score.jmdem: Asymptotic tests for fits of joint mean and dispersion...
In jmdem: Fitting Joint Mean and Dispersion Effects Models
Description
Usage
Arguments
Details
Value
Note
Author(s)
References
See Also
Examples
Description
Computes a score (Rao) or Wald chi-squared test statistics for comparing two jmdem models.
Usage
1
2
3
score.jmdem(object, ...)
wald.jmdem(object, ...)
Arguments
object
a model or list of two or more models fitted by jmdem to be tested. Pairwise tests will be conducted.
...
a list of two or more fitted models to be tested.
Details
Given a vector of model coefficients of length p, Θ = (θ_1, …, θ_q, θ_{q+1}, …, θ_p)^T, the score and Wald tests are usually used to test the null hypothesis against an alternative
H_0: θ_{q+1} = … = θ_p = 0 vs. H_0 not true
Thus, they are asymptotic tests on the explanatory power of one or more regressors. And the result of the score and Wald tests only makes sense if the models involved are nested, i.e. all coefficients of a "smaller" (null, restricted) model are included in a "bigger" (alternative, unrestricted) model.
The main difference between the score and Wald tests is that the score test only requires the knowledge of the fitted coefficients of the "small" model. The Wald test, on the other hand, only need the estimates of the "bigger" model. Nevertheless, these tests are asymptotically equivalent, i.e. for large samples, the test statistics of these tests on the same set of models should be very close.
The key assumption is that the coefficient estimates asymptotically follow a (multivariate) normal distribution with mean and variance equal to the model parameters and their variance-covariance matrix.
score.jmdem and wald.jmdem extract the fitted coefficients and their variance-covariance matrix from the model objects, and evaluate the test statistics subsequently. So it is not necessary to specify the coefficients and variance-covariance matrix in the function arguments.
score.jmdem and wald.jmdem only return the test statistics. They are asymptotically chi-square distributed with p - q degrees of freedom.
Value
score.jmdem and wald.jmdem return a column matrix containing the test statistics of the pairwise comparisons of all models given by the user in object and ....
Note
The score test is sometimes also called the Rao's score test or Lagrange multiplier (LM) test in different literatures.
Normally, asymptotic tests include likelihood ratio (LR), Rao's score and Wald tests. The likelihood ratio test is omitted here because the comparison of the deviances of two joint mean and dispersion effects models is questionable, if not even invalid. One important argument is that the dependent variables of two different dispersion submodels given two different mean submodels are not the identical.
Author(s)
Karl Wu Ka Yui (karlwuky@suss.edu.sg)
References
Engle, R.F. (1983). Wald, Likelihood Ratio, and Lagrange Multiplier Tests in Econometrics. In Intriligator, M. D.; Griliches, Z. Handbook of Econometrics. II. Elsevier. pp. 796-801.
McCullagh P. and Nelder, J.A. (1989) Generalized Linear Models. London: Chapman and Hall.
Wu, K.Y.K., Li, W.K. (2016). On a dispersion model with Pearson residual responses. Comput. Statist. Data Anal., 103, 17-27.
See Also
Examples
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## Example in jmdem(...)
MyData <- simdata.jmdem.sim(mformula = y ~ x + delta, dformula = ~ z,
mfamily = gaussian(),
dfamily = Gamma(link = "log"),
beta.true = c(0.5, 4, 1),
lambda.true = c(2.5, 3), n = 100)
fit <- jmdem(mformula = y ~ x + delta, dformula = ~ z, data = MyData,
mfamily = gaussian, dfamily = Gamma, dev.type = "pearson",
method = "BFGS", df.adj = TRUE)
fit.1 <- update(fit, mformula = . ~ . - delta)
fit.2 <- update(fit.1, mformula = . ~ . - x)
## conduct a Wald tests
wald.jmdem(fit, fit.1, fit.2)
## should deliver the same results as above
wald.jmdem(object = list(fit, fit.1, fit.2))
## conduct the score test and compute the p-value directly.
raotest <- score.jmdem(fit, fit.2)
pchisq(raotest, df = abs(df.residual(fit) - df.residual(fit.2)),
lower.tail = FALSE)
jmdem documentation built on March 13, 2020, 2:20 a.m.
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Description Usage Arguments Details Value Note Author(s) References See Also Examples
Description
Computes a score (Rao) or Wald chi-squared test statistics for comparing two jmdem models.
Usage
1 2 3 | score.jmdem(object, ...)
wald.jmdem(object, ...)
|
Arguments
object |
a model or |
... |
a |
Details
Given a vector of model coefficients of length p, Θ = (θ_1, …, θ_q, θ_{q+1}, …, θ_p)^T, the score and Wald tests are usually used to test the null hypothesis against an alternative
H_0: θ_{q+1} = … = θ_p = 0 vs. H_0 not true
Thus, they are asymptotic tests on the explanatory power of one or more regressors. And the result of the score and Wald tests only makes sense if the models involved are nested, i.e. all coefficients of a "smaller" (null, restricted) model are included in a "bigger" (alternative, unrestricted) model.
The main difference between the score and Wald tests is that the score test only requires the knowledge of the fitted coefficients of the "small" model. The Wald test, on the other hand, only need the estimates of the "bigger" model. Nevertheless, these tests are asymptotically equivalent, i.e. for large samples, the test statistics of these tests on the same set of models should be very close.
The key assumption is that the coefficient estimates asymptotically follow a (multivariate) normal distribution with mean and variance equal to the model parameters and their variance-covariance matrix.
score.jmdem and wald.jmdem extract the fitted coefficients and their variance-covariance matrix from the model objects, and evaluate the test statistics subsequently. So it is not necessary to specify the coefficients and variance-covariance matrix in the function arguments.
score.jmdem and wald.jmdem only return the test statistics. They are asymptotically chi-square distributed with p - q degrees of freedom.
Value
score.jmdem and wald.jmdem return a column matrix containing the test statistics of the pairwise comparisons of all models given by the user in object and ....
Note
The score test is sometimes also called the Rao's score test or Lagrange multiplier (LM) test in different literatures.
Normally, asymptotic tests include likelihood ratio (LR), Rao's score and Wald tests. The likelihood ratio test is omitted here because the comparison of the deviances of two joint mean and dispersion effects models is questionable, if not even invalid. One important argument is that the dependent variables of two different dispersion submodels given two different mean submodels are not the identical.
Author(s)
Karl Wu Ka Yui (karlwuky@suss.edu.sg)
References
Engle, R.F. (1983). Wald, Likelihood Ratio, and Lagrange Multiplier Tests in Econometrics. In Intriligator, M. D.; Griliches, Z. Handbook of Econometrics. II. Elsevier. pp. 796-801.
McCullagh P. and Nelder, J.A. (1989) Generalized Linear Models. London: Chapman and Hall.
Wu, K.Y.K., Li, W.K. (2016). On a dispersion model with Pearson residual responses. Comput. Statist. Data Anal., 103, 17-27.
See Also
Examples
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 | ## Example in jmdem(...)
MyData <- simdata.jmdem.sim(mformula = y ~ x + delta, dformula = ~ z,
mfamily = gaussian(),
dfamily = Gamma(link = "log"),
beta.true = c(0.5, 4, 1),
lambda.true = c(2.5, 3), n = 100)
fit <- jmdem(mformula = y ~ x + delta, dformula = ~ z, data = MyData,
mfamily = gaussian, dfamily = Gamma, dev.type = "pearson",
method = "BFGS", df.adj = TRUE)
fit.1 <- update(fit, mformula = . ~ . - delta)
fit.2 <- update(fit.1, mformula = . ~ . - x)
## conduct a Wald tests
wald.jmdem(fit, fit.1, fit.2)
## should deliver the same results as above
wald.jmdem(object = list(fit, fit.1, fit.2))
## conduct the score test and compute the p-value directly.
raotest <- score.jmdem(fit, fit.2)
pchisq(raotest, df = abs(df.residual(fit) - df.residual(fit.2)),
lower.tail = FALSE)
|
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