clutter_imt#
- pycraf.pathprof.clutter_imt(freq, dist, location_percent, num_end_points=1)[source]#
Calculate the Clutter loss according to IMT.CLUTTER document (method 2).
- Parameters:
- freq
Quantity
Frequency of radiation [GHz]
- dist
Quantity
Distance between Tx/Rx antennas [km]
Minimal distance must be 0.25 km (single endpoint clutter) or 1 km (if both endpoints are to be corrected for clutter)
- location_percent
Quantity
Percentage of locations for which the clutter loss
L_clutter
(calculated with this function) will not be exceeded [%]- num_end_points
int
, optional number of endpoints affected by clutter, allowed values: 1, 2
- freq
- Returns:
- L_clutter
Quantity
Clutter loss [dB]
- L_clutter
Notes
The algorithm is independent of effective antenna height (w.r.t. clutter height), i.e., it doesn’t distinguish between terminals which are close to the ground and those closer to the top of the building. However, the model is only appropriate if the terminal is “in the clutter”, below the rooftops.
The result of this function is to be understood as a cumulative value. For example, if
location_percent = 2%
, it means that for 2% of all possible locations, the clutter loss will not exceed the returnedL_clutter
value, for the remaining 98% of locations it will therefore be lower thanL_clutter
. The smallerlocation_percent
, the smaller the returnedL_clutter
, i.e., low clutter attenuations are more unlikely.This model was proposed by ITU study group SG 3 to replace
clutter_correction
for IMT 5G studies (especially, at higher frequencies, where multipath effects play a role in urban and suburban areas).