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Simple Radar Modeling and Simulation in ArcGIS

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Return Signal Received from both Target and surrounding Terrain ... Viewshed to Remove Hidden Grid Cells (Not used due to ArcGIS issues) ... – PowerPoint PPT presentation

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Title: Simple Radar Modeling and Simulation in ArcGIS


1
Simple Radar Modeling and Simulation in ArcGIS
  • John Maschmeyer

2
Motivation
  • Scenario
  • Radar Platform on Plane
  • Searching for Targets on Ground
  • Problem
  • Return Signal Received from both Target and
    surrounding Terrain
  • This Clutter makes target detection more
    difficult
  • Solution
  • Build Model of Clutter to improve detection
    performance

3
A Quick Overview of Radar
  • Basic Idea
  • Platform Transmits an Electro-Magnetic Signal
  • Signal Bounces off of Objects
  • Platform measures Return Signal
  • Important to Note
  • Range can be determined by measuring the time
    delay of the return signal
  • Return signal is just a scaled version of the
    transmit signal
  • Amplitude of the Receive Signal is a function of
    the scattering function of the target, the area
    of the target, and the range to the target

4
More Background
  • Can also measure Doppler shift if target is
    moving relative to platform
  • Platforms use multiple receive antennas to help
    determine direction to target
  • To simplify, neither of these components were
    modeled in ArcGIS

5
Context
6
Data
  • Small Region surrounding the Lake of the Ozarks
  • Elevation Data
  • 30 m Resolution
  • USGS Seamless Data Server
  • Used for Geometry Factors
  • Land Use Data
  • 30 m Resolution
  • USGS Seamless Data Server
  • Used for modeling the scattering function

7
Methods
  • Modeling Goal
  • Compute the Receive Amplitude for each grid cell
    in the target area
  • Requires 3 Components
  • Range
  • Scattering Function
  • Effective Area of Cell
  • Simulation
  • Add targets to model
  • Add random component
  • Perform Simple Detection

8
Range
  • Using spatial analyst distance function, obtained
    distance from platform to each grid cell
  • Distance computed in Degrees, Converted to Meters
  • Only provides 2d distance
  • Compute 3rd Dimension distance with Raster
    Calculator (Altitude)

9
Scattering Function
  • Simple Reclass of Land Use Raster
  • Values somewhat arbitrary
  • Actual Values would stem from direct measurements

10
Effective Area
  • Find Area of Grid Cells as seen by Platform
  • Viewshed to Remove Hidden Grid Cells (Not used
    due to ArcGIS issues)
  • Area Effective height x Effective Width
  • Height
  • Based on Slope
  • Width
  • Based on Aspect

11
Finding Effective Height
  • Compute Slope of Elevation Raster
  • Solve Geometry Problem

12
Finding Effective Width
  • Compute Aspect, Direction to Platform
  • Need to 0 out all grid cells that are facing away
    from platform

13
More Maps
Effective Area
Range
14
Finishing Up
  • Compute Modeled Amplitude
  • Create Simulated Data
  • Add targets to Sigma values
  • Add Random Noise
  • Target Detection
  • Find Error Simulated Modeled
  • Large Errors Represent Targets
  • Attempted Threshold Detection and Kernel Function

15
Results
Simulated Return
Modeled Return
Error
16
Results
  • Modeling
  • Complete Success
  • Simulation
  • Noise Levels Too High
  • Targets too dim
  • Detection
  • Needs more work

17
Future Work
  • Improve Initial Simulation/Detection
  • Compare More Detection Methods
  • Incorporate Doppler and Multiple Receive Antennas
    into model
  • Explore ArcGIS Modeling Capabilities

18
Questions?
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