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1 IntelliDrive SM Connectivity − the Future of Surface Transportation June 7, 2010 AASHTO Subcommittee on Highway Transport Kate Hartman Research and Innovative Technology Administration U.S. Department of Transportation
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Why IntelliDrive SM ? Safety 37,000 highway deaths/year 5.8 million crashes/year Leading cause of death for ages 4 to 34 Mobility 4.2 billion hours of travel delay $87.2 billion cost of urban congestion Environment 2.8 billion gallons of wasted fuel ↓Emissions ↓Greenhouse Gases ↓ Particulates
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IntelliDrive Concept
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Networked Environment 4
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Intersection Colision Avoidance IntelliDrive Benefits Dramatically Reduced Fatalities and Injuries Greater situational awareness – Your vehicle can “see” nearby vehicles and knows roadway conditions you can’t see. Reduce or even eliminate crashes through – Driver Advisories; – Driver Warnings; – Vehicle Control. IntelliDrive has the potential to address 82% of the vehicle crash scenarios involving unimpaired drivers.
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IntelliDrive SM Benefits Increased Mobility and Environmental Stewardship Information-rich environment benefits users and operators of all travel modes. – Travelers have real-time information on rerouting or “modal shift” options. – System operators have real-time data to enable better system operations for optimal performance. – Planners can use data to address system-wide issues. Environmental benefits – Reduced stopping/starting at traffic signals which consumes 3-5 times more fuel than constant driving. – Nav systems with real time information can reduce fuel consumption by 10.5% over systems without real time traffic data.
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Latency vs. Communications Technologies For IntelliDrive Latency (in seconds) Active Safety Latency Requirements (secs) Traffic Signal Violation Warning 0.1 Curve Speed Warning 1.0 Emergency Electronic Brake Lights 0.1 Pre-Crash Sensing 0.02 Cooperative Forward Collision Warning 0.1 Left Turn Assistant 0.1 Lane Change Warning 0.1 Stop Sign Movement Assistance 0.1 Most Stringent latency requirement for Active Safety (.02 sec) Note: Y-axis not to scale for illustration purposes Least stringent latency requirement for Active Safety ( 1 sec) Data source: Vehicle Safety Communications Project – Final Repor t Communications Technologies.02 5.0 1.0 2.0 3.0 10 20 40 60 4.0 WiFi 802.11 (3 - 5 secs) Terrestrial Digital Radio & Satellite Digital Audio Radio (10 - 20 secs) WiMax (1.5 - 3.5 secs) Bluetooth (3 - 4 secs) Two-Way Satellite (60+ secs) 5.9 GHz DSRC (.0002 secs) Cellular (1.5 - 3.5 secs).01
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IntelliDrive Taxonomy 8
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9 IntelliDrive Taxonomy Level 1 vs Level 2 Level 2 Vehicle-Based Data Level 1 Non-Vehicle-Based Data
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10 IntelliDrive Taxonomy Time-Critical vs Non-Time-Critical Level 2 Vehicle-Based Data Level 1 Non-Vehicle-Based Data Level 2.A Non-Time- Critical Non-Proprietary Vehicle Data Level 2.B Non-Time- Critical Proprietary Vehicle Data Level 2.C Time-Critical Proprietary Vehicle Data Level 1.B Time-Critical Level 1.A Non-Time-Critical
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11 IntelliDrive Taxonomy Level 1.A Level 2 Vehicle-Based Data Level 1 Non-Vehicle-Based Data Level 2.A Non-Time-Critical Non-Proprietary Vehicle Data Level 2.B Non-Time-Critical Proprietary Vehicle Data Level 2.C Time-Critical Proprietary Vehicle Data Level 1.B Time-Critical Level 1.A Non-Time-Critical Scenario: -Today’s probe data and applications: traffic, transit/ fleet management, e-tolling -Applications that require only position and speed Federal role/interest - Promote and demonstrate benefits (SafeTrip-21) - Data exchange standards Level 2.A Non-Time-Critical Non-Proprietary Vehicle Data
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12 IntelliDrive Taxonomy Level 1.B Level 2 Vehicle-Based Data Level 1.B Time Sensitive Federal role/interest -Promote industry data & communications (DSRC) standards - Accelerate deployment & benefits Scenario: - Integration of DSRC technology into nomadic devices - “Here I Am” message” supports safety and mobility applications Level 1.B Time Sensitive Level 2.A Non-Time Critical Non-Proprietary Vehicle Data Level 2.B Non-Time-Critical Proprietary Vehicle Data Level 2.C Time-Critical Proprietary Vehicle Data Level 1.A Non-Time Critical Level 1 Non-Vehicle-Based Data
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Scenario: -Leveraging of non-proprietary data from vehicle data port via aftermarket products -Various communication capability including DSRC Federal role/interest -Promote industry data & communications standards -Opportunity for obtaining vehicle based data for mobility and road weather applications -Accelerate deployment & benefits Level 2.A Non-Time-Critical Non-Proprietary Vehicle Data 13 IntelliDrive Taxonomy Level 2.A Level 2 Vehicle-Based Data Level 1 Non-Vehicle-Based Data Level 2.B Non-Time-Critical Proprietary Vehicle Data Level 2.C Time-Critical Proprietary Vehicle Data Level 1.B Time-Critical Level 1.A Non-Time-Critical
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Scenario: -Private services -Various communication media Level 2.B Non-Time-Critical Proprietary Vehicle Data Federal role/interest -Promote industry data standards -Opportunity for obtaining richer set of vehicle based data for mobility and road weather applications IntelliDrive Taxonomy Level 2.B 14 Level 2 Vehicle-Based Data Level 1 Non-Vehicle-Based Data Level 2.A Non-Time Sensitive Non-Proprietary Vehicle Data Level 2.C Time-Critical Proprietary Vehicle Data Level 1.B Time Sensitive Level 1.A Non-Time Sensitive
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15 IntelliDrive Taxonomy Level 2.C Level 2.C Time -Critical Proprietary Vehicle Data Scenario: -DSRC centric primary goal of safety -Supports mobility and environmental goals -Requires infrastructure for mobility, environmental, and some safety applications Federal role/interest -Promote industry data and communications standards -Rulemaking for safety technology and applications -Explore retrofit opportunities for accelerated benefits -Deployment models -Governance framework Level 1 Non-Vehicle-Based Data Level 2.A Non-Time-Critical Non-Proprietary Vehicle Data Level 2.B Non-Time-Critical Proprietary Vehicle Data Level 1.B Time-Critical Level 1.A Non-Time-Critical Level 2 Vehicle-Based Data
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ITS Strategic Plan – Vision A national, multi-modal surface transportation system that features a connected transportation environment among vehicles, the infrastructure, and portable devices to serve the public good by leveraging technology to maximize safety, mobility and environmental performance …and a suite of targeted research and development initiatives that support cross-modal ITS solutions
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ITS Strategic Plan – IntelliDrive Research Framework Applications (Includes Field Tests and Demonstrations) Technology Underpinning Policy & Non-Technical
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Are applications available and benefits validated? What is the minimum infrastructure needed for the greatest benefit? How much, where, when and what type? What is the degree of market penetration required for effectiveness? Is technology stable, reliable, secure, and interoperable? Are international standards available to ensure interoperability? What policies/governance/funding are required for sustainability? How to address public concerns for privacy and ensure that applications do not cause driver distraction? Applications Technology Policy ALL MUST BE ANSWERED TO BE DEPLOYABLE 77% 18% 5% Critical Research Questions
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ITS Strategic Plan – IntelliDrive Research Safety Vehicle to Vehicle (V2V) Communications for Safety Vehicle to Infrastructure (V2I) Communications for Safety Human Factors Mobility Real-Time Data Capture and Management Dynamic Mobility Applications Road Weather Management Environment Applications for the Environment: Real-Time Information Synthesis (AERIS) Technology Underpinning IntelliDrive Test Environment Harmonization of International Standards and Architecture IntelliDrive Certification IntelliDrive Systems Engineering Data and Communications Security Policy & Non-Technical Deployment scenarios Financing Legal and Institutional Issues
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20 Interest Groups: Research Area Focus – Technology Systems engineering Remaining technical challenges: security, positioning, scalability Standards Testbeds – Policy & Non-Technical Deployment strategy Financing Governance Certification Legal, liability, privacy issues Data ownership and rights – Applications May be subdivided based on taxonomy Includes data capture methods to support applications V2V safety V2I safety SPAT and signal (I2V) Weather Environmental Other mobility and public sector management applications Tolling Aftermarket
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21 Interest Groups: Stakeholder Focused Existing: – OEMs (light vehicle manufacturers) – AASHTO (state gov’t.) – ITE, NACO (local gov’t. & system implementers) – Traveler information community (511 Coalition) – Weather community – Transit community Needed: – Aftermarket community (device makers, data collectors, aggregators, users) – Freight – Telecom – Financial industry – Toll – Environment
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For More Information… http://www.intellidrive.org /
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