Determining location with diffraction propagation - PowerPoint PPT Presentation

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Determining location with diffraction propagation

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Huygens' diffraction. Diffraction research. Huygens' diffraction. Several models ... Huygens-Kirchhoff. Fresnel. GTD. UTD. BTM. Frustum tracing. Frustum tracing ... – PowerPoint PPT presentation

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Title: Determining location with diffraction propagation


1
Determining location with diffraction propagation
  • Micah Taylor
  • 2008-10-13
  • http//kixor.net/school/2008fall/comp790/project/

2
Localization
3
Localization
  • Finding location relative to wave source

4
Localization
  • Finding location relative to wave source
  • Cell phones

5
Localization
  • Finding location relative to wave source
  • Cell phones
  • GPS

6
Localization
  • Finding location relative to wave source
  • Cell phones
  • GPS
  • Much work in robotics

7
Types of propagation
8
RF propagation
  • Direct
  • From source to receiver
  • Strongest

9
RF propagation
  • Direct
  • From source to listener
  • Strongest
  • Reflection
  • Bounces off things
  • Multipath

10
RF propagation
  • Direct
  • From source to listener
  • Strongest
  • Reflection
  • Bounces off things
  • Multipath

11
RF propagation
  • Direct
  • From source to listener
  • Strongest
  • Reflection
  • Bounces off things
  • Multipath
  • Diffraction
  • Travel around buildings
  • Multipath

12
Diffraction
13
Diffraction
  • Bending around objects

14
Diffraction
  • Bending around objects
  • Allows out of LOS paths

15
Diffraction
  • Bending around objects
  • Allows out of LOS paths

16
Diffraction
  • Bending around objects
  • Allows out of LOS paths
  • Very important for signalin cities!

17
Diffraction research
18
Diffraction research
  • Huygens diffraction

19
Diffraction research
  • Huygens diffraction

20
Diffraction research
  • Huygens diffraction
  • Several models

21
Diffraction research
  • Huygens diffraction
  • Several models
  • Huygens-Kirchhoff
  • Fresnel
  • GTD
  • UTD
  • BTM

22
Frustum tracing
23
Frustum tracing
  • No complicated wave effects

24
Frustum tracing
  • No complicated wave effects
  • Uses geometry to estimate propagation

25
Frustum tracing
  • No complicated wave effects
  • Uses geometry to estimate propagation
  • Models propagation

26
Frustum tracing
  • No complicated wave effects
  • Uses geometry to estimate propagation
  • Models propagation
  • Stronger in LOS
  • Bounces

27
Frustum tracing
  • No complicated wave effects
  • Uses geometry to estimate propagation
  • Models propagation
  • Stronger in LOS
  • Bounces
  • Discrete volumes

28
Advantages
29
Advantages
  • Very fast

30
Advantages
  • Very fast
  • Supports moving objects

31
Advantages
  • Very fast
  • Supports moving objects
  • Different materials

32
Advantages
  • Very fast
  • Supports moving objects
  • Different materials
  • Convincing results

33
Advantages
  • Very fast
  • Supports moving objects
  • Different materials
  • Convincing results
  • Runs on ordinary PC

34
Other work
35
Other work
  • Raytracing

36
Other work
  • Raytracing
  • Dynamic/complex scenes
  • Slow and aliases

37
Other work
  • Raytracing
  • Dynamic/complex scenes
  • Slow and aliases

38
Other work
  • Raytracing
  • Dynamic/complex scenes
  • Slow and aliases
  • Beam tracing

39
Other work
  • Raytracing
  • Dynamic/complex scenes
  • Slow and aliases
  • Beam tracing
  • Fast without aliasing
  • Static/simple scenes

40
Other work
  • Raytracing
  • Dynamic/complex scenes
  • Slow and aliases
  • Beam tracing
  • Fast without aliasing
  • Static/simple scenes

41
Other work
  • Raytracing
  • Dynamic/complex scenes
  • Slow and aliases
  • Beam tracing
  • Fast without aliasing
  • Static/simple scenes
  • Frustum tracing

42
Other work
  • Raytracing
  • Dynamic/complex scenes
  • Slow and aliases
  • Beam tracing
  • Fast without aliasing
  • Static/simple scenes
  • Frustum tracing
  • Some aliasing

43
Goals
44
Goals
  • Combine RF diffractionwith frustum tracing

45
Goals
  • Combine RF diffractionwith frustum tracing
  • Find possible paths throughenvironment

46
Goals
  • Combine RF diffractionwith frustum tracing
  • Find possible paths throughenvironment
  • Attempt localization usingpath attenuation

47
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