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Test-Bed for testing scenarios of new DTN architecture AsiaFI 2008 August, 2008 Multimedia and Mobile Communication Lab.

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Presentation on theme: "Test-Bed for testing scenarios of new DTN architecture AsiaFI 2008 August, 2008 Multimedia and Mobile Communication Lab."— Presentation transcript:

1 Test-Bed for testing scenarios of new DTN architecture AsiaFI 2008 August, 2008 Multimedia and Mobile Communication Lab.

2 Contents Intelligent Emergency DTN Architecture Related Test-Bed Projects – TIER – EDIFY – Tetherless Computing – SPINDLE Test-Bed for testing scenarios of new DTN architecture – Objective – Current Plan – Architecture – Preliminary Experiments -2-

3 Intelligent Emergency DTN Architecture

4 Motivation Other studies – FIND: The-Day-After-Networks (UIUC) objective: to support survivals and to help disaster relief groups coordinate each other multi-interface gateway based – An Architectural Proposal for Future Wireless Emergency Response Networks with Broadband Services (Bell Labs) objective: the rapid and reliable establishment of high-speed communication links between rescue crews and their headquarters, political institutions, military and police forces, and international organizations. optical backbone network, portable based station, mobile gateway – Supporting Emergency-Response by Retasking Network Infrastructures (UIUC) objective: a network used by victims and rescuers to communicate among themselves to use networks for emergency communications if they were originally intended to provide a different service -4-

5 Motivation Our Proposal – Objective: to supports communication between survivals and to help S.O.S messages forwarded to rescuers – dynamic survivals network configuration intelligent emergency DTN backbone active network, software defined radio (SDR) – Why DTN? integrating between heterogeneous networks poor connectivity distributed message storing … -5-

6 SDR capable node Normal node (cellular) Normal node (WiFi) Tangshan, China earthquake, May, 12, 2008 Scenarios -6-

7 7 WiFi ad-hoc network (SDR incapable) 3G Device (SDR incapable) Intelligent Emergency-DTN DTN Node (3G Access Point, SDR capable) DTN Node (Ad hoc node, SDR capable) DTN Node (Router, SDR capable, GPS) 3G Connection Intelligent Emergency DTN WiFi Connection

8 Link Layer PHY (Software Defined Radio) Transport Application Network Management Module (Active Network) Topology Control... Neighbor Discovery … Reliable Transport … Intelligent Emergency DTN Scanning, & Frequency Adaptation DTN Bundle -8-

9 Related Test-Bed Projects

10 Related Projects Reference URL : DTNRG – http://www.dtnrg.org/wiki/Docs http://www.dtnrg.org/wiki/Docs -10-

11 TIER TIER : Technology and Infrastructure for Emerging Regions – University of California at Berkeley – http://tier.cs.berkeley.edu/ Objective – the design and deployment of new technologies for emerging regions Project Areas – Wireless : WiFi-based Long Distance Networks (WiLDNet) – TierStore : Distributed Storage System and Application Framework – Education, Healthcare, Speech, Power -11-

12 EDIFY EDIFY : Enhanced DIsruption & Fault Tolerant Bundle DeliverY – Phase 1 Project Goals Designing enhanced naming scheme that can cope with network mobility and partitions Designing DTN Unicast & Multicast Routing Schemes QoS-Based Bundle Acceptance Algorithm Ferry Scheduling Scheme Prototyping DTN Bundle Security Protocol – Phase 2 Project Goals Design DTN Service Discovery Schemes Design DTN Inter-group Unicast and Multicast Schemes Information Assurance Building and Experimenting with Test-Beds -12-

13 Tetherless Computing – Smart mobile devices, such as cell phones and PDAs opportunistically communicate with centralized server clusters over heterogeneously administered wireless networks – Bus-and-Kiosk Network (KioskNet: Rural Internet in Developing Regions) Opportunistic Scheduling in Ferry-Based Networks -13-

14 SPINDLE SPINDLE : Survivable Policy-Influenced Networking: Disruption-tolerance through Learning and Evolution – Phase I: From Feb 2005 to Aug 2006 DTN technology providing 100% delivery ratio at 20% average link availability with 80% link utilization –(Provide disruption-tolerant content-based access to information) Real Mobile Wireless setting –Wireless connectivity, GPS, Ethernet, modem, USB –SPINDLE system Based on DTNRG bundle layer – Phase II: From Jul 2006 to Jan 2008 To achieve a transitionable and evolvable, long-lived capability for Department of Defense –Innovative DTN technology development (~70 nodes) : Content-based networking, routing, adaptive dissemination, late binding, and policy –Vehicular DTN system prototype -14-

15 Test-Bed for testing scenarios of new DTN architecture

16 Objective & Considerations Objective – Building an Integrated Overlay Network of Heterogeneous Networks based on DTN Architecture (DTNRG Bundle Protocol) – Measuring & Improving the Performance of DTN Architecture for the Unification of Diverse (Wireless) Networks with our Test-Bed – (Tuning & Improve our Test-Bed for Intelligent Emergency Networks) Considerations – Considering Network Technologies WLAN: IEEE 802.11a/g/(pre)n WiBro (KT WiBro) 3G HSDPA (SKT T-Login & KTF i-plug) Wireless Mesh Network (IEEE 802.11s) Sensor Network (ZigBee?) – DTN S/W DTNRG Bundle Protocol (DTN2 & DTN Applications) -16-

17 Current Plans Phase I: Integrated Overlay Network based on DTN Architecture (2008) – Building DTN Test-Bed in SNU – Evaluating the Performance of Each Network Technology with DTN – Evaluating the Performance of Integrated Overlay Network based on DTN Comparing TCP/IP Network (in case of DTN Scenarios) – Improving our Test-Bed for Demo – Proposing Novel Mechanisms for Intelligent Emergency Network Based on Performance evaluation/analysis from our DTN Test-Bed Phase II: Intelligent Emergency Network based on DTN Architecture (2009) – Implementing & Evaluating our Proposed Mechanisms for Intelligent Emergency Network – Tuning our Test-Bed for Intelligent Emergency Network -17-

18 Test-Bed Architecture MM-DTN Test-Bed Option: kiosk ?? -18-

19 Network Configuration Example Dynamic Switch DTN N1 Dynamic Switch eth0 eth1 eth2 eth3 eth4 eth5 RACK 2u RACK Intel Server DTN N2 DTN N3 DTN N4 KVM-1080K DTN N0 3G/WiBro/WLAN Connectivity Control (Based on Scenario Files) -19-

20 Preliminary Experiments DTN2 – DTNRG’s DTN reference implementation Preliminary Experiments – Various Links in Internet : Performance Evaluation on DTN2 Multi-hop on all Wired Links Multi-hop on Wired Links and WiBro Link – Wireless Link with Antennas : Performance Evaluation Default Omni-Antenna Small Directional Antenna (Grid) Directional Antenna -20-

21 Preliminary Experiments Experimental Results : Various Links in Internet -21-

22 Preliminary Experiments Wireless Link with Antennas -22- TypeGainFrequency RangeAngle Default Omni- Antenna - 2.4 ~ 2.5 GHz 4.9 ~ 5.85 GHz Omni- directional Small Directional Antenna 4/7 dBi 2.4 ~ 2.5 GHz 4.9 ~ 5.85 GHz 40º / 20º (Grid) Directional Antenna 24dBi5.725 ~ 5.850MHz12º

23 Preliminary Experiments Experimental Results : Wireless Link with Antennas -23-

24 Q&A -24-

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