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If it overhears the transmission of another node on the channel, it defers its transmission attempt until that transmission has finished.
The nodes go to SLEEP mode after the transmission finishes.
It will quit the TX state until the transmission finishes.
We can avoid this problem making the concurrent transmission completes at the same time the first data transmission finishes.
Let R and X be the number of attempts and the time (in generic slots) excluding DIFS, respectively, incurred by a packet transmission of the tagged node between when the node starts decreasing its deterministic delay and when its targeted packet transmission is finished.
Now if you'll excuse me I think Transmission has finished downloading that Kraftwerk discography I "ordered" on the Interweb.
Once the data transmission is finished, the session is also finished and the user is removed from the system.
This makes it easier for a client to go to listening mode right after the high power transmission is finished.
With the finite buffer traffic model, a user stays in the system from the instant of the arrival until the data transmission is finished.
Also the probability (R_{k}^{(j)}) that j transmissions are finished when the system is in state k is given by begin{array}rcl@ R_{k}^{(j)} & = & Pr[j transfers terminate at time t|X_{t-1} = k] & = & {k choose j}q^{j} 1-q)^{k-j} 1-q
The reason we wait a PIFS is that we do not want to clobber any acknowledgements that might be sent in response to transmissions already in progress, but we want priority access to the channel after any transmissions finish (since the channel has, after all, been reserved).
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Since I tried Ludwig back in 2017, I have been constantly using it in both editing and translation. Ever since, I suggest it to my translators at ProSciEditing.

Justyna Jupowicz-Kozak
CEO of Professional Science Editing for Scientists @ prosciediting.com