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The uniform density mode uses the notion of simulation radius Rsimu of the interfering transmitter which

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A13.2.2
A13.2.2
In the mode uniform density, Rsimu defines the circular area where the ILTs are spread. The IT-VR path Rsimu Rsimu in the ILT-VLR path is calculated at the very beginning of a simulation cycle and applied in all events. It is defined as:

...

 

                            

Mathinline
body${{R}_{simu}}=\sqrt{\frac{{{n}^{active}}}{\pi \ \times \ dens_{ILT}^{active}}}$
   (Eq. 178)

 

densitactive  isthe density of active transmitters and is defined as follows:


               

...

                                Image Removed                         (Eq. 170       

Mathinline
body$den{{s}_{ILT}}^{active}=den{{s}_{ILT}}.{{p}_{ILT}}.activit{{y}_{ILT}}(time)$
   (Eq. 179)

where:

    • nactive - number of active transmitters set in the scenario for IT-VR path (note that nactive should be sufficiently large so that the (n+1)th interferer would
    • bring
    • contribute with a negligible additional interfering power); 
    • densit - density of transmitters, 1/km2, user-defined parameter in the table Interferers density of
    • VR
    • ILT-
    • IT
    • VLR path;
    • Pit - probability of transmission, user-defined parameter;
    • activityit(time) - user-defined temporal activity function (
    • a
    • i.e. look-up table). The time value used for calculation is specified in the parameter time (see below). 
    • time - parameter defining which of the values in the above activity function should be used in calculations (e.g. if the
    • activityit
    • activity(time) function contains three pairs: (1;0.5), (2;0.7), (3; 0.9)
    • ,
    • and the time parameter is set to 2, then the
    • activityit
    • activity(time) function will
    • be returning
    • return a value 0.7).
    •  


In case you are given a fixed simulation radius with a defined density of active users is provided, you can evaluate the number the nactive  users can be evaluated by using this the following equation, which is derived from the equation above.

Image Removed                             (Eq. 171)

 

...

above equation.

Mathinline
body${{n}_{active}}=den{{s}_{transmitter}}.pro{{b}_{transmission}}.\pi \ {{\left( R_{simulation}^{{}} \right)}^{2}}$
  (Eq. 180)


When setting up your simulation, if the relevant input parameter is the simulation radius, it is recommended to use the mode “None” mode instead of the “Uniform density” mode (. In that case, you may simulate the activity of the transmitter , emay be simulated using  e.g. the parameter duty cycle, using the which defines a distribution of the transmit power). If you are more interested to consider as an input the density of users

If the relevant input parameter is the user density (i.e. without setting the simulation radius as input), it is recommended to use the “Uniform density” mode.

For this mode, the path distance factor is fixed to a uniform polar distance distribution with a maximum distance of 1 and is not editable.