTIDIA Organization
TIDIA
KyaTera
e-learning
Content Incubator
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KyaTera ObjectivesKyaTera Objectives
Kya = Net in Tupi-Guarani Tera = speed of Terabits/s
Create a communication infrastructure that enables the development of:● Advanced applications.● Research related to optical transmission, switching and
routing.● Research related to traffic engineering and Quality of Service.
Selection of 27 Research Multi-Institutional Teams ● 5 Principal Laboratories (5 LP’s)● 22 Associate Laboratories (22 LA’s)
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KyaTera OrganizationKyaTera Organization
Divided into 3 Working Groups:● Optical Layer
Optical transmission, switching and routing
● Transport Layer Traffic Engineering Quality of Service
● WebLabs Enables performing remote experiments through the connection of
virtual laboratories or interface with remotely located devices.
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KyaTera OrganizationKyaTera Organization
KyaTera
GT 1Optical Layer
GT 2Transport Layer
GT 3Web Labs
LP 1
LP 2 LP 2
LP 3 LP 3
LA
LA
LA
LA
LA
LA LA
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KyaTera OrganizationKyaTera Organization
ExperimentalNetwork
Layer 2
Layer 1
Layer 2
ExperimentalNetworkLayer 3
ExperimentalNetwork
Layer 1
São Paulo State
Internet
Internet2
RMAV-SP
RNP2
Campinas
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KyaTera Optical LayerKyaTera Optical Layer
Araraquara
São Paulo
SJ Campos
Cachoeira Paulista
Campinas
Piracicaba
Botucatu
Bauru
SJ Rio Preto
Jaboticabal
São Carlos
Rio Claro
First Phase
2nd & 3rd Phases
Towards Dark Fiber
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Logical Network Logical Network
UNICAMP
USP São Carlos
7 Different LANs 10 GbE Uplink each
24 X SMF-28 Fiber(~700m)
Routing
WDM(at least 4 l)
24 X G.652(~150 km)
UFSCar
3 Different LANs 10 GbE Uplink each
24 X G.652(~7 km)
Routing
WDM(at least 4 l)
11 Different LANs10 GbE Uplink each
24 X SMF-28 Fiber(~2 km)
PUCCamp
LAN10 GbE Uplink
2 X G.652(~3 km)
CPqD
LAN10 GbE Uplink
2 X G.652(~5 km)
USP
Routing
WDM(at least 4 l)
12 Different LANs 10 GbE Uplink each
144 X SMF-28 Fiber(~3 km)
36 X G.652(~110 km)
PUCSP
LAN 10 GbE Uplink
Unifesp
LAN 10 GbE Uplink
Mackenzie
LAN 10 GbE Uplink
Lab. Plantas
LAN 10 GbE Uplink
INCOR
LAN 10 GbE Uplin
6 X SMF-28 Fiber
2 X SMF-28 Fiber
2 X SMF-28 Fiber
2 X SMF-28 Fiber 2 X SMF-28 Fiber
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Logical and Emulated
Networks Logical and Emulated
Networks
UNICAMP
USP São Carlos
7 Different LANs 10 GbE Uplink each
24 X SMF-28 Fiber(~700m)
Routing
WDM(at least 4 l)
24 X G.652(~150 km)
UFSCar
3 Different LANs 10 GbE Uplink each
24 X G.652(~7 km)
Routing
WDM(at least 4 l)
11 Different LANs10 GbE Uplink each
24 X SMF-28 Fiber(~2 km)
PUCCamp
LAN10 GbE Uplink
2 X G.652(~3 km)
CPqD
LAN10 GbE Uplink
2 X G.652(~5 km)
USP
Routing
WDM(at least 4 l)
12 Different LANs 10 GbE Uplink each
144 X SMF-28 Fiber(~3 km)
36 X G.652(~110 km)
PUCSP
LAN 10 GbE Uplink
Unifesp
LAN 10 GbE Uplink
Mackenzie
LAN 10 GbE Uplink
Lab. Plantas
LAN 10 GbE Uplink
INCOR
LAN 10 GbE Uplin
6 X SMF-28 Fiber
2 X SMF-28 Fiber
2 X SMF-28 Fiber
2 X SMF-28 Fiber 2 X SMF-28 Fiber
EmulatedNetworks
EmulatedNetworks
EmulatedNetworks
Grid
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Kyatera WebLabsKyatera WebLabs
12 Proposals for WebLabs
Some Examples:● Medical Data Repository for Devices Tunning● Atmosphere Monitoring ● WebBee – remote control of bee colonies for purpose of
ecological preservation.Bee dancing (Video).Bee sound (Audio).
e-Healthe-Healthe-Healthe-Health
Medical Data Repository for Devices Tunning
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Medical Images for Visualization
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Tools for Annotation in Images
Atmosphere monitoring with LASER
Atmosphere monitoring with LASER
Environmental Applications Based on Laser Deployment (LAAL/IPEN)
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LILIght ght DDetection etection AAnd nd RRanginganging
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Lidar System Lidar System
TELESCOPE
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Lidar SystemLidar System
ViNCESViNCESViNCESViNCES
Virtual Networking Center of Ecosystem Services
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WebLab: PollenizersWebLab: Pollenizers
Bioscience Institute - USP
WebLab
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WebBee – Information network about biodiversity among Brazilian native bees
WebBee – Information network about biodiversity among Brazilian native bees
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Colony SensorsColony Sensors
Temperature
Humidity
“Bee detector”● I.R. emitter-detector pair
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Example – Bee CountExample – Bee Count
Flight activity concentration in the morning
Database – Weather station (at IB/USP)
graphics
table
WebBee
WebBee – Information network about biodiversity among Brazilian native bees
•Species database:
•images and text
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International Collaborative InitiativesInternational Collaborative Initiatives
International connectivity provided by Ampath for S. American countries (45 Mbps links), and by direct connections to US for MX (4x 155 Mbps links)
Cooperation with Research Channel● Development of HDTV Portal● Transmission of Multicast
Traffic – DV (Digital Video) at 30 Mbps.
AmPath
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International Collaborative InitiativeInternational Collaborative Initiative
Participation in Instinct Project (Escola Politécnica – University of São Paulo).
Collaboration Projects with Ericsson Research – Sweden, Canada and Brazil● Mobility.● Security.● Advanced Applications.
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Final ConsiderationsFinal Considerations
Optical infrastructure makes possible and desirable new ways of building advanced networks
In Brazil, optical networking has begun with experimental (testbed) networks, with developments both in networking technologies and advanced applications
Requirement to link Brazil optical networking to global initiatives and create collaborative experiments.
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Final ConsiderationsFinal Considerations
Some Research Areas:● Grid Computing● Multimedia Applications
Multicast Transmission. HDTV and Multimedia Applications.
● Mobility.● WebLabs.● e-learning.● e-health.
Using:● Dark Fiber Connection: Ligth Path Connections.● Clara Network.