IEEE 802 CALM Tutorial Part 4 v2 [Read-Only]

12 pages

English

IEEE 802 CALM Tutorial Part 4 v2 [Read-Only]

Phawyug - Boohara

Le téléchargement nécessite un accès à la bibliothèque YouScribe
Tout savoir sur nos offres

12 pages

English

Le téléchargement nécessite un accès à la bibliothèque YouScribe
Tout savoir sur nos offres

A propos
Informations
Extrait

Description

IEEE 802 CALM Tutorial14 November 2006R. Roy(dickroy@alum.mit.edu)VII/VIIC Program OverviewzzVII/VIIC Program OverviewVII Program is an ITS Tier-1 Initiative for electronically connecting vehicles and the infrastructure via a nationwide communication infrastructureThis new infrastructure will enable a number of new services that provide significant safety, mobility, and commercial benefitszzzVII/VIIC Program OverviewConvene a “VII Coalition” – auto manufacturers, AASHTO, USDOT – to resolve technical and policy issues that inhibit deployment Initiate a program (VIIC) to develop DSRC prototypes that will validate DSRC standards and provide equipment for testing elements of the VII concept Define a VII test concept and demonstrate value to all partiesz{VII/VIIC Program OverviewOBJECTIVE - Go/No-Go Decision to Deploy VIIA joint decision by the US DOT and the Auto Industry to move forward in both infrastructure and vehicles VII PROGRAM TIMELINEDeveloped initial requirements1995Define bandwidth needs – 75MHz1997Frequency allocation request to FCCFrequency granted by FCC1999Standards development started2001DSRC Industry Consortium formedVII concept developmentFirst VII Working Group meeting2003DSRC prototype program startedUse cases publishedVII Architecture published2005Network design begins DSRC prototype hardware Field operation tests2007Joint USDOT/AASHTO Automaker decision to implement RSU constructionNetwork ...

Informations

Publié par	Phawyug
Nombre de lectures	20
Langue	English

Extrait

IEEE 802 CALM Tutorial 14 November 2006 R. Roy (dickroy@alum.mit.edu)

VII/VIIC Program Overview

zVII Program is an ITS Tier1 Initiative for electronically connecting vehicles and the infrastructure via a nationwide communication infrastructure zThis new infrastructure will enable a number of new services that provide significant safety, mobility, and commercial benefits

VII/VIIC Program Overview

zConvene a “VII Coalition” – auto manufacturers, AASHTO, USDOT – to resolve technical and policy issues that inhibit deployment zInitiate a program (VIIC) to develop DSRC prototypes that will validate DSRC standards and provide equipment for testing elements of the VII concept zDefine a VII test concept and demonstrate value to all parties

VII/VIIC Program Overview

zOBJECTIVE  Go/NoGo Decision to Deploy VII {A joint decision by the US DOT and the Auto Industry to move forward in both infrastructure and vehicles

1995

1997

1999

VII PROGRAM TIMELINE Developed initial requirements Define bandwidth needs – 75MHz Frequency allocation request to FCC

Frequency granted by FCC

Standards development started 2001 DSRC Industry Consortium formed VII concept development 2003First VII Working Group meeting DSRC prototype program started Use cases published VII Architecture published 2005 Network design beginsDSRC prototype hardware Field operation tests 2007 Joint USDOT/AASHTO Automaker decision to implement RSU construction Network construction 2009

2011

VII starts

OBU production

VII Consortium Overview

zVIIC incorporated 11/04 {BMW, DCX, Ford, Honda,GM, VW, Toyota, Nissan members {Precompetitive development of VII technologies {Single industry voice to government zCooperative agreement signed 12/05 {Develop VII technologies to implementation readiness, validation through Proof of Concept. {Deploy a field trial evaluation {Contract is $56 million over three years {Organized as cost share program with multiple participants

VIIC/FHWA Cooperative Agreement Objectives

zAnalyze the requirements and define specific design elements of the VII Architecture. zDesign specific hardware to facilitate the implementation of VII. zDevelop software that can be employed either on the vehicle or in the infrastructure. zFabricate or procure equipment to be used in the test and evaluation of the VII Program. zTesting specific elements and/or combinations of elements of the VII Architecture. zIntegrate elements of the VII Architecture to permit the evaluation of the design. zEvaluate the effectiveness of specific designs with respect to the stated objectives of VII. zAnalyze data and results of the VII test program. zSupport high level deployment decision by OEMs and FHWA

VII Architecture Overview

On Board Equipment

Application 1

OBE Services

Application 2

WAVE Stack Radio Module

DSRC

RSU

External Gateway

VII Network

Pub/Sub Server

App Messages

Raw Probe Data

Service Provider

Other Data

Probe Data Based Information

Probe Data User

Other Uses

VIIC  Key Elements

zVehicle OnBoard Equipment (OBE) {OSGi/JAVAbased application host platform {Vehicle Interface, HMI, and positioning Services {Embedded DSRC Radio, WAVE stack and Java Comm API zRoadside Equipment (RSE) {DSRC Radio (802.11p) with GPS and router {Local controller (Signals, signs, etc) zNetwork (IPv6) zPublish and Subscribe Server for probe messages zNetwork Service Interfaces zExternal Services

VIIC  Initial Application Development

zTraffic Signal Violation Warning zStop Sign Violation Warning zInvehicle Signage (road advisory) zInvehicle Signage (local notification) zRoadway Conditions (weather and potholes) zTraffic Management and Control zAlternate Route Guidance zTraffic Information (OEM) zElectronics Payments (tolls, gasoline and parking)

VIIC Program Status

zFullyfunctional prototype DSRC modules exist

*Pictures courtesy of TechnoCom, Inc.