Analyzing Path Loss in Urban and Suburban Environments - PowerPoint PPT Presentation

1 / 18
About This Presentation
Title:

Analyzing Path Loss in Urban and Suburban Environments

Description:

Edges of buildings diffract signal between buildings. Diffraction, multiple Lmd ... Both sides diffract down into street. Multiple-Diffraction ... – PowerPoint PPT presentation

Number of Views:37
Avg rating:3.0/5.0
Slides: 19
Provided by: marka175
Category:

less

Transcript and Presenter's Notes

Title: Analyzing Path Loss in Urban and Suburban Environments


1
Analyzing Path Loss in Urban and Suburban
Environments
  • By Mark Anderson
  • EE233C
  • Dr. Mani Srivastava

2
Link Analysis
  • Link Budget
  • Transmitter antenna gain
  • Receiver antenna and amplifier gain
  • Path Loss Free space, shadowing
  • Slope-intercept approximation for far-field (gt 1
    m)

3
Outline
  • Empirical Measurements
  • Model Parameters
  • Model
  • Basic Model
  • Simplifying
  • At/Above/Below Avg Building Height
  • Compare to Empirical Results
  • Conclude

4
Empirical Shortcomings
  • Empirical Data
  • Measure signal response at a frequency per
    distance
  • In specific sub/urban environment
  • Pro
  • Exact match for system under consideration
  • Cons
  • Expensive (mounting antennae, averaging
    fast-fade, expensive measuring equipment and
    personnel, multiple locations)
  • Cant generalize (frequency, environment)

5
Model Dimensions
Base station
Mobile station
R
?
?hb
?hm
w
d
x
6
Simple Model
  • Path Loss has three terms
  • Free Space - Lfs
  • Attenuation from distance to point source
  • Diffraction, roof-to-street Lrts
  • Edges of buildings diffract signal between
    buildings
  • Diffraction, multiple Lmd
  • Multiple diffractions further attentuate signal
    as it passes rows of buildings

7
Free Space
  • Related to frequency and distance from base
    antenna
  • Surface of sphere (far-field approximation)
  • Point source approximation
  • Ignore curvature

8
Roof-to-Street Diffraction
  • Edges of building act as diffractors
  • Both sides diffract down into street

9
Multiple-Diffraction
  • Chained diffraction through rows of buildings
  • QM is very complicated, with infinite summations
    of recursive functions
  • Most simplifications of the model involve
    simplifying assumptions about QM

10
Choices for Base Antennae Location
  • At Average Building Height
  • Cheap (licensing, site availability, zoning)
  • Limits range of antennae
  • Above Average Building Height
  • Expensive
  • Best reception (least occlusion) (closest to LOS)
  • Below Building Height
  • Cheapest
  • Increases in Network capacity from smaller cells

11
Coverage Examples
  • Base antenna height has a strong effect on
    coverage patterns (8 m Bldg)

12
Near Rooftop Base Antennae
13
Above Rooftop Base Antennae
14
Below Rooftop Base Antennae
15
Comparison
  • Near Rooftop
  • Above Rooftop
  • Below Rooftop
  • Line of Sight (LOS)
  • 20 dB/decade R and 20 dB/decade f

16
Empirical/Model Comparison
  • Above Rooftops
  • Antenna 100 ft
  • 2 vs. 4-story
  • 12 dB
  • Close match for
  • New Jersey (suburban)
  • Tokyo/New York

17
Conclusion
  • Good model
  • Saves cost in estimating system buildout
  • Accurate across various environments

18
Paper Figure
Write a Comment
User Comments (0)
About PowerShow.com