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JGN2Plus Optical Testbed

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Mission of JGN2plus from a Viewpoint of Research ... YRP (Yokosuka) Hokuriku [1G] Hokuriku (Kanazawa) Ishikawa Create Lab (Nomi) [100M] ... – PowerPoint PPT presentation

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Title: JGN2Plus Optical Testbed


1
JGN2Plus Optical Testbed
  • Hideki Otsuki
  • Nict

2
JGN2plus
  • A new RD network testbed
  • Post JGN2
  • Nation wide network
  • L3, L2 and optical fiber
  • Testbed for network
  • Testbed for application

3
Mission of JGN2plus from a Viewpoint of Research
  • Backbone for new RD activities in network
    technology
  • Grid, Broadcasting applications
  • Advanced network service (ex. Light path, GMPLS)
  • Collaboration with SINET and other Grid projects,
    etc.
  • Ubiquitous, Sensor, P2P
  • Need New communication paradigm by overlay
    network
  • Planet Lab, PIAX
  • Collaboration with ubiquitous projects, specially
    appointed ubiquitous area, information explosion
    project, Live-E, etc.
  • Define Operation model for and migration path to
    new generation network
  • Vehicle for Global Collaboration
  • International collaboration on E-science and NWGN
    research
  • International education, human resource
    development
  • Standardization, footprint for development of
    Service Platform
  • Regional Collaboration
  • promotion of U-Japan
  • Collaboration with other activities in NICT
  • Security, Starbed(Internet Realscale simulator) ,
    Universal communication, Quantum communication,
    Space weather, e-VLBI

4
JGN Project Mile Stone
NICT 3rd Mid-term Plan
NICT 2nd Mid-term Plan (2006.4-2011.3)
CRL (NICT) 1st Mid-term Plan (2001.4-2006.3)
2011.4-
(1999.4-2004.3)
(2004.4-2008.3)
JGN2plus
To New Testbed
2008.4-2011.3
2011.4-
5
Target of JGN2plus
- Toward Nation-wide deployment of broadband
network - Popularization of IPv6 technology
- Toward Implementation of Next Generation
Internet (NGN / IPv6) - RD of Optical NW -
Application Development - International Community
- Toward Implementation of New Generation
Network - RD of Service Platform - International
Experiments
JGN2plus
Post JGN2
JGN
JGNII
JGN2plus
1999 2000 2001 2002 2003 2004 2005 2006
2007 2008
6
JGN2plus Services Available
Network Services
  • L3 IP connection
  • - IP interconnection among JGN2plus users, or
    among JGN2plus users and other research networks
  • IPv4/v6 dual stack, IPv6 Native (Full route),
    Core routers on main APs
  • L2 Ethernet connection
  • Point-to-point connection service VLAN-based L2
    point-to-point interconnection
  • Multi-point connection service VLAN-based L2
    multi-point interconnection
  • Jumbo-frame support (over 1G, 10G lines)
  • Optical Testbed
  • Hakusan (8 fibers) Otemachi (16 fibers)
    Koganei
  • for experiments of optical-level transmission

International circuits
SG
US
TH
CN
KR
Operation X RD
  • Operation Service RD
  • Operation / management of circuits, equipments
    on APs
  • Service Platform Provisioning
  • Technical supports

7
JGN2plus Services (1) JGN2plus Network Outline
1 Access Point 2 Internet Exchange 3
Partnership Access Point
Tohoku
  • 10G
  • Tohoku (Sendai)
  • Tohoku Univ. (Sendai)
  • 1G
  • Iwate Pref. Univ. (Takizawa)
  • Univ. of Aizu (Aizu Wakamatsu)
  • 100M
  • Akita Regional IX 2 (Akita)
  • Hachinohe Institute of Technology
  • (Hachinohe)
  • Yamagata Prefecture (Yamagata)

(Access to JGN2plus at APs of Okayama Information
HW and Tottori Information HW is available via
interconnection with these networks.)
KR
JGN2plus / APII Circuit
JGN2plusInternational Circuits
US TH SG CN
8
JGN2plus Services (2) Optical Testbed Service
(about 12km)
Otemachi
Hakusan
Koganei
(about 50km)
Low-loss SMF x 8 (4 pairs)
Low-loss SMF x 16 (8 pairs)
  • JGN2plus Optical Testbed Service
  • Koganei-Otemachi Section
  • about 50km
  • Single mode optical fiber (ITU-T G.652) x 8
  • Low-loss SMF (within 20dB loss at 1550nm band,
    without any transponders / amplifiers)
  • Otemachi-Hakusan Section
  • About 12km
  • Single mode optical fiber (ITU-T G.652) x 16
  • Low-loss SMF (within 10dB loss at 1550nm band,
    without any transponders / amplifiers)

9
JGN2plus Services (3) JGN2plus International
Circuits (L2/L3)
CAnet4 (Canada)
GLORIAD (USA, Russia, China)
GEANT2 (Europe)
APAN (Asia)
UKLight (UK)
IEEAF (USA)
TEIN2 (Asia, Europe)
KOREN (Korea)
SURFnet (Netherland)
Chicago
PacificWave (USA)
CERNET (China)
LA
Tokyo
KR
CSTNET (China)
MREN (USA)
StarLight (USA)
HK
UniNet (Thailand)
TransPAC2 (USA)
BKK
Internet2 (USA)
NLR (USA)
ThaiSarn (Thailand)
SG
SingAREN (SingAREN)
US-JP line Tokyo-Los Angeles-Chicago,
10Gbps TH-JP line Tokyo-Bangkok, 45Mbps SG-JP
line Tokyo-Singapore, 155Mbps KR-JP line (APII)
Fukuoka-Busan, 10Gbps HK-JP line Tokyo-Hong
Kong, 2.4Gbps
AARNet (Australia)
10
RD in JGN2plus SPARC
Other RD activities in Internet / NGN areas
MIC / NICT
New Generation Network Promotion Forum
Strategic Headquarters for NWGN RD
NWGN Research Areas in NICT
International RD NWs
NW Virtualization - Five Nines- User Opt-in,
etc.
Optical NW - Optical Grid- Light Path
Integration
Photonic NW - Quantum communication
Cryptography- Optical Packet, etc.
Application - Tele-Immersion- Time
Synchronization /Distribution
Wireless - Cognitive- FMC, etc.
JGN2plus SPARC (at Otemachi)
Research Topic 1
Research Topic 2
Research Topic 3
Research Topic 4
Research Topic 5
RD on NWGNService Testbed federationtechnology
(Nakayama)
RD on middleware and Applicationof Light Path
NW(Otsuki)
Establishment of Component Technologiesfor NWGN
Operation (Esaki)
Verification ofTechnologies for International NW
Operation(Kitamura)
RD on NWGNService PlatformFundamental
Technology(Shimojo)
- Cutting-Edge Application - Interoperability
Test / Standardization
- Multi-layer Overlay NW Integration /
Evaluation Technology
  • - Network Monitoring
  • - Traffic Management
  • P2P Traffic Engineering
  • NGN / IMS-SIP Operation Technology

- Distributed Data Fusion Technology - Structured
/ Adaptive Overlay Technology
- Status Monitoring / NW Control - Evaluation of
Advanced Domestic / Global NW Systems
Testbed Network Operation (Kobayashi, Yamamoto)
Invited RD Projects (2-3)
General RD Projects (150)
11
Object Optical testbed
  • Experiments of any layer
  • Laser transmit test
  • Optical transport
  • Codec
  • Multiplex
  • Optical Packet Switch system
  • Burst switch system
  • GMPLS optical path control
  • Higher bit-rate challenge
  • Quantum
  • Application
  • Super High Density TV
  • E-science
  • Grid
  • Wall display

12
Testbed SPEC
  • Koganei-Otemachi Section
  • about 50km
  • Single mode optical fiber (ITU-T G.652) x 8
  • Low-loss SMF (within 20dB loss at 1550nm band,
    without any transponders / amplifiers)
  • Otemachi-Hakusan Section
  • About 12km
  • Single mode optical fiber (ITU-T G.652) x 16
  • Low-loss SMF (within 10dB loss at 1550nm band,
    without any transponders / amplifiers)

13
Testbed Topology
Otemachi
Otemachi
About 592km, one way About 296km, 1pair About
148km, 2pair
14
Testbed Topology
Otemachi
H
K
Otemachi
Otemachi
H
K
H
Otemachi
15
Testbed Topology
Otemachi
Otemachi
H
H
Otemachi
Otemachi
Otemachi
K
K
H
H
Otemachi
Otemachi
16
Transmission test with
  • WDM
  • Optical codec
  • PSK,OCDM,OFDM,
  • Parallel transmission with wave band
  • Access
  • OCDMA,OFDMA,WDMA

17
OPS
18
GMPLS
  • Control protocols for (optical/electrical) path
  • FSC/LSC/TDM/L2SC/PSC
  • Layer interaction with these switching
    capabilities
  • Cooperation with high end applications

19
eVLBI
  • Very Long Baseline Interferometery
  • Higer network will extend application area

Observation
Observation Analysis
Post processing Network Transfer
semi realtime network tranfer in a few seconds.
20
Super HDTV, Wall Display
  • Requires extremely high speed network

21
Conclusions
  • We hope this optical test bed enforce and
    support various experiments from low layer
    through application technologies.
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