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InVANET(Intelligent Vehicular Ad Hoc Network

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Title: InVANET(Intelligent Vehicular Ad Hoc Network


1
InVANET(Intelligent Vehicular Ad Hoc Network
  • Sandesh Pandey, Ramesh Basukala and Sumit Joshi

2
Introduction
3
Introduction
  • InVANET is an
  • Intelligent Vehicular Ad Hoc Networking
  • uses WiFi IEEE 802.11 and
  • WiMAX IEEE 802.16
  • for easy and effective communication between
    vehicles with dynamic mobility.

4
Introduction
  • VANET, is a form of Mobile ad-hoc network,
  • to provide communications among nearby vehicles
    and
  • between vehicles and nearby fixed equipment,
    usually described as roadside equipment.
  • In intelligent vehicular ad hoc network, rather
    than moving at random as in MANET vehicles tend
    to move in an organized fashion.

5
Introduction
  • Providing
  • vehicle-to-vehicle and
  • vehicle-to-roadside communication
  • can considerably improve traffic safety and
    comfort of driving and traveling.

6
Introduction
  • Each vehicle equipped with VANET device will be a
    node in the Ad-Hoc network and can receive and
    relay others messages through the wireless
    network.
  • Each node in the ah-hoc network functions as the
    router to another node.
  • The terminals act like repeaters that relay the
    information packets flying back and forth about
    the ad-hoc network from one mobile terminal to
    the next.

7
Mobile IPv6
  • Mobile IPv6 is a widely accepted solution
  • to provide session continuity and
  • reachability to the Internet for mobile nodes.

8
Mobile IPv6
  • Mobile IPv6 proxy-based architecture
  • selects the optimal communication mode
  • direct in-vehicle,
  • vehicle-to-vehicle,
  • and vehicle-to-roadside communication
  • provides dynamic switching between
  • vehicle-to-vehicle and
  • vehicle-to-roadside communication mode

9
Model for InVANET
10
Goal of InVANET
  • The main goal of VANET is to provide safety and
    comfort for passengers.
  • Communication between vehicles can be used
  • to realize driver support and active safety
    services like
  • collision warning,
  • up-to-date traffic and
  • weather information or
  • active navigation systems.

11
Examples
  • There are also
  • multimedia and
  • internet connectivity facilities
  • for passengers, all provided within the
    wireless coverage of each car.
  • Automatic payment for parking lots and toll
    collection are other examples of possibilities
    inside VANET.

12
Characteristics
  • Lack of pre-configuration, meaning network
    configuration and management must be automatic
    and dynamic.
  • Node mobility, resulting in constantly changing
    network topologies.
  • Multi-hop routing.

13
Characteristics
  • Resource limited devices, e.g. laptops, PDAs and
    mobile phones have power and CPU processing
    constraints.
  • Resource limited wireless communications, e.g.
    reduced to 10's of kilobits per second by the
    fact that many nodes must share the radio medium.
  • Potentially large networks, e.g. a network of
    sensors may comprise thousands or even tens of
    thousands of mobile nodes

14
Advantages
  • Inter-vehicular communication services such as
    intersection collision warning, local danger
    warning, and the de-central dissemination of
    real-time traffic flow information.
  • The mobile terminals not only provide a function
    for information transmission and reception but
    also provide a function for information relay
    i.e. provides the function of router.
  • Ad-hoc network provides anytime, anywhere access
    environment.

15
Challenges
  • Scability of protocol
  • Introduction of Security
  • High-Speed Real-Time Communication

16
Scenario
17
Scenario
  • Several actors involved in inter vehicular ad
    hoc network are
  • The drivers, which benefit from the system by
    receiving warning messages and route
    recommendations.
  • Road operators, who receive traffic data and are
    therefore enabled to control the traffic in a
    more efficient way.
  • Hotspot and Internet service providers, who can
    attach vehicle communication systems e.g. at gas
    stations.

18
Scenario Safety use cases
  • Cooperative Forward Collision Warning
  • Pre-Crash Sensing/Warning
  • Hazardous Location V2V Notification

19
Scenario Traffic Efficiency use cases
  • Enhanced Route Guidance and Navigation
  • Green Light Optimal Speed Advisory
  • V2V Merging Assistance

20
Scenario Infotainment and Others use cases
  • Internet Access in Vehicle
  • Point of Interest Notification
  • Remote Diagnostics

21
Technical Prerequisites and Constraints
  • Anonymity and Data Security
  • Effective Protected Frequency Band
  • Scalability
  • Mandatory Sensor Data

22
Architecture
  • two approaches can be taken.
  • Layered Approach and
  • Un-layered Approach

23
Layered Approach
protocols fulfill small, well-defined tasks and
form a protocol stack
24
Un-layered Approach
All application and communication protocols are
placed in one single logical block
25
Research
  • efficient message dissemination,
  • network scalability, and
  • information security mechanisms

26
Conclusion
  • In InVANET, vehicles can communicate with the
    roadside communication infrastructure and also
    among each other.
  • A vehicle is not only information source or sink,
    but also information distributor.
  • The communication services enable a wide range of
    applications, ranging from road safety and
    traffic efficiency, driving comfort and
    infotainment.

27
Conclusion
28
Question 1
  • In Intelligent Vehicular AdHoc network (InVANET),
    vehicles are enabled to communicate among
    themselves i.e. V-2-V. It is explained that V-2-V
    enables communication for small to medium
    distances and at locations even where roadside
    access points are not available. Are we assuming
    that all the vehicles on the road will be
    equipped with communication/networking
    capabilities? If not, how realistic is InVANET?

29
Question 2
  • Vehicles move in certain speeds. We have roads or
    highways which have various speed limitations.
    Does InVANET impose any restriction on the speed
    of a vehicle for its smooth operation?

30
Question 3
  • The basic safety message spreading in a vehicular
    network consists of event warning message. But
    there are scenarios when message need to be
    delivered to specific areas example, to the end
    of a traffic jam queue so that arriving vehicles
    have the option of taking another route before
    getting stuck. How can the vehicular network
    support the secure routing?
  • any two nodes that wish to communicate securely
    can simply establish a priori a shared secret, to
    be used by their routing protocol modules.

31
Question 4
  • Is the network expandable? How did the cars in
    the network and the terminals maintain the flow
    control in the network?
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