mxDataWLS: Create legacy MxData Object for Least Squares (WLS, DWLS, ULS) Analyses

Description

This function creates a new MxData object of type “ULS” (unweighted least squares), “WLS” (weighted least squares) or “DWLS” (diagonally-weighted least squares). The appropriate fit function to include with these models is mxFitFunctionWLS

note: This function continues to work, but is deprecated. Use mxData and mxFitFunctionWLS instead.

Usage

mxDataWLS(data, type = "WLS", useMinusTwo = TRUE, returnInverted = TRUE, 
    fullWeight = TRUE, suppressWarnings = TRUE, allContinuousMethod =
   c("cumulants", "marginals"), silent=!interactive())

Arguments

data

A matrix or data.frame which provides raw data to be used for WLS.

type

A character string 'WLS' (default), 'DWLS', or 'ULS' for weighted, diagonally weighted, or unweighted least squares, respectively

useMinusTwo

Logical indicating whether to use -2LL (default) or -LL.

returnInverted

Logical indicating whether to return the information matrix (default) or the covariance matrix.

fullWeight

Logical determining if the full weight matrix is returned (default). Needed for standard error and quasi-chi-squared calculation.

suppressWarnings

Logical that determines whether to suppress diagnostic warnings. These warnings are likely only helpful to developers.

allContinuousMethod

A character string 'cumulants' (default) or 'marginals'. See mxFitFunctionWLS.

silent

Whether to report progress

Value

Returns a new MxData object.

Details

The mxDataWLS function creates an MxData object, which can be used in MxModel objects. This function takes raw data and returns an MxData object to be used in a model to fit with weighted least squares.

note: This function continues to work, but is deprecated. Use mxData and mxFitFunctionWLS instead.

References

The OpenMx User's guide can be found at http://openmx.ssri.psu.edu/documentation.

Browne, M. W. (1984). Asymptotically Distribution-Free Methods for the Analysis of Covariance Structures. British Journal of Mathematical and Statistical Psychology, 37, 62-83.

Examples

Run this code

# NOT RUN {
# Create and fit a model using mxMatrix, mxAlgebra, mxExpectationNormal, and mxFitFunctionWLS

library(OpenMx)

# Simulate some data

x=rnorm(1000, mean=0, sd=1)
y= 0.5*x + rnorm(1000, mean=0, sd=1)
tmpFrame <- data.frame(x, y)
tmpNames <- names(tmpFrame)
wdata <- mxDataWLS(tmpFrame)

# Define the matrices


S <- mxMatrix(type = "Full", nrow = 2, ncol = 2, values=c(1,0,0,1), 
              free=c(TRUE,FALSE,FALSE,TRUE), labels=c("Vx", NA, NA, "Vy"), name = "S")
A <- mxMatrix(type = "Full", nrow = 2, ncol = 2, values=c(0,1,0,0), 
              free=c(FALSE,TRUE,FALSE,FALSE), labels=c(NA, "b", NA, NA), name = "A")
I <- mxMatrix(type="Iden", nrow=2, ncol=2, name="I")

# Define the expectation

expCov <- mxAlgebra(solve(I-A) %*% S %*% t(solve(I-A)), name="expCov")
expFunction <- mxExpectationNormal(covariance="expCov", dimnames=tmpNames)

# Choose a fit function

fitFunction <- mxFitFunctionWLS()

# Define the model

tmpModel <- mxModel(model="exampleModel", S, A, I, expCov, expFunction, fitFunction, 
                    wdata)

# Fit the model and print a summary

tmpModelOut <- mxRun(tmpModel)
summary(tmpModelOut)
# }

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