Future Internet Yanghee Choi Seoul National University, Future Internet Forum
인터넷의성공 인터넷은인류최대의발명이다. 어느기술도이만큼인류에게큰영향을미치지못했다. 2
인터넷등장배경 미국방성의요구 : 많은통신시설이파괴되더라도계속살아남는통신네트워크를고안할것. 다양한통신기술을활용할수있을것 과학기술계의결론 패킷 (packet) 방식의통신네트워크 연결을만들지않음 전체의 70% 이상이파괴되어도계속생존하여통신기능유지함 3
Internet Growth 4
인터넷의역할 인터넷은현재정보통신뿐아니라국가 critical infrastructure 로발전하고있음 전자정부 교통통제, 에너지통제 금융, e-business 교육, 의료, 환경 생산, 프로세스제어 각종서비스산업 5
Internet Technologies : Issues Too successful But,,, 50 years old Many problems Too frequent and too many fixes Unable to accommodate new requirements Paradigm shift is needed Time to reconsider Evolution? Revolution? 6
IT Trends Tiny devices Sensors, RFID Many devices Internet of Things Vehicles New applications Broadcasting Content distribution Many new technologies, networks. 7
New Technologies New technologies Optical switch Cognitive radio Content centric networking Sensor network Low-cost Mass Storage Amplidue (dbm) Heavy Use Sparse Use Maximum Amplitudes Less than 6% Occupancy Medium Use Heavy Use Frequency (MHz) 8
New Requirements Scalability BW, sensor, distance Addressing, discovery Node, service, object Context-awareness Who, when, where, situation Mobility, migration, merge/split Privacy, security Internet is being used to support the critical infrastructure Internet of things 9
Issues Scalability Context-Awareness Ubiquity Manageability Future Internet Security /Robustness Heterogeneous Reconfigurability Mobility 10
IETF Fixes (not-so-successful) Address shortage IPv6 Mobility Mobile IP Security IPsec, IPv6, AAA Interworking BGP4 QoS RSVP, Intserv 11
NGI vs Future Internet Evolutionary approach Next-generation Internet Revolutionary approach Future Internet Clean-slate approach 12
New approach - Future Internet FI is a new networking paradigm May adopt new network architecture May adopt new protocols May not be backward compatible But will satisfy the requirements By utilizing new technologies And will be verified with big experiments 13
Three steps to reach Future Internet Develop component technologies Antenna, transmission, MAC, QoS. Put them into one architecture FIND Experiment in large scale, identify problems PlanetLab, GENI, VINI, FIRE.. 14
Component Technologies : Hot R&D topics Naming Location services New Transport Protocols Routing, QoS Context-aware Protocols Mobility Security Management 15
Future Internet - USA Coordinated by NCO/NITRD (National Coordination Office for Networking and Information Technology Research and Development, http://www.nitrd.gov/ ) Large Scale Networking (LSN) is the collection of R&D projects for future network : 380 Million $ in 2007 NSF FIND (Future Internet Design) 64 projects, 18 M$/year 16
GENI Global Environment for Network Innovations a national facility to explore radical designs for a future global networking infrastructure Virtualization Approx. 700 M$ (pending) 17
Network Testbed : WINLAB Orbit 18
Spiral Development 6-12 month cycle Calls every year 27 projects in 2008 Spinoffs commercialization 1-3 years ; shaky Will identify FI within 4-5 years 19
Slicing and Virtualization Sensor substrate Mobile wireless substrate(s) Fixed nodes
Federation Compute Cluster #1 Backbone #1 Access #1 Wireless #1 GENI Slice supporting an experiment Corporate GENI facilities Other-Nation GENI facilities Compute Cluster #2 NSF parts of GENI Backbone #2 Wireless #2 Other-Nation GENI facilities Goals: avoid technology lock in, add new technologies as they mature, and potentially grow quickly by incorporating existing facilities into the overall GENI ecosystem 21
Europe FP 7 ICT Projects 1) The network of the future (200 Million Euro for 2007-8) 43 ongoing projects 32 months avg. 7 Million Euros each 37% industry participation 6) New Paradigms and Experimental Facilities (14 ongoing projects, 40MEuro/2 yrs) 22
Japan New Generation Network (NWGN) NICT initiated 30 Billion Yen for 5 yrs Optical switching WIDE group (Keio) Internet car NEC, NTT Comm, KDDI etc. High-end routers 23
Internet in Korea Wireline subscribers : 23.3 million (Oct. 2007) Cellular : 43 million Internet Users : 34.4 M (75.5%) IPv4 addresses : 58.8 M High speed Internet subscribers : 14.7 M(Nov.2007) xdsl 31.8% cable modem 34.9% apartment LAN 28% FTTH 5.3% 90.8% of all households 24
R&D projects Fundamental Technologies for Future Internet 2007 2009 (3 years) 1.2 BWon/year Future Internet related Innovative Research From 2008 3-5 year projects for universities (0.2-0.5 BWon/year) Robust Mobility Management Network Monitoring and Measurement at micro-level Personalized Service Architecture Security for Survivable Networks IT Research Center on Future Internet (2008-2011) 25
Fundamental Technologies for Future Internet Project details R&D Planning (through Future Internet Forum) Identify long-term R&D topics Predict the future technologies Promote collaborations Work on selected research topics (universities) Architecture Wireless Services Participation to Standard Activities IETF, ITU, IEEE, forum etc. 26
Research Topics - 2008 27 27
주요연구주제 Testbeds Virtualized WirelessMesh (KAIST) Cognitive Radio (SNU) Virtualized Femtocell (SNU) Context-aware (ICU) Mobility (KU) Measurement (KAIST) 28 Pioneering concepts Content-driven (SNU) Cross-layer (POSTECH) Micro-management (KAIST) Hard security (SNU) Disruption Tolerant Network (SNU)
Future Internet Forum Established in 2006 to promote R&D collaborations in Future networking Building research communities http://fif.kr Workshops, seminars, publications Research Council General guidelines, technical documents Working groups Architecture Wireless Service Testbed Policy 미래인터넷연구개발기본계획, 테스트베드기본계획작성중 29
FI (Future Internet) Events International Conferences Internet of the Future, July 20-22, 2006, Seoul, Korea International Future Internet Workshop 2007, July 9-10, 2007, Seoul National University International Conference on Future Internet 2008, June 18-20, Seoul, Korea Future Internet Camp Aug. 20-22, 2007, Jeju Island Feb. 18-22, Seoul National University (with AsiaFI school) Aug. 25-28, Jeju Island (with AsiaFI school) 30
Part II 미래인터넷연구주제
연구주제의분류 Component Technologies Integrated Architecture Global Test Infrastructure 32
Component Technologies : Architecture Layering revisited Name/address Object, service, node.. Packet, circuit, dynamic circuit, hybrid switching Optical Transport Security architecture Mobility management New Routing, forwarding paradigm Multicast/broadcast Network Management 33
Component Technologies : Access Multiple networks, interfaces Wireless access (mesh, ad-hoc, vehicular, PAN etc.) Cognitive network technologies Sensor network DTN 34
Component Technologies : Service/application Service discovery, search Context-aware applications Location, history, preference Multimedia applications Millions of Broadcast stations 35
Integrated Architecture Core network architecture Access network architecture Service architecture Management architecture Expecting many competing candidates 36
Network Testbed How to design and operate testbeds with massive number of users? Virtualization? Many tests in one testbed network Or separate network for each experiment? Global collaboration schemes US, Europe, Asia Network monitoring and measurement Troubleshooting and repair 37
Optical Transport Optical transport 기술의비약적발전 Unlimited bandwidth Dynamic switching Low cost Circuit, burst, packet switching 이경합중임 Optical storage 구현의어려움으로 packet 방식이제일불리함 GENI 에서는 dynamic circuit switching 채택이유망함 38
Storage-centric Networking Resources in networks Bandwidth CPU power Memory : 지금까지거의고려하지않았음 Users want data (content) ( 방법 1)Data 가있는 location 에연결하고, data 를가져옴 ( 방법 2)Data 를찾는 query 를뿌리고응답이오길기다림 모든 network node 에지나가는모든 data 를 store 함 ( 대용량 memory) 39
Multicast/Broadcast 미래의 network 은주로 multicast traffic 을운반할것임 Network architecture/protocol 을변경해야 Core network-access network 에서다른접근필요 Wireless access 에서 multicast solution 필요 40
Issues in Location Context Accuracy Indoor Context 3D 좌표 방향 인접노드 응용과의결합 Geographic addressing Geographic routing Security, privacy 41
Multi-networks 미래네트워크환경에서단말기는동시에여러네트워크과연결을유지할것임 예 : wireless access : cellular, WiFi, WiBro 예 : core : optical backbone, Mesh Backbone Which network/interface to use for data transfer? Uplink, downlink Load balancing, backup Handoff between interfaces What about mobility? 42
Network Monitoring 현재의 Internet 에서네트워크의성능측정, 고장감지가매우어려움 New network monitoring, measurement architecture is required To understand the network behavior To see the network status (traffic, performance) To locate the faulty resources (HW, SW) Micro-level, macro-level 43
VISIONS 44
Competitions 인터넷 2 기원천기술개발에는지금부터 3 년간이매우중요함 세계적경쟁 Asia vs. Europe vs. US 미국 : 세계중심을지향 유럽 : 엄청난투자, 산 - 학 - 연고른참여 아시아 : 중국 vs. 일본 vs. 한국 한국 : 제일먼저출발, 그러나 ---- 일본 : 늦었지만크게출발, 그러나 ---- 중국 : 큰관심없는듯, 그러나 ---- 45
미래의환경 네트워크의다양화 단말기의다양화 응용의다양화 컴퓨팅기술에더욱의존 컴퓨팅원천기술을보유한기업이시장주도예상 Apple, HP, Google 미래인터넷기술개발에높은관심을가짐 46
Focus Japan : vehicle + Internet Europe : mobile terminal + applications US : backbone + everything above KOREA :??? Mobile devices + applications + cellular net Robots (networked) : Internet café >> screen golf >> robot-assisted life 47
The only way you can predict the future is to build it (Alan ( Kay) Future is not to be predicted, but to be created 48