manyOneUTest: Multiple Comparisons with One Control (U-test)
In PMCMRplus: Calculate Pairwise Multiple Comparisons of Mean Rank Sums Extended
manyOneUTest R Documentation
Multiple Comparisons with One Control (U-test)
Description
Performs pairwise comparisons of multiple group levels with
one control.
Usage
manyOneUTest(x, ...)
## Default S3 method:
manyOneUTest(
x,
g,
alternative = c("two.sided", "greater", "less"),
p.adjust.method = c("single-step", p.adjust.methods),
...
)
## S3 method for class 'formula'
manyOneUTest(
formula,
data,
subset,
na.action,
alternative = c("two.sided", "greater", "less"),
p.adjust.method = c("single-step", p.adjust.methods),
...
)
Arguments
x
a numeric vector of data values, or a list of numeric data
vectors.
...
further arguments to be passed to or from methods.
g
a vector or factor object giving the group for the
corresponding elements of "x".
Ignored with a warning if "x" is a list.
alternative
the alternative hypothesis. Defaults to two.sided.
p.adjust.method
method for adjusting p values
(see p.adjust)
formula
a formula of the form response ~ group where
response gives the data values and group a vector or
factor of the corresponding groups.
data
an optional matrix or data frame (or similar: see
model.frame) containing the variables in the
formula formula. By default the variables are taken from
environment(formula).
subset
an optional vector specifying a
subset of observations to be used.
na.action
a function which indicates what should happen when
the data contain NAs. Defaults to getOption("na.action").
Details
This functions performs Wilcoxon, Mann and Whitney's U-test
for a one factorial design where each factor level is tested against
one control (m = k -1 tests). As the data are re-ranked
for each comparison, this test is only suitable for
balanced (or almost balanced) experimental designs.
For the two-tailed test and p.adjust.method = "single-step"
the multivariate normal distribution is used for controlling
Type 1 error and to calculate p-values. Otherwise,
the p-values are calculated from the standard normal distribution
with any latter p-adjustment as available by p.adjust.
Value
A list with class "PMCMR" containing the following components:
- method
a character string indicating what type of test was performed.
- data.name
a character string giving the name(s) of the data.
- statistic
lower-triangle matrix of the estimated
quantiles of the pairwise test statistics.
- p.value
lower-triangle matrix of the p-values for the pairwise tests.
- alternative
a character string describing the alternative hypothesis.
- p.adjust.method
a character string describing the method for p-value
adjustment.
- model
a data frame of the input data.
- dist
a string that denotes the test distribution.
Note
Factor labels for g must be assigned in such a way,
that they can be increasingly ordered from zero-dose
control to the highest dose level, e.g. integers
{0, 1, 2, ..., k} or letters {a, b, c, ...}.
Otherwise the function may not select the correct values
for intended zero-dose control.
It is safer, to i) label the factor levels as given above,
and to ii) sort the data according to increasing dose-levels
prior to call the function (see order, factor).
References
OECD (ed. 2006) Current approaches in the statistical analysis
of ecotoxicity data: A guidance to application, OECD Series
on testing and assessment, No. 54.
See Also
wilcox.test, pmvnorm, Normal
Examples
## Data set PlantGrowth
## Global test
kruskalTest(weight ~ group, data = PlantGrowth)
## Conover's many-one comparison test
## single-step means p-value from multivariate t distribution
ans <- kwManyOneConoverTest(weight ~ group, data = PlantGrowth,
p.adjust.method = "single-step")
summary(ans)
## Conover's many-one comparison test
ans <- kwManyOneConoverTest(weight ~ group, data = PlantGrowth,
p.adjust.method = "holm")
summary(ans)
## Dunn's many-one comparison test
ans <- kwManyOneDunnTest(weight ~ group, data = PlantGrowth,
p.adjust.method = "holm")
summary(ans)
## Nemenyi's many-one comparison test
ans <- kwManyOneNdwTest(weight ~ group, data = PlantGrowth,
p.adjust.method = "holm")
summary(ans)
## Many one U test
ans <- manyOneUTest(weight ~ group, data = PlantGrowth,
p.adjust.method = "holm")
summary(ans)
## Chen Test
ans <- chenTest(weight ~ group, data = PlantGrowth,
p.adjust.method = "holm")
summary(ans)
PMCMRplus documentation built on Nov. 27, 2023, 1:08 a.m.
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| manyOneUTest | R Documentation |
Multiple Comparisons with One Control (U-test)
Description
Performs pairwise comparisons of multiple group levels with one control.
Usage
manyOneUTest(x, ...)
## Default S3 method:
manyOneUTest(
x,
g,
alternative = c("two.sided", "greater", "less"),
p.adjust.method = c("single-step", p.adjust.methods),
...
)
## S3 method for class 'formula'
manyOneUTest(
formula,
data,
subset,
na.action,
alternative = c("two.sided", "greater", "less"),
p.adjust.method = c("single-step", p.adjust.methods),
...
)
Arguments
x |
a numeric vector of data values, or a list of numeric data vectors. |
... |
further arguments to be passed to or from methods. |
g |
a vector or factor object giving the group for the
corresponding elements of |
alternative |
the alternative hypothesis. Defaults to |
p.adjust.method |
method for adjusting p values
(see |
formula |
a formula of the form |
data |
an optional matrix or data frame (or similar: see
|
subset |
an optional vector specifying a subset of observations to be used. |
na.action |
a function which indicates what should happen when
the data contain |
Details
This functions performs Wilcoxon, Mann and Whitney's U-test
for a one factorial design where each factor level is tested against
one control (m = k -1 tests). As the data are re-ranked
for each comparison, this test is only suitable for
balanced (or almost balanced) experimental designs.
For the two-tailed test and p.adjust.method = "single-step"
the multivariate normal distribution is used for controlling
Type 1 error and to calculate p-values. Otherwise,
the p-values are calculated from the standard normal distribution
with any latter p-adjustment as available by p.adjust.
Value
A list with class "PMCMR" containing the following components:
- method
a character string indicating what type of test was performed.
- data.name
a character string giving the name(s) of the data.
- statistic
lower-triangle matrix of the estimated quantiles of the pairwise test statistics.
- p.value
lower-triangle matrix of the p-values for the pairwise tests.
- alternative
a character string describing the alternative hypothesis.
- p.adjust.method
a character string describing the method for p-value adjustment.
- model
a data frame of the input data.
- dist
a string that denotes the test distribution.
Note
Factor labels for g must be assigned in such a way,
that they can be increasingly ordered from zero-dose
control to the highest dose level, e.g. integers
{0, 1, 2, ..., k} or letters {a, b, c, ...}.
Otherwise the function may not select the correct values
for intended zero-dose control.
It is safer, to i) label the factor levels as given above,
and to ii) sort the data according to increasing dose-levels
prior to call the function (see order, factor).
References
OECD (ed. 2006) Current approaches in the statistical analysis of ecotoxicity data: A guidance to application, OECD Series on testing and assessment, No. 54.
See Also
wilcox.test, pmvnorm, Normal
Examples
## Data set PlantGrowth
## Global test
kruskalTest(weight ~ group, data = PlantGrowth)
## Conover's many-one comparison test
## single-step means p-value from multivariate t distribution
ans <- kwManyOneConoverTest(weight ~ group, data = PlantGrowth,
p.adjust.method = "single-step")
summary(ans)
## Conover's many-one comparison test
ans <- kwManyOneConoverTest(weight ~ group, data = PlantGrowth,
p.adjust.method = "holm")
summary(ans)
## Dunn's many-one comparison test
ans <- kwManyOneDunnTest(weight ~ group, data = PlantGrowth,
p.adjust.method = "holm")
summary(ans)
## Nemenyi's many-one comparison test
ans <- kwManyOneNdwTest(weight ~ group, data = PlantGrowth,
p.adjust.method = "holm")
summary(ans)
## Many one U test
ans <- manyOneUTest(weight ~ group, data = PlantGrowth,
p.adjust.method = "holm")
summary(ans)
## Chen Test
ans <- chenTest(weight ~ group, data = PlantGrowth,
p.adjust.method = "holm")
summary(ans)
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