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Cheese Factory

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Distributed Data Fusion In Peer2Peer Environment http://tisu.it.jyu.fi/cheesefactory ... System Weaknesses. Request-reply architecture ... – PowerPoint PPT presentation

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Title: Cheese Factory


1
Cheese Factory projectDistributed Data Fusion
In Peer2Peer Environment http//tisu.it.jyu.fi/che
esefactory
InBCT 3.2
M.Sc. Sergiy Nazarko nazarko_at_cc.jyu.fi
2
Area of interests
  • Data fusion algorithms which can be used for
    target tracking and identification
  • Kalman Filtering
  • Transferable belief model

3
Distributed data fusion
  • Real World Simulator (trajectory generator)
  • Creates scenario of target movements
  • Feeds sensors with data via XML-files
  • Situation display
  • Shows the real trajectory of target
  • Measured trajectory
  • Estimated trajectory
  • Predicted trajectory
  • P2PStudio
  • Generates network failures

Real-World Simulator
P2P Studio
Situation display
4
Track Simulator
  • Observation space temporarily
  • divided into 6 sectors
  • Every sector may contain any number of sensor
    nodes
  • Possibility to create
  • scenarios of target movements
  • Generated data is stored in XML-
  • files

5
Example of data for one sensor
6
Distributed Data Fusion
  • Situation display is impossible without Data
    Fusion
  • Collects information from the sensor nodes and
    combines them to obtain clear picture of the
    whole observation space
  • Classifies the observation data and uses this to
    make joint estimation between different sensors
  • Works as request-reply application

7
Situation display
  • Now situation display is combined with data
    fusion in one node
  • Target trajectory is displayed dynamically, when
    the Kalman filter computation gives new set of
    points
  • Displays various types of trajectory
  • Real trajectory (stored in XML files)
  • Measured trajectory (given by sensors)
  • sensor data is corrupted by noise
  • Estimated trajectory (Kalman Filter)
  • Predicted trajectory (Kalman Filter)

8
System Description
  • External Real world simulator
  • One Chedar-application different features
  • Sensor node
  • DisplayData fusion node
  • Possibility to run simultaneously few
    DisplayData fusion nodes to protect system from
    the failure of one of them
  • At any time any Sensor node can become processing
    node by simple clicking on the button
  • Tracking application based on Chedar and Real
    world simulator have been developed

9
System Weaknesses
  • Request-reply architecture
  • Every new measurement is requested by flooding
    the whole network with resource request (in real
    world sensor should send coordinates when they
    are received)
  • System works not in real time but it has its own
    time (timestamp), always starting from one
  • If only one situation display node is running,
    and it crashes, new situation display node will
    start with initial parameters of Kalman filter
  • Need time for filter adjusting

10
Current configuration
  • Classroom with workstations running 12 Chedar
    nodes, which act as Sensor nodes
  • Workstation running Situation display
  • Trajectory is already generated

Lea Pulkkinens hall
Classroom
11
Future Work
  • Add one or more targets into simulation
  • Transferable belief model will appear on scene
  • Make distributed processing network
  • Separate Data Fusion node from Situation Display
    node
  • Put few processing nodes in every sector
  • Store backup copies of Kalman filter parameters
    in other nodes
  • Make information about target follow the target
  • Discover quality of measurements by destroying
    sensor node
  • Find how quality of measurements depends on
    number of sensors
  • What is the optimal quantity of sensors in one
    sector?

12
Future Work (continued)
  • Improve request-reply architecture
  • Smart sensor should send information about target
    whenever the information is available
  • Data fusion node sends request periodically (e.g.
    every 30 seconds), in case new sensor appears on
    the scene
  • Create a sensor network that measures a real
    environment
  • E.g. 10 microcontrollers with infrared sensing
    chip and a radio interface chip, distributed all
    over Agora
  • 1 or more moving targets -)

13
Thank You!
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