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1 Upcoming Topics and Projects Romit Roy Choudhury Dept. of ECE.

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Presentation on theme: "1 Upcoming Topics and Projects Romit Roy Choudhury Dept. of ECE."— Presentation transcript:

1 1 Upcoming Topics and Projects Romit Roy Choudhury Dept. of ECE

2 2 Agenda Look-ahead into future ECE 256 topics Examples of some project ideas  My thoughts, your thoughts  Evaluation methods Project plan and timeline

3 3 Topics Timeline Wired-Wireless Hybrid Networks

4 4 Topics Timeline Wireless LANs, infrastructure networks Multi-hop Routing  Static mesh networks (mesh)  Mobile networks (vehicular, ad hoc, DTN) Static Mesh Networks Static Mesh Networks

5 5 Topics Timeline Wireless LANs, infrastructure networks Multi-hop Routing  Static mesh networks (mesh)  Mobile networks (vehicular, ad hoc, DTN) Delay Tolerant Networks Delay Tolerant Networks

6 6 Topics Timeline Wireless LANs, infrastructure networks Multi-hop Routing  Static mesh networks (mesh)  Mobile networks (vehicular, ad hoc, DTN) Delay Tolerant Networks Delay Tolerant Networks

7 7 Wireless LANs, infrastructure networks Multi-hop Routing  Ad hoc networks, Mesh Networks  Delay Tolerant Networks Sensor Networks  MAC, routing (energy-awareness)  Dissemination, aggregation  Reliable transport, Applications Topics Timeline Sensor Network Base Station

8 8 Topics Timeline Wireless LANs, infrastructure networks Multi-hop Routing  Ad hoc networks, Mesh Networks  Delay Tolerant Networks Sensor Networks  MAC, routing (energy-awareness)  Dissemination, aggregation  Reliable transport, Applications Transport Layer (Wireless TCP)  Variants of TCP  Rate based transport Internet S

9 9 Topics Timeline Wireless LANs, infrastructure networks Multi-hop Routing  Ad hoc networks, Mesh Networks  Delay Tolerant Networks Sensor Networks  MAC, routing (energy-awareness)  Dissemination, aggregation  Reliable transport Transport Layer (Wireless TCP)  Variants of TCP  Rate based transport Mobile Phone as sensor Networks  Apps, Localization, Security, Privacy, incentives,

10 10 Internet A Virtual Information Telescope

11 11 Project topics & directions

12 12 Examples: Wireless  Piggyback ACK, ExOR  MIM, MAC, SIC MAC  Opportunistic transmission, coding  WLAN Multicast  Directional antennas for security  Localization (Congruity)  Sensor Networks  DTN (Broadcast, mobility modeling, routing)

13 13 Examples: Mobile Computing  Applications (MicroBlog, Video, Loc-based RSS Feed, LiveCompare)  Localization Place Labs EnLoc SurroundSense + AAMPL  Privacy  Client-Assisted network management

14 14 Project Timeline By March 1:  Solid literature survey  Have a solid problem formulation  Have idea of the solution / approach Before Spring break:  Have the solution ready Spring Break:  Start implementing basic idea  No optimization necessary End March:  Have basic evaluation framework ready April:  Implement, debug, optimize, … Learn simulator, implementation tools, Etc. Learn simulator, implementation tools, Etc.

15 15 Evaluation Theory  Mathematical models, optimization …  MATLAB, own code … Simulation  Wireless Mesh: Qualnet, ns2, OPNET, OMNet …  Sensor: Tossim (TinyOS)  Your own simulator Implementation  Soekris routers, phones, motes, laptops …

16 16 Announcement Cisco Champion’s Award for 3 best projects  Great addition to your resume

17 17 Your Thoughts ? Don’t worry if they are not baked

18 18 Wireless MAC Improving reuse  Improving channel utilization Piggybacked ACK, Opportunistic transmissions, Rx based backoff  Exploiting wired infrastructure Solve the exposed terminal issue (via wired coordination) Hybrid TDMA/CSMA  Exploiting cross-layer diversity MAC-layer anycasting, opportunistic forwarding  Cognitive networks Adapt antenna beamforming based on WLAN traffic load Adapt bandwidth based on load AP assignment based on client distribution

19 19 Wireless MAC  (Linux) Hacking project Code routers, deploy sniffers, etc. Characterizing traffic behavior, human usage patterns  Heterogeneous antenna systems Clients are omnidirectional, APs are beamformed Many new issues - not studied earlier Opportunities in security

20 20 Routing (Ad Hoc, Mesh) Routing protocols, metrics  Reliable (alternate-path) routing Wireless channel unstable Design metric that has more redundancy, high reliability S b c zx d e f D w a h Better repairability

21 21 Delay Tolerant Networks Moving away from the ad hoc model  Utilizing mobility for data transport  Exploiting node density

22 22 Delay Tolerant Networks Several new challenges  Broadcast Crossing boundaries of clusters (w/o heavy overhead) Terminating conditions unknown Design algorithm to propagate packet to all, and then terminate  Routing No end to end path How do you know who will meet whom (Ride Share App) Can you exploit GPS location  Exploiting infrastructure Can you deploy buffers in the network intelligently

23 23 Delay Tolerant Networks  Implement DTN on sensor motes Distribute mote to students Collect human traces, contact patterns, reconnection time Execute your own algorithms  Designing new mobility models From human traces

24 24 Sensor Networks Energy-awareness is key Sensed information aggregation, dissemination MAC, Routing, Reliability Sink mobility

25 25 Sensor Networks  Aggregation + Compression Zip reduces packet-size, but prohibits aggregation Algorithm for zipping and aggregation  Data suppression You cannot transmit all sensed data (under given energy) Which subsets should you transmit –Minimize deviation  Coverage No location should remain outside sensing range Do this without GPS information

26 26 Sensor Networks  Think / Implement Coool Applications 3D Google Micro-Blog Body networks Smart Clothes

27 27 Wireless TCP  Loss discrimination Technique to determine congestion vs transmission loss Exploit intermediate buffering  Transport protocol for sensors Reliable querying of a sensor node Reliable event delivery (not message)

28 28 Human Networks: Privacy and Security  Location Privacy Mobile phones need to report their locations for applications No one wants to disclose this information Design algorithms that can achieve location privacy –But not affect the requirements of algorithm  Duke Hospital Project Statistical inferencing of group behavior Without knowledge of individual information  Energy-aware localization on mobile phones Multiplex between GPS, WiFi, GSM

29 29 Project Groups Joseph + Jason Linda + Amrita Rahul + Souvik Xiong + Yanni + ? Matt + Ionut Asic Yi

30 30 Thanks for coming in

31 31 Virtual Telescope Internet, Cellular Networks Internet, Cellular Networks Visualization Service Web Service Sensors Phones People Physical Space

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