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Title: Vehicle-to-Vehicle Wireless Communication Protocol for Collision Warning


1
Vehicle-to-Vehicle Wireless Communication
Protocol for Collision Warning
  • Arunkumar Anand
  • No 2, S7 ECE

Seminar Presentation 2006 Dept. of Electronics
Communiactions. Govt. Engg. College, Wayanad.
http//arunkumaranand.bizhat.com/seminar
28th September 2006
2
Contents
  • Motivation
  • Application Levels
  • Overview of Vehicular Communications
  • Needs and Assumptions
  • Protocol for Vehicular Comm.
  • Application Challenges
  • State Transition
  • Future Works
  • Conclusion
  • References

3
Motivation
Accidents have been taking thousands of lives
each year
  • Study shows - About 60 roadway collisions could
    be avoided if the operator of the vehicle was
    provided warning at least one-half second prior
    to a collision
  • (- US. Patent No. 5,613,039)
  • Constraints of human drivers perception
  • Line-of-sight limitation of brake light
  • Large processing/forwarding delay for emergency
    events.

4
1. Line of Sight Limitation
Constraints of human drivers perception
On foggy days
Whats in front of that bus ?
Whats behind the bend ?
On rainy days
Fig.1
5
Constraints of human drivers perception
2. Large forwarding delay for emergency events.
Three Cars, namely
Reaction time ranges from 0.7sec to 1.5sec
Car A
Car B
Car C
Animation. 1
6
Overview of Different Vehicular Communications
Data Base
Scope of this Paper
Communication
Hot Spots (DSRC)
Petrol Pump, Workshop etc..
Satellite to
Vehicle
(GPS)
-
( V2V )
Vehicle
-
Vehicle
to
-
to
-
Roadside
Vehicle
(DSRC)
( DSRC)
( V2R )
Fig.2
7
Application Levels
  • Traffic Safety can be improved if drivers have
    the ability to see further down the road.
  • If traffic information was provided to Drivers,
    Police and other Authorities roads would be safe
    and traveling on them would be more efficient
  • Vehicle-to-Vehicle(V2V) and Vehicle-to-Roadside(V2
    R) Communication can bring out the following
    achievements.
  • Presence of obstacles on road.
  • Emergency Braking of a preceding vehicle.
  • Information about Blind Crossing, School
    proximity, Railway crossing etc
  • Entries to Highways.
  • High Speed Internet Access.
  • Electronic Toll Collection.
  • Parking Space locater in Cities.
  • Nearest Petrol Pump, Workshop etc..

8
for a vehicle participating in V2V communication
Needs and Assumptions
Interested on Direction, Speed, Position etc
  • Is able to obtain its own geographical location
    and determine the relative positions on the
    road.(Digital Maps, GPS)
  • Is equipped with at least one wireless transceiver

9
Protocol for Vehicular Comm.
10
Animation. 2
Analyze a practical situation
  • DSRC for cooperative vehicle information

11
Animation. 2
Not For me!
Who affects the most ?
position speed intent
  • DSRC for cooperative vehicle information

For me!
12
Terms
  • Abnormal Vehicle (AV)
  • A vehicle acts abnormally, e.g. deceleration
    exceeding a certain threshold, dramatic change of
    moving direction, major mechanical failure, etc.
  • Emergency Warning Messages (EWM)
  • Messages generated by an AV to warn other
    surrounding vehicles, which include the
    geographical location, speed, acceleration and
    moving direction of the AV.

13
Application Challenges lt1gt
  • Requiring to support multiple co-existing AVs
    over a longer period of time
  • Co-existing AVs AVs whose existences overlap in
    time and whose transmissions may interfere with
    each other
  • An AV can exist for an extended period of time
  • Chain effects of emergency road situation

Fig.3
14
Application Challenges lt2gt
  • Differentiation of emergency events and
    elimination of redundant EWMs
  • Unnecessary EWMs should be avoided so that the
    channel bandwidth can be better utilized for
    useful EWMs

Fig.4
15
State transitions of AVs
Eliminate redundant EWMs
  • Each AV may be in one of three states
  • Initial AV When an emergency event occurs to a
    vehicle, the vehicle becomes an AV and enters the
    initial AV state, transmitting EWMs following the
    rate decreasing algorithm.
  • Non-flagger AV nonparticipating in sending EWMs
    to the group on some conditions to
    eliminate redundant EWMs
  • Flagger AV resuming EWM transmissions at the
    minimum required rate.

16
State transitions of AVs (condition.)
  • Transitions from Initial AV state to Non-flagger
    AV state
  • At least Talert duration has elapsed since the
    time when the vehicle became an initial AV.
  • EWMs from one of the followers of the initial
    AV are being overheard
  • Transitions from Non-flagger AV to flagger AV
  • sets a timer for a Flagger Timeout ( FT)
    duration. If it does not receive any EWMs from
    its followers when the FT timer expires, the
    non-flagger AV changes its state to flagger AV.

17
Examples of state transitions
18
Examples of state transitions (cont.)
Fig. 5d
19
Future Works
USDOT Intelligent Transportation Systems (ITS)
Program
  • Vehicle manufacturers would install the
    technology in all new vehicles,
  • beginning at a particular model year
  • Full-scale deployment in both the vehicles and
    the roadside infrastructure will be made
    by 2008/9

Car2Car Communication Consortium (
www.car-to-car.org )
  • Non-profit organization initiated by European
    vehicle manufacturers.
  • To create and establish an open European
    industry standard for
  • Car2Car communication systems based on wireless
    LAN components and to guarantee
    European-wide inter-vehicle operability

20
Conclusion
  • An Overview of Vehicular Comm. is given.
  • Protocol of Vehicular Comm. Is discussed.
  • Protocol Challenges are also analysed.

Hi Buddy
A new era is arriving where vehicles
will communicate with each other, the devices
within them, and also with the world making the
next generation of vehicles into communication
hubs.
21
References
  • 1 S. Biswas, "Vehicle-to-Vehicle Wireless
    Communication Protocols for Enhancing Highway
    Traffic Safety," Communications Magazine, IEEE
    Publication Date Jan. 2006 Volume 44, Issue 1
    page(s)74- 82
  • 2 X. Yang et al., " A Vehicle-to-Vehicle
    Communication Protocol for Cooperative Collision
    Warning,"Proc. 1st Annual Intl. Conf. Mobile and
    Ubiquitous Syst Networking and Services, 2004
  • 3 G.S Bickel, "Inter/Intra-Vehicle Wireless
    Communication" at http//userfs.cec.wustl.edu/gsb
    1/index.html
  • 4 Q. Xu, R. Sengupta, and D. Jiang, "Design and
    Analysis of Highway Safety Communication Protocol
    in 5.9 GHz Dedicated Short-Range Communication
    Spectrum," Proc. IEEE VTC, vol. 57, no. 4, 2003,
    pp. 245155
  • 5 C.Bettstetter  "Toward Internet-Based Car
    Communications On Some System Architecture And
    Protocol Aspects" TUM, Germany
  • 6 J. Zhu and S. Roy, "MAC for Dedicated Short
    Range Communications in Intelligent Transport
    Systems,"IEEE Commun. Mag., vol. 41, no. 12, 2003
  • 7 http//www.car-to-car.org/

22
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