Search Results

This tab allows you to update all scenario parameters of for a generic system . In the upper part of the tab, you have three panels.   Figure 142: Generic system  

You can name and write some description of the victim system you want to simulate. 

The user can enter the frequency. The frequency value is overwritten at the “Scenario” tab level.   Table 8: Generic system – General panel Description Symbol Type Unit Comments Frequency f Distribution or Scalar MHz Distribution o...

It can be the VLR or the ILR as illustrated in Figure 143.   Figure 143: Receiver illustration as VLR or ILR   The receiver consists of 5 panels (Figure 144); Receiver identification, antenna pointing, antenna patterns identification, reception cha...

This panel is a common interface that is reused in all other radio system.   Table 9: Receiver identification Description Symbol Type Unit Comments Library   - Library - Allows to import/export the receiver characteristics from/to th...

This panel is a common interface that is reused in other radio system. It contains all information relative to the antenna other than the radiation pattern.   Table 10: Receiver antenna pointing GUI Description Symbol Type Unit Comments Anten...

This panel is a common interface that is reused in all other radio system. It contains all information relative to the antenna radiation pattern: Table 11: Antenna pattern identification Description Symbol Type Unit Comments Library   - ...

This panel consists in setting of the receiver characteristics of the generic system: Table 12: Reception characteristics GUI Description Symbol Type Unit Comments Noise floor: define a distribution of the noise floor N Distribution or...

Section 1.4 presented the concept of interference criteria (C/I, C/(N+I), (N+I)/N, I/N) when the victim is a generic system. The consistency between these values falls under the responsibility of the user. It should be noted that only one criterion is used at ...

It can be the ILT or the VLT as illustrated in Figure 146.   Figure 146: Transmitter illustration as ILT or VLT   It consists in 4 panels (Figure 147); Transmitter identification, antenna pointing, antenna patterns identification, emission characteristics.   ...

This is the same panel as in section 5.2.1 so that transmitter characteristics can be imported/exported from/to the library to/from the workspace and you can freely chose a name and a description.

In SEAMCAT, the transmitter power (P) is expressed as conducted power in dBm, including feeder loss. The antenna peak gain (G) is expressed in dBi. Consequently, the power calculated by SEAMCAT at the antenna output is the effective isotropic radiated power (e...

This is the same panel as in section 5.2.1 so that transmitter characteristics can be imported/exported from/to the library to/from the workspace and you can freely chose a name and a description.

It contains all information relative to the antenna radiation pattern. It is similar to the receiver antenna patterns identification (Section 5.2.3). 

This panel consists in setting of the emission characteristics of your generic system.   Table 14: Emission characteristics GUI Description Symbol Type Unit Comments Power  P Scalar or Distribution dBm This is the transmitter power...