role of the future internet technologies
TRANSCRIPT
Leased LineModem Broadband
3GWireless
VoIPemail
telnet
The Internet
Fiber Network
1970 1990 2005 201x
The Internet “Common Infrastracture for Digital Information”
Satellite
Leased LineModem Broadband
3GWireless
VoIPemail
telnet
The Internet
Fiber Network
1970 1990 2005 201x
The Internet “Common Infrastracture for Digital Information”
Satellite
“Place for freedom of creativities”
Processes of New Technologies of the Intenet
Step 1.R&D, Non-profit, Experiment, Universities
Step 2.Deployment, Buisiness, Feedbacks
Step 3.Economics, Issues, Governance
Step 4.Solutions, Goto Step1
IPv6 Backbone Wired Broadband
Network: FTTH,ADSL
Wired Broadband Network: FTTH,ADSL
CellulerW-CDMA, CDMA 2000,
CellulerW-CDMA, CDMA 2000,
Wireless LANIEEE 802.11a,b,g
Wireless LANIEEE 802.11a,b,g
Wireless MANIEEE 802.16e,802.20
Wireless MANIEEE 802.16e,802.20
BroadcastingBroadcasting
Mobile Adhoc Network (MANET)Personal Area Network, Vehicle-to-Vehicle
MANET
Unwired Internet
Ad-hoc Network
Layered Wireless Internet Access
Wireless WANWireless WANWireless WANWireless WAN
Wireless LANWireless LANWireless LANWireless LAN
Wireless MANWireless MANWireless MANWireless MAN
P2Pデータシェアリングモデルデータシェアリングモデルデータシェアリングモデルデータシェアリングモデル� 車同士が情報を直接交換し合うモデル
� “センターレス”プローブシステム
� 自由な情報交換のプラットフォーム
� 局地的・即時的な情報の有効活用
渋滞情報渋滞情報渋滞情報渋滞情報
音楽音楽音楽音楽
風景風景風景風景
ABS作動作動作動作動ブレーキアシスト警告注意
IEEE802.11b Radio Frequency
� IEEE standardized IEEE802.11b in 1999� The 2.400-2.4853 radio frequency was assigned for 802.11b
� The radio frequency usage is different per country� In Japan, The 2.400-2.4835Ghz are divided into14 channels (per 5Mhz)� In USA, 2.412~2.462GHz with 11 channels� In France, 2.457-2.472Ghz with 4 channels
2.400 2.440 2.4802.420 2.460
#1 (2.412) #5 (2.432) #9 (2.452) #13 (2.472)
#2 (2.417) #6 (2.437) #10 (2.457)
#3 (2.422) #7 (2.442) #11 (2.462)
#4 (2.427) #8 (2.447) #12 (2.467)
2.500
#14 (2.484)
RFID
� Involved in researching, designing, implementing, and experimenting with systems which process information regarding an object to which a unique identifier (ID) capable of individual recognition has been attached over the Internet.
� The results are forwarded to the Auto-ID lab for further research and standardization.
Creating firm links between cyberspace and real Spa ce
Corporate service by JCBadmission control
Automatic Payment at shops
Vending machines
Airport Automatic Check-inNarita Airport (NRT) and Kansai Airport (KIX)
Felica build-in mobile phone
ソニーソニーソニーソニー出荷累計出荷累計出荷累計出荷累計
8,2008,2008,2008,200万万万万超超超超(FeliCaカード及びカード用ICチップ ソニー出荷)
香港香港香港香港1600 1600 1600 1600
1000100010001000
100100100100
150150150150
日本日本日本日本5555333300 00 00 00
シンカシンカシンカシンガ゙゙゙ホホホポ゚゚゚ールールールール
中国中国中国中国・・・・シンセンシンセンシンセンシンセン
インドインドインドインド・・・・デリーデリーデリーデリー
タイタイタイタイ・・・・バンコクバンコクバンコクバンコク
台湾台湾台湾台湾・・・・高雄高雄高雄高雄
実績 導入予定
50505050
FELICA: FELICA: FELICA: FELICA: FELICA: FELICA: FELICA: FELICA: RFID reader/writer with RFID reader/writer with RFID reader/writer with RFID reader/writer with RFID reader/writer with RFID reader/writer with RFID reader/writer with RFID reader/writer with InternnetInternnetInternnetInternnetInternnetInternnetInternnetInternnet((((((((2005/62005/62005/62005/62005/62005/62005/62005/6))))))))
UHF RFID experimental facility in Shonan Fujisawa Campus
RFID gate experiment
Hand pallet with accurate position sensor
Multiple RFID readers
Probes are inserted in measured objects
945 950 956954952 960
(MHz)
30dBm
-39dBm/100kHz
952MHz 954MHz
-61dBm/100kHz-71dBm/100kHz
-61dBm/100kHz
956MHz950MHz
945MHz
-39dBm/100kHz
715 1919.61884.5
-71dBm/100kHz
Maximum antenna gain 6dBi yields EIRP=36dBm
Note that 1) The numbers denote the output
power of the intentional radiator. 2) In this figure, a consistent 100kHz
reference bandwidth is used for the clear comparison.
Cellular Phone Including Planned IMT-2000
Cellular phone and AM radio link
Harmonics in Personal Handy Phone System (PHS)
Japan UHF RFID technical requirements
Tag readability evaluation
Case
Inner case
Layered tagging (HF for item level and UHF for case level) may significantly change the readability.
-28
-26
-24
-22
-20
-18
-16
-14
-12
-10
No inner tag
With Inner tag
Tag probe alone
180Degree
-90Degree
0Degree
90Degree
Network Speed
70 80 90 2000 2010 2020 2030 2040 2050西暦西暦西暦西暦
1M
1G
1T
1P
1E
1Z
bpsバンドバンドバンドバンド幅幅幅幅
WAN
LAN
10Gbps Ethernet
100Gbps Ethernet
70 80 90 2000 2010 2020 2030 2040 2050
16
64
256
1K
32M
1G
32G
並列コンピュータ
プロセッサ・チップ
1M
1G
1T
1E
1Z
1Y
1027
1030
FLOPS
1P
Pentium 43.8 GHz
西暦
Earth Symulator40TFLOPS
Computer Speed
Grape DR2 PFLOPS
SIGMA-1
70 80 90 2000 2010 2020 2030 2040
1M
1G
1T
1E
FLOPS
1P
西暦
History of Speed breakthrough
CDC6600(1)
2010年の予測は10PFLOPS
着実な並列性の増加
Cray XMP/4(4)
ASCI-RED(9152)
BlueGene/P?(131K以上)
GRAPE-DR ?(2M 以上)
SR8000(1008)
SX-2(1)
HITAC 8800(1)
24,000km(15,000miles)
15,680km (9,800miles)
OC-192
OC-48 x 3GbE x 1
8,320km(5,200miles)Juniper
T320iSCSI testing used IEEAF
Tokyo
Chicago
Amsterdam
Seattle
Vancouver
Calgary
Minneapolis
IEEAF/Tyco/WIDE
CANARIE
SURFnet
Network used in the experiment
Figure 2. Network connection
CA*net 4
APAN/JGN2Abilene
NYC
A router or an L3 switch
A L1 or L2 switch
Single stream TCP – Tokyo – Chicago – Amsterdam – NY – Chicago - Tokyo
Tokyo
T-LEX
Amsterdam
NetherLight
SURFnetIEEAF/Tyco/WIDE CANARIE
Router or L3 switch
University of Amsterdam
Chicago StarLight
L1 or L2 switch
Force10E1200
ONS15454
Vancouve r
FoundryNetIron
40G
OME6550
Minneapolis
Atlantic
Ocean
Pacific
Ocean
Opteron1
Opteronserver
ChelsioT110 NIC
IEEAF/Tyco
Opteronserver
ChelsioT110 NIC
ClearSight10Gbpscapture
FujitsuXG800
OC-192
WAN PHY
WAN PHY
CANARIE
SURFnet
OME6550
Procket8801
Procket8812
ONS15454
ONS15454
ONS15454
ONS15454
ONS15454
HDXc
T640
T640
HDXc
CISCO12416
CISCO12416
CISCO6509
Force10E600Opteron3
SeattlePacific
Northwest Gigapop
New York
MANLAN
Chicago
SURFnet
SURFnet
OC-192
OC-192Abilene
APAN/JGN
TransPAC
SURFnet
SURFnet
SURFnet
WIDE
WIDE
Calgary
Univ of Tokyo WIDE APAN/JGN2Abilene
Connecting Worlds by Lambda
� Collaboration over HDTV Real-time Interactive Streaming� Uncompressed HDTV transfer Technology over the International 10G
lambda network
� Date: Sep, 21st, 2005� Location: Aichi World Expo. and Netherlands
Aichi World EXPO Netherlands
EXPO 2005, Aichi Japan
EXPO Dome
UncompressedHD bidirectional composing session
(1.5Gbps)
DVTS/IPv6Bidirectional Connection
(30Mbps)
Satellite InternetMulticast
transport(MAX9Mbps)
AsianUniversitiesSOI-Asia
Global view of This event
Amsterdam
Beijing
1
2
3
Round Trip Time ComparisonDirect vs. Southern route
Less than 90 ms between Asia and Europe
83ms from London to Tokyo
83ms from London to Tokyo
83ms from London to Tokyo
83ms from London to Tokyo
83ms from London to Tokyo
83ms from London to Tokyo
83ms from London to Tokyo
83ms from London to Tokyo
The Distance
between London and Tokyo
Direct – 11,600KMvia South – 25,000KM
LondonLondon
JapanJapan
268ms from London to Tokyo268ms from London to Tokyo
Basic IP Multicast
SourceNode
Wireless LAN
Ethernet
xDSL
PHS/3G
0% loss
0% loss0% loss
30% loss
20% loss
20% loss
50% loss
Receiver-driven Layered Multicast
SourceNode
Base LayerAdditional Layer 1Additional Layer 2
Wireless LAN
Ethernet
xDSL
PHS/3G
Damaged Area by Tsunami
Tohoku Univ
Keio Univ
Keio
AIT
ITB UNIBRAW
DVTS (35Mbps)
DV
Multicast on Satellite Link(9Mbps)
(128kbps~1.5Mbps)
Panelist site
Partner sites
SOI ASIA ProjectSOI Asia Sharing Knowledge Across Borders- Tsunami: Lessons Learned and Universities' Role –
Institute of Technology of Cambodia (Cambodia)Bangladesh University of Engineering and Technology (Bangladesh)Mongolian University of Science and Technology (MogoliaTribhuvan University (Nepal)
Program
Date & Time
- Keio University, Japan- Tohoku University, Japan- Asian Institute of Technology (AIT), Thailand ( by Dr. Anat in Chulalongkorn University)- Institut Teknologi Bandung (ITB), Indonesia- Brawijaya University, Indonesia
Panelist Sites
Chulalongkorn University (Thailand)Prince of Songkla University (Thailand)Chulachomklao Royal Military Academy (Thailand)National University of Laos (Laos)
Other SOI ASIA Partner Sites (Total: 11countries 17sites)
16:30-17:00 Keynote - Prof. Jun Murai17:00-17:30 Report from Japan(1)17:30-18:00 Reports from Thailand18:10-18:40 Report from Japan (2)18:40-19:10 Report from Indonesia (1) 19:10-19:20 Report from Indonesia (2) 19:20-20:10 Panel Discussion20:10-20:30 Closing
University of Computer Studies, Yangon (Myanmar)Sam Ratulangi University (Indonesia)Hasanuddin University (Indonesia)Institute Of Information Technology (Vietnam)Advanced Science and Technology Institute (Philippines)
Feb 24, 2005 16:30-20:30(JST)
Brawijaya University,Indonesia
Hasanuddin University,Indonesia
Sam Ratulangi University,Indonesia
National University of Laos,Laos
University of ComputerStudies, Yangon, Myanmar
Asian Youth Fellowship,Malaysia
Asian Institute of Technology, Thailand
Chulalonkorn University,Thailand
Advanced Science and Technology Institute,
Philippines
Institute of Information Technology,
Viet Nam
Institute of Technology,Bandung, Indonesia
Keio UniversityShonan Fujisawa Campus,Japan
Mongol University of Science and Technology
Mongolia
Prince of SongklangUniversityThailand
Chulachomklao RoyalMilitary Academy
Thailand
Tribhuvan UniversityNepal
Institute of Technology ofCambodia, Cambodia
USMMalaysia
Bangladesh University ofEngineering and Technology
Bangladesh
University of Syiah KualaIndonesia
- Under Construction -
University of San CarlosPhilippines
- Under Construction -
Monitoring kindergarten ( ( ( (FUKUOKA ))))
Monitoring parking lot ( ( ( (OSAKA ))))
Monitoring factory ( ( ( (OSAKA)
Monitoring Temple ( ( ( (KYOTO))))
Temple Factory
Parking
Nursery
IPv6 is deploying for the new market
Sensor and Privacy products on V6
ワイヤレスカメラ
ワイヤレスセンサ
メインコントローラ
Sensors for Health「「「「OMRON Xtyle 」」」」
OBC奉行シリーズパッケージ
Touch company job from home (by 6/4 tunnel)
Overlay Network
� A logical network on the Internet per Service and Applications� regardless of physical topology
� regardless of network boundaries
� Logical Network Overlay Technology� Distributed Hash Table
� Example� File Sharing Network
� BitTorrent, Solipsis (France Telecom), Winny
� Configurable Virtual Network� xbone
� GRID Physical Network
Overlay Network
Service Network by overlay
Web: 2001:200:80::
Mail: 2001:200:25::
� IP address� assigned by ISP� routing topology
dependent (i.e. physical connection)
� Service address� assigned per service on
the overlay network� independent from routing
topology.