Post-hoc analysis - Citizendia

Post-hoc analysis design and analysis of experiments, refers to looking at the data—after the experiment has concluded—for patterns that were not specified a priori. Design of experiments, or experimental design, is the design of all information-gathering exercises where variation is present whether under the full control of the experimenter It is also known as data dredging to evoke the sense that the more one looks the more likely something will be found. Data dredging ( data fishing, data snooping) is the inappropriate (sometimes deliberately so search for 'statistically significant' relationships in large quantities More subtly, each time a pattern in the data is considered, a statistical test is effectively performed. A statistical hypothesis test is a method of making statistical decisions using experimental data This greatly inflates the total number of statistical tests and necessitates the use of multiple testing procedures to compensate. In Statistics, the multiple comparisons problem occurs when one considers a set or family of statistical inferences simultaneously However, this is difficult to do precisely and in fact most results of post-hoc analyses are reported as they are with unadjusted p-values. In statistical Hypothesis testing the p-value is the Probability of obtaining a result at least as extreme as the one that was actually observed given These p-values must be interpreted in light of the fact that they are a small and selected subset of a potentially large group of p-values. Results of post-hoc analysis should be explicitly labeled as such in reports and publications to avoid misleading readers.

In practice, post-hoc analysis is usually concerned with finding patterns in subgroups of the sample. Subgroup analysis, in the context of design and analysis of experiments refers to looking for pattern in a subset of the subjects

In Latin post-hoc means "after this". Latin ( lingua Latīna, laˈtiːna is an Italic language, historically spoken in Latium and Ancient Rome.

Student Newman-Keuls Post-Hoc ANOVA Analysis

An example of a Post-hoc analysis would be a Student Newman-Keuls Test: "A different approach to evaluating a posteriori pairwise comparisons stems from the work of Student (1927), Newman (1939), and Keuls (1952). In Statistics, the multiple comparisons problem occurs when one considers a set or family of statistical inferences simultaneously In Statistics, ANOVA is short for analysis of variance Analysis of variance is a collection of Statistical models and their associated procedures in which the observed Analysis (from Greek ἀνάλυσις, "a breaking up" is the process of breaking a complex topic or substance into smaller parts to gain a The Newman-Keuls procedure is based on a stepwise or layer approach to significance testing. Sample means are ordered from the smallest to the largest. The largest difference, which involves means that are r = p steps apart, is tested first at α level of significance; if significant, means that are $r = p - 1$ steps apart are tested at α level of significance and so on. The Newman-Keuls procedure provides an r-mean significance level equal to α for each group of r ordered means; that is, the probability of falsely rejecting the hypothesis that all means in an ordered group are equal to α. It follows that the concept of error rate applies neither on an experimentwise nor on a per comparison basis--the actual error rate falls somewhere between the two. The Newman-Keuls procedure, like Tukey's procedure, requires equal sample n's.

The critical difference y-hat(Wr), that two means separated by r steps must exceed to be declared significant is, according to the Newman-Keuls procedure,

$\psi - \widehat{W_{r}} = q_{\alpha;p,v} \sqrt{\frac{MSE}{n}} \,$

It should be noted that the Newman-Keuls and Tukey procedures require the same critical difference for the first comparison that is tested. The Tukey procedure uses this critical difference for all of the remaining tests while the Newman-Keuls procedure reduces the size of the critical difference, depending on the number of steps separating the ordered means. As a result, Newman-Keuls test is more powerful than Tukey's test. Remember, however, that Newman-Keuls procedure does not control the experimentwise error rate at α.

Frequently a test of the overall null hypothesis m1 =m2 …= mp is performed with an F statistic in ANOVA rather than with a range statistic. If the F statistic is significant, Shaffer (1979) recommends using the critical difference $y - h a t (W r - 1)$ instead of y-hat(Wr) to evaluate the largest pairwise comparison at the first step of the testing procedure. The testing procedure for all subsequent steps is unchanged. She has shown that the modified procedure leads to greater power at the first step without affecting control of the type I error rate. This makes dissonances, in which the overall null hypothesis is rejected by an F test without rejecting any one of the proper subsets of comparison, less likely. " [1]

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A statistical hypothesis test is a method of making statistical decisions using experimental data Subgroup analysis, in the context of design and analysis of experiments refers to looking for pattern in a subset of the subjects Post hoc ergo propter hoc, Latin for "after this therefore because (on account of this" is a logical fallacy (of the Questionable cause variety

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Student Newman-Keuls Post-Hoc ANOVA Analysis

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