Extensions of Fisher's method: Difference between revisions

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Dependent statistics

A principle limitation of Fisher's method is its exclusive design to combine independent p-values, which renders it an unreliable technique to combine dependent p-values. To overcome this limitation, a number of methods were developed to extend its utility.

Known covariance

Brown's method: Gaussian approximation

Fisher's method showed that the log-sum of k independent p-values follow a χ²-distribution of 2k degrees of freedom:

X=-2\sum _{i=1}^{k}\log _{e}(p_{i})\sim \chi ^{2}(2k)

In the case that these p-values are not independent, Brown proposed the idea of approximating X using a scaled χ²-distribution, cχ²(k’), with k’ degrees of freedom. This approximation is shown to be accurate up to two moments.

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Unknown covariance

Kost's method: t approximation

References

^ Brown, M. (1975). "A method for combining non-independent, one-sided tests of significance". Biometrics. 31: 987–992.
^ Kost, J.; McDermott, M. (2002). "Combining dependent P-values". Statistics & Probability Letters. 60: 183–190.

[1] Brown, M. (1975). "A method for combining non-independent, one-sided tests of significance". Biometrics. 31: 987–992.

[2] Kost, J.; McDermott, M. (2002). "Combining dependent P-values". Statistics & Probability Letters. 60: 183–190.

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 ====Brown's method: [[normal distribution|Gaussian approximation]] ====
-Fisher's method showed that the log-sum of ''k'' independent p-values follow a ''χ''<sup>2</sup>-distribution'''}} of 2''k'' degrees of freedom:
+Fisher's method showed that the log-sum of ''k'' independent p-values follow a ''χ''<sup>2</sup>-distribution of 2''k'' degrees of freedom:
 : <math>X = -2\sum_{i=1}^k \log_e(p_i) \sim \chi^2(2k) </math>