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3.2 Calculating the dRSS

3 Example of running a simulation

3.3 Calculating the iRSS

3 Example of running a simulation

3.6 Calculating the probability of interference

3 Example of running a simulation

4.2 iRSSblocking

4 Example of calculations

4.7 Uniform distribution of ILT vs VLR

4 Example of calculations

You may define a uniform deployment density of terminals/transmitters per km2 (see ANNEX 13:). This can either be done by using the “Uniform Density” mode combined with the calculation of a simulation radius as described in section 4.7.1 and A13.2 or by using ...

5.1 Generic system tab

5 Generic module

5.2 Receiver

5 Generic module

5.3 Transmitter

5 Generic module

5.4 Transmitter to Receiver Path

5 Generic module

6.5 Examples

6 Spectrum sensing and cognitive radio

At the end of the simulation, SEAMCAT provides a set of output vectors as presented in Section 12.4. The following subsections present examples on how to interpret the results.

7.5 Cellular network positioning

7 Cellular network simulation

7.6 CDMA/OFDMA commonalities

7 Cellular network simulation

8.2 CDMA system tab

8 CDMA module

8.3 General settings

8 CDMA module

8.5 CDMA Link level data

8 CDMA module

8.6 CDMA Downlink - simulation algorithm

8 CDMA module

8.7 CDMA Uplink - simulation algorithm

8 CDMA module

The center cell site only is used to calculate the effects of interference. In spite of this fact, it is essential to consider the intra-system interference caused by other cells in the cluster for an accurate modelling of power control. The precise transmit p...

8.8 Capacity for CDMA system

8 CDMA module

When starting a simulation involving one or more CDMA systems SEAMCAT will begin by checking if any of the CDMA systems have the “Simulate non interfered capacity” feature enabled (this is the default setting). The purpose of the “Simulate non interfered capac...