johnsonTest

johnsonTest.default

johnsonTest.formula

Performs the Johnson-Mehrotra test for testing against ordered alternatives
in a balanced one-factorial sampling design.

htest

nonparametric

For one-way layout experiments the one-way ANOVA can
be performed as an omnibus test. All-pairs multiple comparisons
tests (Tukey-Kramer test, Scheffe test, LSD-test)
and many-to-one tests (Dunnett test) for normally distributed
residuals and equal within variance are available. Furthermore,
all-pairs tests (Games-Howell test, Tamhane's T2 test,
Dunnett T3 test, Ury-Wiggins-Hochberg test) and many-to-one
(Tamhane-Dunnett Test) for normally distributed residuals
and heterogeneous variances are provided. Van der Waerden's normal
scores test for omnibus, all-pairs and many-to-one tests is
provided for non-normally distributed residuals and homogeneous
variances. The Kruskal-Wallis, BWS and Anderson-Darling
omnibus test and all-pairs tests
(Nemenyi test, Dunn test, Conover test, Dwass-Steele-Critchlow-
Fligner test) as well as many-to-one (Nemenyi test, Dunn test,
U-test) are given for the analysis of variance by ranks.
Non-parametric trend tests (Jonckheere test, Cuzick test,
Johnson-Mehrotra test, Spearman test) are included.
In addition, a Friedman-test for one-way ANOVA with repeated
measures on ranks (CRBD) and Skillings-Mack test for unbalanced
CRBD is provided with consequent all-pairs tests (Nemenyi test,
Siegel test, Miller test, Conover test, Exact test)
and many-to-one tests (Nemenyi test, Demsar test, Exact test).
A trend can be tested with Pages's test. Durbin's test
for a two-way balanced incomplete block design (BIBD) is given
in this package as well as Gore's test for CRBD with multiple
observations per cell is given.  Outlier tests, Mandel's k- and
h statistic as well as functions for Type I error and Power
analysis as well as generic summary, print and plot methods
are provided.

Thorsten Pohlert

PMCMRplus

Calculate Pairwise Multiple Comparisons of Mean Rank Sums
Extended

johnsonTest function

<dl><dt>x</dt>
<dd>a numeric vector of data values, or a list of numeric data
vectors.</dd>
<dt>...</dt>
<dd>further arguments to be passed to or from methods.</dd>
<dt>g</dt>
<dd>a vector or factor object giving the group for the
corresponding elements of <code>"x"</code>.
Ignored with a warning if <code>"x"</code> is a list.</dd>
<dt>alternative</dt>
<dd>the alternative hypothesis. Defaults to <code>"two.sided"</code>.</dd>
<dt>formula</dt>
<dd>a formula of the form <code>response ~ group</code> where
<code>response</code> gives the data values and <code>group</code> a vector or
factor of the corresponding groups.</dd>
<dt>data</dt>
<dd>an optional matrix or data frame (or similar: see
<code><a href="/link/model.frame?package=PMCMRplus&version=1.9.12" data-mini-rdoc="PMCMRplus::model.frame">model.frame</a></code>) containing the variables in the
formula <code>formula</code>. By default the variables are taken from
<code>environment(formula)</code>.</dd>
<dt>subset</dt>
<dd>an optional vector specifying a
subset of observations to be used.</dd>
<dt>na.action</dt>
<dd>a function which indicates what should happen when
the data contain <code>NA</code>s. Defaults to <code>getOption("na.action")</code>.</dd></dl>

Arguments

Testing against Ordered Alternatives (Johnson-Mehrotra Test) — johnsonTest

<dl>

<dt>x</dt>
<dd>a numeric vector of data values, or a list of numeric data
vectors.</dd>


<dt>...</dt>
<dd>further arguments to be passed to or from methods.</dd>


<dt>g</dt>
<dd>a vector or factor object giving the group for the
corresponding elements of <code>"x"</code>.
Ignored with a warning if <code>"x"</code> is a list.</dd>


<dt>alternative</dt>
<dd>the alternative hypothesis. Defaults to <code>"two.sided"</code>.</dd>


<dt>formula</dt>
<dd>a formula of the form <code>response ~ group</code> where
<code>response</code> gives the data values and <code>group</code> a vector or
factor of the corresponding groups.</dd>


<dt>data</dt>
<dd>an optional matrix or data frame (or similar: see
<code><a href='https://rdrr.io/r/stats/model.frame.html'>model.frame</a></code>) containing the variables in the
formula <code>formula</code>. By default the variables are taken from
<code>environment(formula)</code>.</dd>


<dt>subset</dt>
<dd>an optional vector specifying a
subset of observations to be used.</dd>


<dt>na.action</dt>
<dd>a function which indicates what should happen when
the data contain <code>NA</code>s. Defaults to <code>getOption("na.action")</code>.</dd>

</dl>

johnsonTest: Testing against Ordered Alternatives (Johnson-Mehrotra Test)

Description

Usage

Value

Arguments

Details

References

See Also

Examples