Introduction to turbulence/Statistical analysis/Generalization to the estimator of any quantity
From CFD-Wiki
Similar relations can be formed for the estimator of any function of the random variable say . For example, an estimator for the average of based on realizations is given by:
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where . It is straightforward to show that this estimator is unbiased, and its variability (squared) is given by:
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Example: Suppose it is desired to estimate the variability of an estimator for the variance based on a finite number of samples as:
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(Note that this estimator is not really very useful since it presumes that the mean value, , is known, whereas in fact usually only is obtainable).
Answer
Let in equation 2.55 so that , and . Then:
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This is easiest to understand if we first expand only the numerator to oblain:
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Thus
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Obviuosly to proceed further we need to know how the fourth central moment relates to the second central moment. As noted earlier, in general thi is not known. If, however, it is reasonable to assume that is a Gaussian distributed random variable, we know from section 2.3.4 that the kirtosis is 3. Then for Gaussian distributed random variables,
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