Narrow band statistics for satellite broadcasting services

advertisement
TABLE VII-5 - Narrow band statistics for satellite broadcasting services+
Station number
TX frequency f (GHz)
TX polarization (L/C)
TX polarization tilt angle p (degrees)
RX average elevation angle (degrees)
RX rain zone(1)
Signal source (transmitter on i.e.: satellite,
helicopter, aeroplane, balloon, tower)
If satellite: satellite name
orbital position (degrees) E
TX antenna gain towards mobile (dBi)
______
______
_
____
_____
_
RX antenna diameter D (m)
RX radome? (Y/N)
RX polarization (L/C)
RX polarization tilt angle p (degrees)
RX multipath reduction? (Y/N)
RX dynamic range (dB)
RX minimum signal-to-noise ratio (dB)
RX integration time (s)
RX bandwidth (Hz)
Data sampling interval (m)
Calibration interval (days)
Data resolution (dB)
__________
__________
______
___
____
___
_
____
_
_____
___
____
____
_____
_____
_______
Measurement: Experiment No.
Mobile station
RX site name
____________________
RX country(2)
__
RX average latitude (–90..+90) (degrees)
_______
RX average longitude (0..360) (degrees) E
_______
Average velocity of vehicle (km/h)
___
RX average altitude amsl hgr (m)
____
RX antenna height ag hr (m)
___
RX antenna type
__________
RX 3 dB beamwidth in Az qrAz (degrees)
_____
RX 3 dB beamwidth in El qrEl (degrees)
_____
RX antenna gain (dBi)
___
___
Start date (yyyy.mm.dd)
End date (yyyy.mm.dd)
Duration of measurement in
this environment (h) (4)
Total distance of measurement (km)
Season
________
________
_______
______
__
Environment
Land mobile terrain type(3)
Building type
Vegetation type
Surface condition (wet, dry, snow)
__________
__________
___
____
Table a: (5)
Fade depth (dB relative to LOS) exceeded and XPD (dB) NOT exceeded for percentage of locations
Percentage
of time
Fade depth A
XDP
0.1
1
5
10
30
50
90
99
99.9
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
(dB)
(dB)
____________________
+
In addition to the tables provided in this document the submitter is requested to provide the data
files according to the instructions available on ITU-R SG 3 Web page: Study Group 3 databanks DBSG3.
Table b: (5) Fade duration reported in seconds or metres (s/m)
Fade duration (s) or (m) NOT exceeded for percentage of locations at given fade levels
Percentage
of locations
0.1
1
5
10
30
50
90
99
99.9
00 dB
02 dB
05 dB
10 dB
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
References:
Comments:
(1)
This was referring to Rec. ITU-R P.837-1 (In the current version, these zones do not exist).
(2)
Use ISO 3166-1 alpha-2 country codes.
(3)
See Annex 3 for environment types. Measurements should preferably only cover one type of environment. Also enter the
terrain characteristics: FL: flat, HI: hilly, MO: mountainous (Example: 33, HI means suburban, hilly).
(4)
Duration is the total time of valid measurements for this dataset, expressed as a real number (e.g. 339.888 days).
The ratio of duration to the period identified by the start and the end dates of this dataset is the availability (e.g. start=2001/1/1,
end=2001/12/31, duration= 339.888 days corresponds to 93.12 % availability).
(5)
Submissions should comply with the acceptance criteria specified in Rec. ITU-R P.311.
Download