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Mobile NSF Workshop Rutgers, July 31-Aug 1, 2007 Discussion Themes
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Proposed Break out Groups Group #1 - Protocols Protocols that “protect” from mobility Protocols that exploit mobility Group #2 - Applications Mobility aware applications Mobility impact on security/provacy Group #3 - Models and Testbeds Mobility Models Mobile Testbeds Mobile users and infrastructure
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Protocols that “protect” from mobility Physical/MAC layer: Diversity, OFDM, MIMO, MAC scheduling –Samir R. Das - MobiSteer: Using Steerable Beam Directional Antenna for Vehicular Network Access –J. J. Garcia-Luna-Aceves: Towards Truly Scalable MANETs Using MPR and Multi-radio Nodes
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Protocol protection from mobility (cont) Network layer –Robust routing Charles Perkins: AODV / DYMO recent developments –Geo Routing Marco Gruteser: Geo-Cooperative Protocols in Dense, Highly Mobile Networks Xin Wang:A Scalable Geographic Service Ant Rowstron; Practical routing algorithms for vehicular networks –Multicast: Nick Maxemchuk: Reliable Neighborcast –Network coding –Smooth handoff Rajeev Koodli; Mobility and Layer Interaction Design: Where are the Performance Bottlenecks?
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Protocol protection from mobility (cont) End to end: Robust TCP, Erasure coding Applications: Delay tolerant operations Kostas Psounis: Routing and transport challenges in mobility- assisted communication
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Protocols that exploit mobility Mobility enhances routing and scalability Motion affinity based clustering, routing Motion prediction assisted routing/hello’s etc –Eytan Modiano: Collaborative Research: Efficient resource management for controlled mobility wireless networks Mobility enhances dissemination/harvesting Last encounter routing Index dissemination/ Content discovery (eg, Mobeyes) Mobile harvesting agents –Stefano Basagni: Exploiting Mobility for Enhancing Multi-Hop Wireless Network Performance: The case of Wireless Sensor Networks
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Mobility aware applications: Protect from motion; Exploit motion ; Be correlated to motion Intermittent Internet Access –Brian Levine: Web search from a bus Motion aided content distribution (eg, Car Torrent, Blue Torrent) Pervasive urban sensing using moving platforms (cars, people) –Mani Srivastava: Mobility as Wireless Sensing Performance Amplifier –Guohong Cao: Data dissemination in vehicular ad hoc networks –Liviu Iftode: VITP and CARS: A Distributed Service Model and Rate Adaptation for Vehicular Ad-Hoc Networks –Kin K. Leung - MESSAGE Project: Wireless Sensors on London Buses to Monitor Pollution
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Mobility aware applications (cont) Location relevant advertising Traffic and road viability monitoring (both pedestrian and vehicular) Collective sensing using mobile swarms (eg airborne flyers, SEA Swarms, etc.) –Hongyi WuDFT-MSN: Delay/Fault-Tolerant Mobile Sensor Network for Pervasive Information Gathering –Kang-won Lee: Mobility of agents and its impact on data harvesting in VANET Distributed management exploiting mobility –Suman Banerjee: Towards client-assisted management in wireless networks
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Mobility impact on security/privacy etc Privacy of location and motion Secure key distribution in a mobile environment Secure Incentives Protection from DDoS attacks
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Mobility models The importance of measured traces (eg TRANSIMS) –Maria Papadopouli: Archive of Wireless Traces, Models, and Tools –Don Towsley: Some Results on Modeling Contacts in Vehicular Networks –Madhav Marathe: Deriving Mobility Models from First Principles and their Applications Motion pattern characterization/classification –Characterization of motion models and impact on applications The importance of scalable, realistic synthetic models (eg, Corsim) –Tracy Camp: Reversing the Incredibles
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Mobility Models (cont) The importance of dynamically changing motion patterns (based on user behavior, etc) –Robin Kravets: Event-driven, Role-based Mobility in Disaster Recovery Networks –Christoph Lindemann title: Mobility Modeling Capturing Key Correlations of Measured Data Accuracy vs run time efficiency tradeoffs The need for “analytic” motion models: Deriving asymptotic properties
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Mobile users and infrastructure Mobile to Internet and mobile to mobile opportunistic routing via the infrastructure Infrastructure support for Mobility management, Load management, etc
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Mobile Testbeds Why testbeds? –Propagation effects; street corners; obstacles; interference etc –Physical radio testing in realistic environments –Implementation/deployment of protocols and applications –Interaction of appls and motion (eg. user reaction to warnings, traffic jams,) –Realistic comparison of protocols (eg, geo and AODV) Vehicular testbed –Umit Ozguner: V2V Communication and ITS Implications –Fan Bai: Vehicular Safety Testbed –Giovanni Pau: sharable Campus Testbad Pedestrian Mall/Campus testbed Mobile sensor platform testbed (manned and unmanned)
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