Description Objects from the Class Slots Methods Author(s) References See Also Examples
An object of class MTP is the output of a particular multiple testing procedure, for example, generated by the MTP function. It has slots for the various data used to make multiple testing decisions, such as adjusted p-values and confidence regions.
Objects can be created by calls of the form
new('MTP',
statistic = ...., object of class numeric
estimate = ...., object of class numeric
sampsize = ...., object of class numeric
rawp = ...., object of class numeric
adjp = ...., object of class numeric
conf.reg = ...., object of class array
cutoff = ...., object of class matrix
reject = ...., object of class matrix
rawdist = ...., object of class matrix
nulldist = ...., object of class matrix
nulldist.type = ...., object of class character
marg.null = ...., object of class character
marg.par = ...., object of class matrix
label = ...., object of class numeric
index = ...., object of class matrix
call = ...., object of class call
seed = ...., object of class integer
)
statistic
Object of class numeric
, observed test statistics for each hypothesis, specified by the values of the MTP
arguments test
, robust
, standardize
, and psi0
.
estimate
For the test of single-parameter null hypotheses using t-statistics (i.e., not the F-tests), the numeric vector of estimated parameters corresponding to each hypothesis, e.g. means, differences in means, regression parameters.
sampsize
Object of class numeric
, number of columns (i.e. observations) in the input data set.
rawp
Object of class numeric
, unadjusted, marginal p-values for each hypothesis.
adjp
Object of class numeric
, adjusted (for multiple testing) p-values for each hypothesis (computed only if the get.adjp
argument is TRUE).
conf.reg
For the test of single-parameter null hypotheses using t-statistics (i.e., not the F-tests), the numeric array of lower and upper simultaneous confidence limits for the parameter vector, for each value of the nominal Type I error rate alpha
(computed only if the get.cr
argument is TRUE).
cutoff
The numeric matrix of cut-offs for the vector of test statistics for each value of the nominal Type I error rate alpha
(computed only if the get.cutoff
argument is TRUE).
reject
Object of class 'matrix'
, rejection indicators (TRUE for a rejected null hypothesis), for each value of the nominal Type I error rate alpha
.
rawdist
The numeric matrix for the estimated nonparametric non-null test statistics distribution (returned only if keep.rawdist=TRUE
and if nulldist
is one of 'boot.ctr', 'boot.cs', or 'boot.qt'). This slot must not be empty if one wishes to call update
to change choice of bootstrap-based null distribution.
nulldist
The numeric matrix for the estimated test statistics null distribution (returned only if keep.nulldist=TRUE
); option not currently available for permutation null distribution, i.e., nulldist='perm'
). By default (i.e., for nulldist='boot.cs'
), the entries of nulldist
are the null value shifted and scaled bootstrap test statistics, with one null test statistic value for each hypothesis (rows) and bootstrap iteration (columns).
nulldist.type
Character value describing which choice of null distribution was used to generate the MTP results. Takes on one of the values of the original nulldist
argument in the call to MTP, i.e., 'boot.cs', 'boot.ctr', 'boot.qt', 'ic', or 'perm'.
marg.null
If nulldist='boot.qt'
, a character value returning which choice of marginal null distribution was used by the MTP. Can be used to check default values or to ensure manual settings were correctly applied.
marg.par
If nulldist='boot.qt'
, a numeric matrix returning the parameters of the marginal null distribution(s) used by the MTP. Can be used to check default values or to ensure manual settings were correctly applied.
label
If keep.label=TRUE
, a vector storing the values used in the argument Y
. Storing this object is particularly important when one wishes to update MTP objects with F-statistics using default marg.null
and marg.par
settings when nulldist='boot.qt'
.
index
For tests of correlation parameters a matrix corresponding to t(combn(p,2))
, where p
is the number of variables in X
. This matrix gives the indices of the variables considered in each pairwise correlation. For all other tests, this slot is empty, as the indices are in the same order as the rows of X
.
call
Object of class call
, the call to the MTP function.
seed
An integer or vector for specifying the state of the random number generator used to create the resampled datasets. The seed can be reused for reproducibility in a repeat call to MTP
. This argument is currently used only for the bootstrap null distribution (i.e., for nulldist="boot.xx"
). See ?set.seed
for details.
signature(x = "MTP")
: Subsetting method for MTP
class, which operates selectively on each slot of an MTP
instance to retain only the data related to the specified hypotheses.
: Converts an object of class MTP
to an object of class list
, with an entry for each slot.
: plot methods for MTP
class, produces the following graphical summaries of the results of a MTP. The type of display may be specified via the which
argument.
1. Scatterplot of number of rejected hypotheses vs. nominal Type I error rate.
2. Plot of ordered adjusted p-values; can be viewed as a plot of Type I error rate vs. number of rejected hypotheses.
3. Scatterplot of adjusted p-values vs. test statistics (also known as "volcano plot").
4. Plot of unordered adjusted p-values.
5. Plot of confidence regions for user-specified parameters, by default the 10 parameters corresponding to the smallest adjusted p-values (argument top
).
6. Plot of test statistics and corresponding cut-offs (for each value of alpha
) for user-specified hypotheses, by default the 10 hypotheses corresponding to the smallest adjusted p-values (argument top
).
The argument logscale
(by default equal to FALSE) allows one to use the negative decimal logarithms of the adjusted p-values in the second, third, and fourth graphical displays. The arguments caption
and sub.caption
allow one to change the titles and subtitles for each of the plots (default subtitle is the MTP function call). Note that some of these plots are implemented in the older function mt.plot
.
: print method for MTP
class, returns a description of an object of class MTP
, including sample size, number of tested hypotheses, type of test performed (value of argument test
), Type I error rate (value of argument typeone
), nominal level of the test (value of argument alpha
), name of the MTP (value of argument method
), call to the function MTP
.
In addition, this method produces a table with the class, mode, length, and dimension of each slot of the MTP
instance.
: summary method for MTP
class, provides numerical summaries of the results of a MTP and returns a list with the following three components.
1. rejections: A data.frame with the number(s) of rejected hypotheses for the nominal Type I error rate(s) specified by the alpha
argument of the function MTP
. (NULL values are returned if all three arguments get.cr
, get.cutoff
, and get.adjp
are FALSE).
2. index: A numeric vector of indices for ordering the hypotheses according to first adjp
, then rawp
, and finally the absolute value of statistic
(not printed in the summary).
3. summaries: When applicable (i.e., when the corresponding quantities are returned by MTP
), a table with six number summaries of the distributions of the adjusted p-values, unadjusted p-values, test statistics, and parameter estimates.
: update method for MTP
class, provides a mechanism to re-run the MTP with different choices of the following arguments - nulldist, alternative, typeone, k, q, fdr.method, alpha, smooth.null, method, get.cr, get.cutoff, get.adjp, keep.nulldist, keep.rawdist, keep.margpar. When evaluate is 'TRUE', a new object of class MTP is returned. Else, the updated call is returned. The MTP
object passed to the update method must have either a non-empty rawdist
slot or a non-empty nulldist
slot (i.e., must have been called with either 'keep.rawdist=TRUE' or 'keep.nulldist=TRUE').
To save on memory, if one knows ahead of time that one will want to compare different choices of bootstrap-based null distribution, then it is both necessary and sufficient to specify 'keep.rawdist=TRUE', as there is no other means of moving between null distributions other than through the non-transformed non-parametric bootstrap distribution. In this case, 'keep.nulldist=FALSE' may be used. Specifically, if an object of class MTP
contains a non-empty rawdist
slot and an empty nulldist
slot, then a new null distribution will be generated according to the values of the nulldist=
argument in the original call to MTP
or any additional specifications in the call to update
. On the other hand, if one knows that one wishes to only update an MTP
object in ways which do not involve choice of null distribution, then 'keep.nulldist=TRUE' will suffice and 'keep.rawdist' can be set to FALSE
(default settings). The original null distribution object will then be used for all subsequent calls to update
.
N.B.: Note that keep.rawdist=TRUE
is only available for the bootstrap-based resampling methods. The non-null distribution does not exist for the permutation or influence curve multivariate normal null distributions.
: coersion method for converting objects of class MTP
to objects of class EBMTP
. Slots common to both objects are taken from the object of class MTP
and used to create a new object of class EBMTP
. Once an object of class EBMTP
is created, one may use the method EBupdate
to perform resampling-based empirical Bayes multiple testing without the need for repeated resampling.
Katherine S. Pollard and Houston N. Gilbert with design contributions from Sandrine Dudoit and Mark J. van der Laan.
M.J. van der Laan, S. Dudoit, K.S. Pollard (2004), Augmentation Procedures for Control of the Generalized Family-Wise Error Rate and Tail Probabilities for the Proportion of False Positives, Statistical Applications in Genetics and Molecular Biology, 3(1). http://www.bepress.com/sagmb/vol3/iss1/art15/
M.J. van der Laan, S. Dudoit, K.S. Pollard (2004), Multiple Testing. Part II. Step-Down Procedures for Control of the Family-Wise Error Rate, Statistical Applications in Genetics and Molecular Biology, 3(1). http://www.bepress.com/sagmb/vol3/iss1/art14/
S. Dudoit, M.J. van der Laan, K.S. Pollard (2004), Multiple Testing. Part I. Single-Step Procedures for Control of General Type I Error Rates, Statistical Applications in Genetics and Molecular Biology, 3(1). http://www.bepress.com/sagmb/vol3/iss1/art13/
Katherine S. Pollard and Mark J. van der Laan, "Resampling-based Multiple Testing: Asymptotic Control of Type I Error and Applications to Gene Expression Data" (June 24, 2003). U.C. Berkeley Division of Biostatistics Working Paper Series. Working Paper 121. http://www.bepress.com/ucbbiostat/paper121
M.J. van der Laan and A.E. Hubbard (2006), Quantile-function Based Null Distributions in Resampling Based Multiple Testing, Statistical Applications in Genetics and Molecular Biology, 5(1). http://www.bepress.com/sagmb/vol5/iss1/art14/
S. Dudoit and M.J. van der Laan. Multiple Testing Procedures and Applications to Genomics. Springer Series in Statistics. Springer, New York, 2008.
MTP
, MTP-methods
,
EBMTP
, EBMTP-methods
,
[-methods
, as.list-methods
, print-methods
, plot-methods
, summary-methods
, mtp2ebmtp
,
ebmtp2mtp
1 | ## See MTP function: ? MTP
|
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