If I've RFID Collision Arbitration System that is based on multi-frame dynamic frame ALOHA. How can compute the probability of the average tag resolution $L_n$? ,$P_s$ is probability for packet trasmission that no other packet arrives in the previus slot. $P[N(t+T,t)=0)]=e^G ; S=Ge^G$;S stand for Throughput.
$G=Tx\lambda$ G is traffic Distribuited according to Poisson process end $\lambda$ is Packet arrivals poisson process with paratameter $\lambda$ end T is last trasmission.
Knowing that $N_{population Tag=}=5$ end $r_{slotsize}=3$? i'know that if i want to compute $L_n$, i've to apply recursive formula, that is : $$L_n=r+\sum_{i=0}^n P(S=i)L_{n-i} $$ end in this case i'd have to obtain :
$$L_5= 3+P(S=0)L_5+P(S=1)L_4+P(S=2)L_3P(S=3)L_2P(S=4)L_1P(S=5)L_0$$ for me here it's ok until i've to compute P(S=0)...but for the other how could compute it?
