Title of article
Hardy-Weinberg Equilibrium Diagnostics
Author/Authors
André Rogatko، نويسنده , , Michael J. Slifker، نويسنده , , James S. Babb، نويسنده ,
Issue Information
دوماهنامه با شماره پیاپی سال 2002
Pages
7
From page
251
To page
257
Abstract
We propose two diagnostics for the statistical assessment of Hardy–Weinberg equilibrium. One diagnostic is the posterior probability of the complement of the smallest highest posterior density credible region that includes points in the parameter space consistent with the hypothesis of equilibrium. The null hypothesis of equilibrium is to be rejected if this probability is less than a pre-selected critical level. The second diagnostic is the proportion of the parameter space occupied by the highest posterior density credible region associated with the critical level. These Bayesian diagnostics can be interpreted as analogues of the classical types I and II error probabilities. They are broadly applicable: they can be computed for any hypothesis test, using samples of any size generated according to any distribution. We propose two diagnostics for the statistical assessment of Hardy–Weinberg equilibrium. One diagnostic is the posterior probability of the complement of the smallest highest posterior density credible region that includes points in the parameter space consistent with the hypothesis of equilibrium. The null hypothesis of equilibrium is to be rejected if this probability is less than a pre-selected critical level. The second diagnostic is the proportion of the parameter space occupied by the highest posterior density credible region associated with the critical level. These Bayesian diagnostics can be interpreted as analogues of the classical types I and II error probabilities. They are broadly applicable: they can be computed for any hypothesis test, using samples of any size generated according to any distribution.
Keywords
Bayesian credible regions , hypothesis testing , invariance
Journal title
Theoretical Population Biology
Serial Year
2002
Journal title
Theoretical Population Biology
Record number
773687
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