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Hey, I find this problem quite difficult to handle,I would be grateful to anyone who could at least lead on the path of solving it.

The random variable X has a Poisson distribution with mean µ. The value of µ is known to be either 1 or 2 so the following hypotheses are set up.

$H_0$ : µ = 1; $H_1$ : µ = 2

A random sample $x_1$ , $x_2$ , ..., $x_{10}$ of 10 observations is taken from the distribution of X and the following critical region is defined.

\begin{eqnarray*} \sum_{i\in 1}^{10}x_i \geqslant 15 \end{eqnarray*}

Determine the probability of a Type 1 and Type 2 errors.

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    You didn't specify how you choose which hypothesis to accept -- I assume by higher likelihood?2011-04-20
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    You also didn't specify a prior. The probability of errors is undetermined unless you make an assumption about the prior. Are you assuming a flat (50/50) prior?2011-04-20
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    Type 1 error is rejecting a true $H_0$ hypothesis and Type 2 error is falsely accepting $H_0$ hypothesis. I'm quite not sure what do you mean by specifying prior.2011-04-20
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    The prior is the probability distribution that you assign to the hypotheses prior to taking the sample. For instance, if you know that someone determined the mean $\mu$ by rolling a $6$-sided die and choosing $\mu=1$ if it came up $6$ and $\mu=2$ otherwise, then your prior would be $p(H_0)=1/6$ and $p(H_1)=5/6$. Often one does not have this sort of information about the hypotheses to be tested, and a usual "solution" to this problem is to arbitrarily assume a "flat" prior, in this case $p(H_0)=p(H_1)=1/2$. Without some assumption about the prior, it's meaningless to state error probabilities.2011-04-20
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    Also you didn't respond to my first question -- do you choose the hypothesis with the higher likelihood? If not, how do you choose?2011-04-20
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    Yes, hypotheses are chosen under higher likelihood.2011-04-20
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    From Henry's answer, it seems you may not be interested in the overall probabilities of Type 1 errors and Type 2 errors, but in the conditional probability of a Type 1 error assuming $H_0$ and the conditional probability of a Type 2 error assuming $H_1$ -- those are indeed independent of the prior, so if that's what you're interested in, what I wrote doesn't apply. In that case, you should have indicated in the question that you're looking for a conditional probability.2011-04-20
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    @Paul: I just realized I mistook your comments for responses by the OP; they sounded like they were :-) Are you answering what you assume the OP meant?2011-04-20
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    @Paul: Interesting, I'm quite sure the author of the question was shown as someone else just a short time ago -- did you just merge two accounts you had? For the future, it will avoid confusion if you use only one of them.2011-04-20
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    @joriki, yes, I did change my name, sorry for the inconvience.2011-04-20

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