estfun: Extracts the empirical moment function
In gmm: Generalized Method of Moments and Generalized Empirical Likelihood
estfun R Documentation
Extracts the empirical moment function
Description
It extracts the matrix of empirical moments so that it can be used by the kernHAC function.
Usage
## S3 method for class 'gmmFct'
estfun(x, y = NULL, theta = NULL, ...)
## S3 method for class 'gmm'
estfun(x, ...)
## S3 method for class 'gel'
estfun(x, ...)
## S3 method for class 'tsls'
estfun(x, ...)
## S3 method for class 'tsls'
model.matrix(object, ...)
Arguments
x
A function of the form g(\theta,y) or a n \times q matrix with typical element g_i(\theta,y_t) for i=1,...q and t=1,...,n or an object of class gmm. See gmm for more details. For tsls, it is an object of class tsls.
object
An object of class tsls.
y
The matrix or vector of data from which the function g(\theta,y) is computed if g is a function.
theta
Vector of parameters if g is a function.
...
Other arguments when estfun is applied to another class object
Details
For estfun.gmmFct, it returns a n \times q matrix with typical element g_i(\theta,y_t) for i=1,...q and t=1,...,n. It is only used by gmm to obtain the estimates.
For estfun.gmm, it returns the matrix of first order conditions of \min_\theta \bar{g}'W\bar{g}/2, which is a n \times k matrix with the t^{th} row being g(\theta, y_t)W G, where G is d\bar{g}/d\theta. It allows to compute the sandwich covariance matrix using kernHAC or vcovHAC when W is not the optimal matrix.
The method if not yet available for gel objects.
For tsls, model.matrix and estfun are used by vcov() to compute different covariance matrices using the sandwich package. See vcov.tsls. model.matrix returns the fitted values frin the first stage regression and esfun the residuals.
Value
A n \times q matrix (see details).
References
Zeileis A (2006), Object-oriented Computation of Sandwich Estimators.
Journal of Statistical Software, 16(9), 1–16.
URL \Sexpr[results=rd]{tools:::Rd_expr_doi("10.18637/jss.v016.i09")}.
Examples
n = 500
phi<-c(.2,.7)
thet <- 0
sd <- .2
x <- matrix(arima.sim(n=n,list(order=c(2,0,1),ar=phi,ma=thet,sd=sd)),ncol=1)
y <- x[7:n]
ym1 <- x[6:(n-1)]
ym2 <- x[5:(n-2)]
H <- cbind(x[4:(n-3)], x[3:(n-4)], x[2:(n-5)], x[1:(n-6)])
g <- y ~ ym1 + ym2
x <- H
res <- gmm(g, x,weightsMatrix = diag(5))
gt <- res$gt
G <- res$G
foc <- gt
foc2 <- estfun(res)
foc[1:5,]
foc2[1:5,]
gmm documentation built on June 7, 2023, 6:05 p.m.
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| estfun | R Documentation |
Extracts the empirical moment function
Description
It extracts the matrix of empirical moments so that it can be used by the kernHAC function.
Usage
## S3 method for class 'gmmFct'
estfun(x, y = NULL, theta = NULL, ...)
## S3 method for class 'gmm'
estfun(x, ...)
## S3 method for class 'gel'
estfun(x, ...)
## S3 method for class 'tsls'
estfun(x, ...)
## S3 method for class 'tsls'
model.matrix(object, ...)
Arguments
x |
A function of the form |
object |
An object of class |
y |
The matrix or vector of data from which the function |
theta |
Vector of parameters if |
... |
Other arguments when |
Details
For estfun.gmmFct, it returns a n \times q matrix with typical element g_i(\theta,y_t) for i=1,...q and t=1,...,n. It is only used by gmm to obtain the estimates.
For estfun.gmm, it returns the matrix of first order conditions of \min_\theta \bar{g}'W\bar{g}/2, which is a n \times k matrix with the t^{th} row being g(\theta, y_t)W G, where G is d\bar{g}/d\theta. It allows to compute the sandwich covariance matrix using kernHAC or vcovHAC when W is not the optimal matrix.
The method if not yet available for gel objects.
For tsls, model.matrix and estfun are used by vcov() to compute different covariance matrices using the sandwich package. See vcov.tsls. model.matrix returns the fitted values frin the first stage regression and esfun the residuals.
Value
A n \times q matrix (see details).
References
Zeileis A (2006), Object-oriented Computation of Sandwich Estimators. Journal of Statistical Software, 16(9), 1–16. URL \Sexpr[results=rd]{tools:::Rd_expr_doi("10.18637/jss.v016.i09")}.
Examples
n = 500
phi<-c(.2,.7)
thet <- 0
sd <- .2
x <- matrix(arima.sim(n=n,list(order=c(2,0,1),ar=phi,ma=thet,sd=sd)),ncol=1)
y <- x[7:n]
ym1 <- x[6:(n-1)]
ym2 <- x[5:(n-2)]
H <- cbind(x[4:(n-3)], x[3:(n-4)], x[2:(n-5)], x[1:(n-6)])
g <- y ~ ym1 + ym2
x <- H
res <- gmm(g, x,weightsMatrix = diag(5))
gt <- res$gt
G <- res$G
foc <- gt
foc2 <- estfun(res)
foc[1:5,]
foc2[1:5,]
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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