Let \(\displaystyle{f}:\Omega\rightarrow{\mathbb{{{R}}}}\) be a Borel-measurable function, X

Hugh Soto

Hugh Soto

Answered question

2022-03-24

Let f:ΩR be a Borel-measurable function, X a random variable with values in Ω and XiR,iN realizations of X.
Literature
In their book on Monte Carlo Methods (Simulation and the Monte Carlo method, Second Edition) Rubinstein and Kroese give in Section 4.2.1 an approximate confidence interval for the mean E[f(X)]:
(μ^±z1α2σf^N),
where we write N for the number of Monte Carlo samples, z1α2 for the 1α2 quantile of the standard normal distribution, μ^=1Ni=1Nf(Xi) for the unbiased estimator of the mean and σ^f=1N1i=1N(f(Xi)μ^)2 for the empirical standard deviation derived from the unbiased estimator of the variance.
Extension to variance
In my opinion we can derive in a similar way a confidence interval for the variance var[f(X)] if we define g(X)=(f(X)μ^)2 and repeat the construction. This leads to the interval
(σ^f2±z1α2σ^gN),
where σ^g=1N1i=1N(g(X)1Ni=1Ng(Xi))2
How can I transfer this to give a confidence interval for the standard deviation? Surely I can't just take the square root of the boundaries. Any literature, help and thoughts are welcome. Thanks.

Answer & Explanation

Aarlenlsi1

Aarlenlsi1

Beginner2022-03-25Added 10 answers

The approach is different and yields a confidence interval of the form
((N1)σ^f2χ{α2}2,(N1)σ^f2χ{1α2}2),
where χα2 denotes the α-quantile of the χ2 distribution with N1 degrees of freedom.

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