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A17.1.1
A17.1.1
SEAMCAT has the means to use built-in models but also the means of programming user-defined propagation models. The plugin concept was chosen to avoid the inherent format limitations of the earlier versions of SEAMCAT interface and make the plugin model to work as fast as any built-in model.

 

 

To aid in the selection process, Table 78 77 provides an indication of the application ranges and typical areas of suitability of the built-in propagation models in SEAMCAT


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Table 7877: Application ranges and typical areas for the various propagation models implemented in SEAMCAT

 

Model

Annex

Frequency range

Distance range

Typical application area

Free space loss

‎A17.2

LoS


LOS-limited

Fixed links and other systems/paths where direct-LoS could be assumed 

Extended Hata

‎A17.3

30 MHz - 3 GHz

Up to 40 km

Mobile services and other services working in non-LoS/cluttered environment . Note that in theory, the model can go up to 100 km since the curvature of the earth is included, but in practice it is recommended to use it up to 40 km. 

Extended Hata-SRD

‎A17.4

30 MHz - 3 GHz

Up to 300 m

Short range links under direct-

LoS

LOS assumption, important: antenna heights up to 3 m

Spherical diffraction (ITU-R P.452)

‎A17.5

Above 3 GHz

Up to and beyond radio horizon

Interference on terrestrial paths in predominantly open (e.g. rural) areas

ITU-R P.452:

  • ITU-R P.452-16
  • ITU-R P.452-14
    (superseded)


‎A17.7

A17.6

(superseded)

about 0.

1

7 GHz to 50 GHz

up to a distance limit of 10 000 km

Prediction method for the evaluation of interference between stations on the surface of the Earth at frequencies above about 0.1 GHz, accounting for both clear-air and hydrometeor scattering interference mechanisms.

ITU-R P.1546:

  • ITU-R P.1546-6
  • ITU-R P.1546-5 (superseded)
  • ITU-R P.1546-4 (superseded)

ITU-R P.1546-1 (obsolete)


 

A17.11

A17.10 (superseded)

A17.9 (superseded)

A17.

7

8 (obsolete)

30 MHz –

3 GHz

4 GHz

 

<1 000 km

Broadcasting and other terrestrial services, typically considered in cases with high mounted transmitter antenna (e.g. above 50-60 m).

 

Note that ITU-R P.1546-5 is also valid for short horizontal distances smaller than 1 km.

 

Note that Rec. ITU-R P.1546-4 proposes a solution where values of distances less than 1 km may occur and where short-range propagation model is not practicable and a simple means is required to converge towards free-space field strengths for arbitrarily short distances (see section 14 of ITU-R Rec. P.1546-4). 

JTG5-6

‎A17.9

600 MHz - 2 GHz

>0 – 1 000 km

similar to ITU-R P.1546-4 but covering the distances below 1 km

Longley Rice (ITM)

‎A17.10

20 MHz – 40 GHz

1 – 2 000 km

Antenna height from

50

5 cm to 3 km and surface refraction from 250 to

400 N

 [A1]50 cm (according to many sources, including for example, J. S. Seybold, "Introduction to RF Propagation," Wiley, 2005.)

400 N

IEEE 802.11 Model C

‎A17.11

 

 

 

ITU-R Rec. P. 1411

‎A17.12

300 MHz – 3 GHz

< 3 km

§ 4.3 of the recommendation; for propagation between terminals located from below roof-top height to near street level

ITU-R Rec. P. 528

A17

‎A17.

15

13

125 MHz – 15.5 GHz

> 0 – 1 800 km

ground-air, ground-satellite, air-air, air-satellite, and satellite-satellite links

ITU-R P.2001-2

A17.16

30 MHz – 50 GHz

3 km – 1000 km

General purpose wide-range model for terrestrial propagation which predicts path loss due to both signal enhancements and fading over effectively the range from 0% to 100% of an average year.

ITU-R P.2108-0

A17.17

30 MHz – 100 GHz

-

Estimates loss through clutter for site-specific terrestrial and site-general terrestrial and Earth-to-Air paths.

ITU-R P.2109-0

A17.18

80 MHz – 100 GHz

-

Estimates building entry loss for traditional and thermally-efficient buildings.

Propagation plug-in

A17

‎A17.1.4

model specific

model specific

model specific