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1.2.8
1.2.8
Desensitisation (D) of the receiver in the presence of an interfering signal, given in dB, corresponds to the ‘noise rise’ or ‘noise augmentation’ due to the interfering signal and is derived by the following equation in dB:

 

                                         

Unit
body

...

D = 10.

...

log10[(i + n)/n]

...

                                                                         (Eq. 8)

and is equivalent in the linear domain to:

                                          

Unit
body D = 10.

...

log10[(10(N/10) + 10 (I/10))] – N

...

                                                       (Eq. 9)

...


To ensure proper operation, the receiver is designed to include a margin equal or lower than D which allows it to tolerate a certain level of interference (I) in the listened channel. This can be caused by co-channel and/or non-co-channel interference sources.

When running a radio network or a radio link, the objective is to maintain the signal to interference and noise ratio SINR equal to the sensitivity to noise ratio. This is illustrated in the following figure.

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F002
F002
Figure 2: Desensitisation

An equivalent expression of the desensitizationdesensitisation, (N+I)/N, is expressed as follows in terms of interference to noise ratio I/N in dB.

...

                                         

Unit
body I/N = 10.

...

log10(

...

10D/10 - 1)

...

                                                                     (Eq. 10)

 

noting that in linear domain it is equivalent to:


                                          

Unit

...

body

...

I/

...

N =

...

10.log10(10D/10 - 1)
                                                         (Eq. 11)