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I am having difficulty with the following problem: A store promises to give a small gift to every thirteenth customer to arrive. If the arrivals of customers form a Poisson process with rate $\lambda$, then:

  1. Find the probability density function of the times between the lucky arrivals;
  2. Find $P[M(t) = k ]$ for the number of gifts $M(t)$ given during the interval $[0, t]$
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    What do you know? What did you try? Where are you stuck?2012-05-24
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    my problem is the use of the condition given by the number 132012-05-24
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    ??? Please explain.2012-05-24

1 Answers 1

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HINTS:

  1. The customer interarrival time is exponential $\mathcal{E}(\lambda)$. 13 customers need to arrive, the time between lucky arrivals is thus the sum of 13 independent identically distributed exponential random variables. This sum follows a well-known distribution.

  2. $\mathbb{P}(M(t)=k) = \mathbb{P}(13 k \leqslant N(t) < 13(k+1))$, now use what you know about the Poisson process $N(t)$.

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    1.E(λ)=T(n)-T(n-1) where T (n) random variable representing the time of their arrival n customers?2012-05-24
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    and 2 but if there is at most 13 gifts2012-05-24