The example is taken from section 16.17 in Loss Models: From Data to Decisions [1]. Some time ago I used the same example to get my head around a Bayesian credibility model.
Suppose the claims likelihood distribution is believed to follow an exponential distribution for a given parameter \(\Theta\). The prior parameter distribution on \(\Theta\) is assumed to be a gamma distribution with parameters \(\alpha=4, \beta=1000\):
\[\begin{aligned}\Theta & \sim \mbox{Gamma}(\alpha, \beta)\\
\ell_i & \sim \mbox{Exp}(\Theta) , \; \forall i \in N
\end{aligned}\]In this case the predictive distribution is a Pareto II distribution with density \(f(x) = \frac{\alpha \beta^\alpha}{(x+\beta)^{\alpha+1}}\) and a mean of \(\frac{\beta}{\alpha-1}=\,\)333.33.
I have three independent observations, namely losses of $100, $950 and $450. The posterior predictive expected loss is $416.67 and can be derived analytical, as shown in my earlier post. Now let me reproduce the answer with Stan as well.
Implementing the model in Stan is straightforward and I follow the same steps as in my simple example of last week. However, here I am also interested in the posterior predictive distribution, hence I add a
generated quantities code block. 
The output shows a simulated predictive mean of $416.86, close to the analytical answer. I can also read out that the 75%ile of the posterior predictive distribution is a loss of $542 vs. $414 from the prior predictive. That means every four years I shouldn't be surprised to observe a loss in excess of $500. Further I note that 90% of losses are expected to be less than $950, or in other words the observation in my data may reflect the outcome of an event with a 1 in 10 return period.
Comparing the sampling output from Stan with the analytical output gives me some confidence that I am doing the 'right thing'.
References
[1] Klugman, S. A., Panjer, H. H. & Willmot, G. E. (2004), Loss Models: From Data to Decisions, Wiley Series in Probability and Statistics.Session Info
R version 3.2.0 (2015-04-16)
Platform: x86_64-apple-darwin13.4.0 (64-bit)
Running under: OS X 10.10.3 (Yosemite)
locale:
[1] en_GB.UTF-8/en_GB.UTF-8/en_GB.UTF-8/C/en_GB.UTF-8/en_GB.UTF-8
attached base packages:
[1] stats graphics grDevices utils datasets methods base
other attached packages:
[1] lattice_0.20-31 actuar_1.1-8 rstan_2.6.0 inline_0.3.14
[5] Rcpp_0.11.6
loaded via a namespace (and not attached):
[1] tools_3.2.0 codetools_0.2-11 grid_3.2.0 stats4_3.2.0
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