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The ITU single vegetative obstruction model is a radio propagation model that quantitatively estimates attenuation due to a single plant or tree standing in the middle of a telecommunication link.[1]
Coverage
editFrequency = Below 3 GHz and over 5 GHz
Depth = Not specified
Mathematical formulations
editThe single vegetative obstruction model is formally expressed as,
where, A = The Attenuation due to vegetation. Unit: decibel(dB).
d = Depth of foliage. Unit: Meter (m).
= Specific attenuation for short vegetative paths. Unit: decibel per meter (dB/m).
Ri = The initial slope of the attenuation curve
Rf = The final slope of the attenuation curve
f = The frequency of operations. Unit: gigahertz (GHz).
Calculation of slopes
editInitial slope is calculated as:
And the final slope as:
where,
a, b and c are empirical constants (given in the table below).
Calculation of k
editk is computed as:
where,
k0 = Empirical constant (given in the table below)
Rf = Empirical constant for frequency dependent attenuation
A0 = Empirical attenuation constant (given in the table below)
Ai = Illumination area
Calculation of Ai
editAi is calculated in using any of the equations below. A point to note is that, the terms h, hT, hR, w, wT and wR are defined perpendicular to the (assumed horizontal) line joining the transmitter and receiver. The first three terms are measured vertically and the other there are measured horizontally.
Equation 1:
Equation 2:
where,
wT = Width of illuminated area as seen from the transmitter. Unit: meter (m).
wR = Width of illuminated area as seen from the receiver. Unit: meter (m).
w = Width of the vegetation. Unit: meter (m).
hT =Height of illuminated area as seen from the transmitter. Unit: meter (m).
hR = Height of illuminated area as seen from the receiver. Unit: meter (m).
h = Height of the vegetation. Unit: meter (m).
aT = Azimuth beamwidth of the transmitter. Unit: degree or radian.
aR = Azimuth beamwidth of the receiver. Unit: degree or radian.
eT = Elevation beamwidth of the transmitter. Unit: degree or radian.
eR = Elevation beamwidth of the receiver. Unit: degree or radian.
dT = Distance of the vegetation from transmitter. Unit: meter (m).
dR = Distance of the vegetation from receiver. Unit: meter (m).
The empirical constants
editEmpirical constants a, b, c, k0, Rf and A0 are used as tabulated below.
Parameter | Inside leaves | Out of leaves |
---|---|---|
a | 0.20 | 0.16 |
b | 1.27 | 2.59 |
c | 0.63 | 0.85 |
k0 | 6.57 | 12.6 |
Rf | 0.0002 | 2.1 |
A0 | 10 | 10 |
Limitations
editThe model predicts the explicit path loss due to the existence of vegetation along the link. The total path loss includes other factors like free space loss which is not included in this model.
Over 5 GHz, the equations suddenly become extremely complex in consideration of the equations for below 3 GHz. Also, this model does not work for frequency between 3 GHz and 5 GHz.
See also
editFurther reading
edit- Introduction to RF propagation, John S. Seybold, 2005, Wiley.
References
edit- ^ "Rec. ITU-R P.833-2 1 RECOMMENDATION ITU-R P.833-2 ATTENUATION IN VEGETATION (Question ITU-R 202/3)" (PDF). www.itu.int. The ITU Radiocommunication Assembly. Retrieved 26 April 2024.