dot-wassersteinTestAsy: .wassersteinTestAsy
In waddR: Statistical tests for detecting differential distributions based on the 2-Wasserstein distance
Description
Usage
Arguments
Details
Value
References
Description
Two-sample test to check for differences between two distributions
(conditions) using the 2-Wasserstein distance: Implementation using a test
based on asymptotic theory
Usage
1
.wassersteinTestAsy(x, y)
Arguments
x
univariate sample (vector) representing the distribution of
condition A
y
univariate sample (vector) representing the distribution of
condition B
Details
This is the asymptotic version of wasserstein.test, for the
semi-parametric procedure see .wassersteinTestSp
Details concerning the testing procedure based on asymptotic theory
can be found in Schefzik and Goncalves (2019).
Value
A vector concerning the testing results, precisely (see Schefzik and
Goncalves (2019) for details)
d.wass: 2-Wasserstein distance between the two samples computed
by quantile approximation
d.wass^2 squared 2-Wasserstein distance between the two samples
computed by quantile approximation
d.comp^2: squared 2-Wasserstein distance between the two samples
computed by decomposition approximation
d.comp: 2-Wasserstein distance between the two samples computed by
decomposition approximation
location: location term in the decomposition of the squared
2-Wasserstein distance between the two samples
size: size term in the decomposition of the squared 2-Wasserstein
distance between the two samples
shape: shape term in the decomposition of the squared 2-Wasserstein
distance between the two samples
rho: correlation coefficient in the quantile-quantile plot
pval: p-value of the 2-Wasserstein distance-based test using
asymptotic theory
perc.loc: fraction (in
overall squared 2-Wasserstein distance obtained by the decomposition
approximation
perc.size: fraction (in
overall squared 2-Wasserstein distance obtained by the decomposition
approximation
perc.shape: fraction (in
overall squared 2-Wasserstein distance obtained by the decomposition
approximation
decomp.error: relative error between the squared 2-Wasserstein
distance computed by the quantile approximation and the squared
2-Wasserstein distance computed by the decomposition approximation
References
Schefzik, R. and Goncalves, A. (2019).
waddR documentation built on Nov. 8, 2020, 8:32 p.m.
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Description Usage Arguments Details Value References
Description
Two-sample test to check for differences between two distributions (conditions) using the 2-Wasserstein distance: Implementation using a test based on asymptotic theory
Usage
1 | .wassersteinTestAsy(x, y)
|
Arguments
x |
univariate sample (vector) representing the distribution of condition A |
y |
univariate sample (vector) representing the distribution of condition B |
Details
This is the asymptotic version of wasserstein.test, for the semi-parametric procedure see .wassersteinTestSp
Details concerning the testing procedure based on asymptotic theory can be found in Schefzik and Goncalves (2019).
Value
A vector concerning the testing results, precisely (see Schefzik and Goncalves (2019) for details)
d.wass: 2-Wasserstein distance between the two samples computed by quantile approximation
d.wass^2 squared 2-Wasserstein distance between the two samples computed by quantile approximation
d.comp^2: squared 2-Wasserstein distance between the two samples computed by decomposition approximation
d.comp: 2-Wasserstein distance between the two samples computed by decomposition approximation
location: location term in the decomposition of the squared 2-Wasserstein distance between the two samples
size: size term in the decomposition of the squared 2-Wasserstein distance between the two samples
shape: shape term in the decomposition of the squared 2-Wasserstein distance between the two samples
rho: correlation coefficient in the quantile-quantile plot
pval: p-value of the 2-Wasserstein distance-based test using asymptotic theory
perc.loc: fraction (in overall squared 2-Wasserstein distance obtained by the decomposition approximation
perc.size: fraction (in overall squared 2-Wasserstein distance obtained by the decomposition approximation
perc.shape: fraction (in overall squared 2-Wasserstein distance obtained by the decomposition approximation
decomp.error: relative error between the squared 2-Wasserstein distance computed by the quantile approximation and the squared 2-Wasserstein distance computed by the decomposition approximation
References
Schefzik, R. and Goncalves, A. (2019).
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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