Confidence interval for Weibull distribution

I have wind data that I'm using to perform extreme value analysis (calculate return levels). I'm using R with packages 'evd', 'extRemes' and 'ismev'.

I'm fitting GEV, Gumbel and Weibull distributions, in order to estimate the return levels (RL) for some period T.
For the GEV and Gumbel cases, I can get RL's and Confidence Intervals using the extRemes::return.level() function.

Some code:

require(ismev)
require(MASS)

data(wind)
x = wind[, 2]
rperiod = 10

fit <- fitdistr(x, 'weibull')
s <- fit\$estimate['shape']
b <- fit\$estimate['scale']

rlevel <- qweibull(1 - 1/rperiod, shape = s, scale = b)

## CI around rlevel
## ci.rlevel = ??

But for the Weibull case, I need some help to generate the CI's.

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You have provided a sketchy description of what you have done but this is a coding forum and you are expected to post data and code. –  BondedDust Mar 26 '13 at 15:46
Code added, thanks. –  Fernando Mar 26 '13 at 15:53

I suspect the excruciatingly correct answer will be that the joint confidence region is an ellipse or some bent-sausage shape but you can extract variance estimates for the parameters from the fit object with the vcov function and then build standard errors for which +/- 1.96 SE's should be informative:

> sqrt(vcov(fit)["shape", "shape"])
[1] 0.691422
> sqrt(vcov(fit)["scale", "scale"])
[1] 1.371256

> s +c(-1,1)*sqrt(vcov(fit)["shape", "shape"])
[1] 6.162104 7.544948
> b +c(-1,1)*sqrt(vcov(fit)["scale", "scale"])
[1] 54.46597 57.20848

The usual way to calculate a CI for a single parameter is to assume Normal distribution and use theta+/- 1.96*SE(theta). In this case, you have two parameters so doing that with both of them would give you a "box", the 2D analog of an interval. The truly correct answer would be something more complex in the 'scale'-by-'shape' parameter space and might be most easily achieved with simulation methods, unless you have a better grasp of theory than I have.

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So now i can calculate qweibull_inf and qweibull_hi using these values? –  Fernando Mar 28 '13 at 16:56
I'm not exactly sure I understand your terminology here. –  BondedDust Mar 28 '13 at 17:04
I have the CI's for shape and scale. Can i just plug these to calculate weibull quantiles using qweibull(p, shape, scale)? –  Fernando Mar 28 '13 at 17:24
there is a strong smell of homework in the air. At least try a Bonferroni correction if you are using separate confidence intervals for your variables. –  Ferdinand.kraft Mar 28 '13 at 18:50
@Fernando: I still do not understand what you want, so I cannot tell if the code would deliver an appropriate output. You do not yet seem to understand that a box is a two dimensional confidence region (defined by its 4 corners). I do not understand what sort of Bonferroni correction might be advised by Ferdinand. I do not see multiple testing being done. Estimating two parameters is not the same as multiple comparisons. –  BondedDust Mar 28 '13 at 18:55