mxExpectationRAM: Create an MxExpectationRAM Object
In OpenMx: Extended Structural Equation Modelling
View source: R/MxExpectationRAM.R
mxExpectationRAM R Documentation
Create an MxExpectationRAM Object
Description
This function creates an MxExpectationRAM object.
Usage
mxExpectationRAM(A="A", S="S", F="F", M = NA, dimnames = NA, thresholds = NA,
threshnames = dimnames, ..., between=NULL, verbose=0L,
.useSparse=NA, expectedCovariance=NULL, expectedMean=NULL,
discrete = as.character(NA), selectionVector = as.character(NA),
expectedFullCovariance=NULL, expectedFullMean=NULL)
Arguments
A
A character string indicating the name of the 'A' matrix.
S
A character string indicating the name of the 'S' matrix.
F
A character string indicating the name of the 'F' matrix.
M
An optional character string indicating the name of the 'M' matrix.
dimnames
An optional character vector to be assigned to the column names of the 'F' and 'M' matrices.
thresholds
An optional character string indicating the name of the thresholds matrix.
threshnames
An optional character vector to be assigned to the column names of the thresholds matrix.
...
Not used. Forces remaining arguments to be specified by name.
between
A character vector of matrices that specify cross model relationships.
verbose
integer. Level of runtime diagnostic output.
.useSparse
logical. Whether to use sparse matrices to compute
the expectation. The default NA allows the backend to decide.
expectedCovariance
An optional character string indicating the
name of a matrix for the observed model implied covariance.
expectedMean
An optional character string indicating the name
of a matrix for the observed model implied mean.
discrete
An optional character string indicating the name of
the discrete matrix.
selectionVector
An optional character string indicating the name of
the Pearson selection vector matrix.
expectedFullCovariance
An optional character string indicating the
name of a matrix for the full model implied covariance. Both latent
and observed variables are included.
expectedFullMean
An optional character string indicating the name
of a matrix for the full model implied mean. Both latent
and observed variables are included.
Details
Expectation functions define the way that model expectations are calculated. The mxExpectationRAM calculates the expected covariance and means of a given MxData object given a RAM model. This model is defined by reticular action modeling (McArdle and McDonald, 1984). The 'A', 'S', and 'F' arguments refer to MxMatrix objects with the associated properties of the A, S, and F matrices in the RAM modeling approach. Note for advanced users: these matrices may be replaced by mxAlgebras. Such a model will lack properties (labels, free, bounds) that other functions may be expecting.
The MxMatrix objects included as arguments may be of any type, but should have the properties described above. The mxExpectationRAM will not return an error for incorrect specification, but incorrect specification will likely lead to estimation problems or errors in the mxRun function.
The 'A' argument refers to the A or asymmetric matrix in the RAM approach. This matrix consists of all of the asymmetric paths (one-headed arrows) in the model. A free parameter in any row and column describes a regression of the variable represented by that row regressed on the variable represented in that column.
The 'S' argument refers to the S or symmetric matrix in the RAM approach, and as such must be square. This matrix consists of all of the symmetric paths (two-headed arrows) in the model. A free parameter in any row and column describes a covariance between the variable represented by that row and the variable represented by that column. Variances are covariances between any variable at itself, which occur on the diagonal of the specified matrix.
The 'F' argument refers to the F or filter matrix in the RAM approach. If no latent variables are included in the model (i.e., the A and S matrices are of both of the same dimension as the data matrix), then the 'F' should refer to an identity matrix. If latent variables are included (i.e., the A and S matrices are not of the same dimension as the data matrix), then the 'F' argument should consist of a horizontal adhesion of an identity matrix and a matrix of zeros.
The 'M' argument refers to the M or means matrix in the RAM approach. It is a 1 x n matrix, where n is the number of manifest variables + the number of latent variables. The M matrix must be specified if either the mxData type is “cov” or “cor” and a means vector is provided, or if the mxData type is “raw”. Otherwise the M matrix is ignored.
The 'dimnames' arguments takes an optional character vector. If this argument is not a single NA, then this vector be assigned to be the column names of the 'F' matrix and optionally to the 'M' matrix, if the 'M' matrix exists.
mxExpectationRAM evaluates with respect to an MxData object. The MxData object need not be referenced in the mxExpectationRAM function, but must be included in the MxModel object.
To evaluate an mxExpectationRAM object, place it, the mxData
object which the expected covariance approximates, any referenced
MxAlgebra and MxMatrix objects, and optional
MxBounds and MxConstraint objects in an MxModel
object and evaluate it using mxRun. The results of the optimization can be found in the 'output' slot of the resulting model, and may be obtained using the mxEval function.
Value
Returns a new MxExpectationRAM object. mxExpectationRAM objects should be included in a model, along with referenced MxAlgebra, MxData and MxMatrix objects.
References
McArdle, J. J. and MacDonald, R. P. (1984). Some algebraic properties of the Reticular Action Model for moment structures. British Journal of Mathematical and Statistical Psychology, 37, 234-251.
The OpenMx User's guide can be found at https://openmx.ssri.psu.edu/documentation/.
Examples
# Create and fit a model using mxMatrix, mxAlgebra,
# mxExpectationNormal, and mxFitFunctionML
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)
# Define the matrices
matrixS <- 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")
matrixA <- 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")
matrixF <- mxMatrix(type="Iden", nrow=2, ncol=2, name="F")
matrixM <- mxMatrix(type = "Full", nrow = 1, ncol = 2, values=c(0,0),
free=c(TRUE,TRUE), labels=c("Mx", "My"), name = "M")
# Define the expectation
expFunction <- mxExpectationRAM(M="M", dimnames = tmpNames)
# Choose a fit function
fitFunction <- mxFitFunctionML()
# Define the model
tmpModel <- mxModel(model="exampleRAMModel",
matrixA, matrixS, matrixF, matrixM,
expFunction, fitFunction,
mxData(observed=tmpFrame, type="raw"))
# Fit the model and print a summary
tmpModelOut <- mxRun(tmpModel)
summary(tmpModelOut)
OpenMx documentation built on Oct. 19, 2024, 9:06 a.m.
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View source: R/MxExpectationRAM.R
| mxExpectationRAM | R Documentation |
Create an MxExpectationRAM Object
Description
This function creates an MxExpectationRAM object.
Usage
mxExpectationRAM(A="A", S="S", F="F", M = NA, dimnames = NA, thresholds = NA,
threshnames = dimnames, ..., between=NULL, verbose=0L,
.useSparse=NA, expectedCovariance=NULL, expectedMean=NULL,
discrete = as.character(NA), selectionVector = as.character(NA),
expectedFullCovariance=NULL, expectedFullMean=NULL)
Arguments
A |
A character string indicating the name of the 'A' matrix. |
S |
A character string indicating the name of the 'S' matrix. |
F |
A character string indicating the name of the 'F' matrix. |
M |
An optional character string indicating the name of the 'M' matrix. |
dimnames |
An optional character vector to be assigned to the column names of the 'F' and 'M' matrices. |
thresholds |
An optional character string indicating the name of the thresholds matrix. |
threshnames |
An optional character vector to be assigned to the column names of the thresholds matrix. |
... |
Not used. Forces remaining arguments to be specified by name. |
between |
A character vector of matrices that specify cross model relationships. |
verbose |
integer. Level of runtime diagnostic output. |
.useSparse |
logical. Whether to use sparse matrices to compute
the expectation. The default |
expectedCovariance |
An optional character string indicating the name of a matrix for the observed model implied covariance. |
expectedMean |
An optional character string indicating the name of a matrix for the observed model implied mean. |
discrete |
An optional character string indicating the name of the discrete matrix. |
selectionVector |
An optional character string indicating the name of the Pearson selection vector matrix. |
expectedFullCovariance |
An optional character string indicating the name of a matrix for the full model implied covariance. Both latent and observed variables are included. |
expectedFullMean |
An optional character string indicating the name of a matrix for the full model implied mean. Both latent and observed variables are included. |
Details
Expectation functions define the way that model expectations are calculated. The mxExpectationRAM calculates the expected covariance and means of a given MxData object given a RAM model. This model is defined by reticular action modeling (McArdle and McDonald, 1984). The 'A', 'S', and 'F' arguments refer to MxMatrix objects with the associated properties of the A, S, and F matrices in the RAM modeling approach. Note for advanced users: these matrices may be replaced by mxAlgebras. Such a model will lack properties (labels, free, bounds) that other functions may be expecting.
The MxMatrix objects included as arguments may be of any type, but should have the properties described above. The mxExpectationRAM will not return an error for incorrect specification, but incorrect specification will likely lead to estimation problems or errors in the mxRun function.
The 'A' argument refers to the A or asymmetric matrix in the RAM approach. This matrix consists of all of the asymmetric paths (one-headed arrows) in the model. A free parameter in any row and column describes a regression of the variable represented by that row regressed on the variable represented in that column.
The 'S' argument refers to the S or symmetric matrix in the RAM approach, and as such must be square. This matrix consists of all of the symmetric paths (two-headed arrows) in the model. A free parameter in any row and column describes a covariance between the variable represented by that row and the variable represented by that column. Variances are covariances between any variable at itself, which occur on the diagonal of the specified matrix.
The 'F' argument refers to the F or filter matrix in the RAM approach. If no latent variables are included in the model (i.e., the A and S matrices are of both of the same dimension as the data matrix), then the 'F' should refer to an identity matrix. If latent variables are included (i.e., the A and S matrices are not of the same dimension as the data matrix), then the 'F' argument should consist of a horizontal adhesion of an identity matrix and a matrix of zeros.
The 'M' argument refers to the M or means matrix in the RAM approach. It is a 1 x n matrix, where n is the number of manifest variables + the number of latent variables. The M matrix must be specified if either the mxData type is “cov” or “cor” and a means vector is provided, or if the mxData type is “raw”. Otherwise the M matrix is ignored.
The 'dimnames' arguments takes an optional character vector. If this argument is not a single NA, then this vector be assigned to be the column names of the 'F' matrix and optionally to the 'M' matrix, if the 'M' matrix exists.
mxExpectationRAM evaluates with respect to an MxData object. The MxData object need not be referenced in the mxExpectationRAM function, but must be included in the MxModel object.
To evaluate an mxExpectationRAM object, place it, the mxData object which the expected covariance approximates, any referenced MxAlgebra and MxMatrix objects, and optional MxBounds and MxConstraint objects in an MxModel object and evaluate it using mxRun. The results of the optimization can be found in the 'output' slot of the resulting model, and may be obtained using the mxEval function.
Value
Returns a new MxExpectationRAM object. mxExpectationRAM objects should be included in a model, along with referenced MxAlgebra, MxData and MxMatrix objects.
References
McArdle, J. J. and MacDonald, R. P. (1984). Some algebraic properties of the Reticular Action Model for moment structures. British Journal of Mathematical and Statistical Psychology, 37, 234-251.
The OpenMx User's guide can be found at https://openmx.ssri.psu.edu/documentation/.
Examples
# Create and fit a model using mxMatrix, mxAlgebra,
# mxExpectationNormal, and mxFitFunctionML
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)
# Define the matrices
matrixS <- 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")
matrixA <- 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")
matrixF <- mxMatrix(type="Iden", nrow=2, ncol=2, name="F")
matrixM <- mxMatrix(type = "Full", nrow = 1, ncol = 2, values=c(0,0),
free=c(TRUE,TRUE), labels=c("Mx", "My"), name = "M")
# Define the expectation
expFunction <- mxExpectationRAM(M="M", dimnames = tmpNames)
# Choose a fit function
fitFunction <- mxFitFunctionML()
# Define the model
tmpModel <- mxModel(model="exampleRAMModel",
matrixA, matrixS, matrixF, matrixM,
expFunction, fitFunction,
mxData(observed=tmpFrame, type="raw"))
# Fit the model and print a summary
tmpModelOut <- mxRun(tmpModel)
summary(tmpModelOut)
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