Roadnet Vehicular Ad-Hoc Network System September 19, 2011 Andrew Crossman - CS 410 1.

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Presentation transcript:

Roadnet Vehicular Ad-Hoc Network System September 19, 2011 Andrew Crossman - CS 410 1

Outline Traffic Problems Data Crash-Course Vehicle Safety Solutions Target Market Existing Project Solutions Roadnet Solution Prospects and Feasibility The Future of Traffic September 19, 2011 Andrew Crossman - CS 410 2

Traffic Problems Millions of drivers Communication extremely limited Many contributing factors to vehicle crash potential Personal injury, fatalities, property damage Crashes avoidable or inevitable? September 19, 2011 Andrew Crossman - CS 410 3

Data Crash-Course September 19, 2011 Andrew Crossman - CS *Data chart source: National Highway Traffic Safety Administration, Fatality Analysis Reporting System (FARS) – [available data only up to 2009]

Vehicle Safety Solution Better intercommunication between drivers Earlier warnings for traffic discrepancies Traffic jams Construction / Closed roads Accidents More accurate vehicle status monitoring Flagging system for emergency situations September 19, 2011 Andrew Crossman - CS 410 5

Target Market Manufacturers to implement technology into products Ideal outcome: majority integration in cars (still millions) Safety and convenience as a common focus Unification without increased competition September 19, 2011 Andrew Crossman - CS *Picture source:

Existing Project Solutions SeVeCom: vehicle communication security NoW (Network on Wheels): new protocols, IEEE WILLWARN: hazard detection (environment sensors, GPS) CarTalk2000: inter- vehicle communication (self-configuring) Safespot: vehicle to road infrastructure (roadside transmission equipment) CVIS (Cooperative Vehicle-Infrastructure Systems): improving reliability (2.5G/3G wireless technology) Others with similar contributions (vanet.info) September 19, 2011 Andrew Crossman - CS 410 7

Roadnet Solution Combination of existing technologies Vehicle-to-vehicle Vehicle-to-road Roadside services (emergencies, reports, traffic lights) Wi-Fi, Bluetooth, and GPS technologies Goal: universal compatibility September 19, 2011 Andrew Crossman - CS *Picture sources:

Prospects and Feasibility Overall very large project Usefulness dependent on majority integration Experimentation and testing Existing solution improvements took years Manufactured into vehicles Separate hub for installation (support older vehicles) September 19, 2011 Andrew Crossman - CS 410 9

The Future of Traffic Positive Impacts Universal communication Earlier warnings for emergencies Automatic driver notifications General less road frustration Negative Impacts Expense Technology failures (drivers reliant) Driver vigilance Complexity September 19, 2011 Andrew Crossman - CS

References Pictures: pagautoimport.com pcquest.ciol.com wired.com Data: www-fars.nhtsa.dot.gov sevecom.org network-on-wheels.de prevent-ip.org cartalk2000.net safespot-eu-org cvisproject.org September 19, 2011 Andrew Crossman - CS