testcoef.env.apweights: Hypothesis test of the coefficients of the response envelope...
In Renvlp: Computing Envelope Estimators
View source: R/testcoef.env.apweights.R
testcoef.env.apweights R Documentation
Hypothesis test of the coefficients of the response envelope model with nonconstant variance
Description
This function tests the null hypothesis L * beta * R = A versus the alternative hypothesis L * beta * R ~= A, where beta is estimated under the response envelope model with nonconstant error variance.
Usage
testcoef.env.apweights(m, L, R, A)
Arguments
m
A list containing estimators and other statistics inherited from env.apweights.
L
The matrix multiplied to beta on the left. It is a d1 by r matrix, while d1 is less than or equal to r.
R
The matrix multiplied to beta on the right. It is a p by d2 matrix, while d2 is less than or equal to p.
A
The matrix on the right hand side of the equation. It is a d1 by d2 matrix.
Note that inputs L, R and A must be matrices, if not, use as.matrix to convert them.
Details
This function tests for hypothesis H0: L beta R = A, versus Ha: L beta R != A. The beta is estimated by the envelope model with nonconstant errors. If L = Ir, R = Ip and A = 0, then the test is equivalent to the standard F test on if beta = 0. The test statistic used is vec(L beta R - A) hatSigma^-1 vec(L beta R - A)^T, where beta is the envelope estimator and hatSigma is the estimated asymptotic covariance of vec(L beta R - A). The reference distribution is chi-squared distribution with degrees of freedom d1 * d2.
Value
The output is a list that contains following components.
chisqStatistic
The test statistic.
dof
The degrees of freedom of the reference chi-squared distribution.
pValue
p-value of the test.
covMatrix
The covariance matrix of vec(L beta R).
Examples
data(concrete)
X <- concrete[, 1:7]
Y <- concrete[, 8:10]
m <- env.apweights(X, Y, 2)
m
L <- diag(3)
R <- matrix(1, 7, 1)
A <- matrix(0, 3, 1)
test.res <- testcoef.env.apweights(m, L, R, A)
test.res
Renvlp documentation built on Oct. 11, 2023, 1:06 a.m.
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View source: R/testcoef.env.apweights.R
| testcoef.env.apweights | R Documentation |
Hypothesis test of the coefficients of the response envelope model with nonconstant variance
Description
This function tests the null hypothesis L * beta * R = A versus the alternative hypothesis L * beta * R ~= A, where beta is estimated under the response envelope model with nonconstant error variance.
Usage
testcoef.env.apweights(m, L, R, A)
Arguments
m |
A list containing estimators and other statistics inherited from env.apweights. |
L |
The matrix multiplied to beta on the left. It is a d1 by r matrix, while d1 is less than or equal to r. |
R |
The matrix multiplied to beta on the right. It is a p by d2 matrix, while d2 is less than or equal to p. |
A |
The matrix on the right hand side of the equation. It is a d1 by d2 matrix. |
Note that inputs L, R and A must be matrices, if not, use as.matrix to convert them.
Details
This function tests for hypothesis H0: L beta R = A, versus Ha: L beta R != A. The beta is estimated by the envelope model with nonconstant errors. If L = Ir, R = Ip and A = 0, then the test is equivalent to the standard F test on if beta = 0. The test statistic used is vec(L beta R - A) hatSigma^-1 vec(L beta R - A)^T, where beta is the envelope estimator and hatSigma is the estimated asymptotic covariance of vec(L beta R - A). The reference distribution is chi-squared distribution with degrees of freedom d1 * d2.
Value
The output is a list that contains following components.
chisqStatistic |
The test statistic. |
dof |
The degrees of freedom of the reference chi-squared distribution. |
pValue |
p-value of the test. |
covMatrix |
The covariance matrix of vec(L beta R). |
Examples
data(concrete)
X <- concrete[, 1:7]
Y <- concrete[, 8:10]
m <- env.apweights(X, Y, 2)
m
L <- diag(3)
R <- matrix(1, 7, 1)
A <- matrix(0, 3, 1)
test.res <- testcoef.env.apweights(m, L, R, A)
test.res
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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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