sam: Fit Structural Equation Models using the SAM approach
In yrosseel/lavaan: Latent Variable Analysis
sam R Documentation
Fit Structural Equation Models using the SAM approach
Description
Fit a Structural Equation Model (SEM) using the Structural After Measurement
(SAM) approach.
Usage
sam(model = NULL, data = NULL, cmd = "sem", se = "twostep",
mm.list = NULL, mm.args = list(bounds = "wide.zerovar"),
struc.args = list(estimator = "ML"),
sam.method = "local", ...,
local.options = list(M.method = "ML", lambda.correction = TRUE,
alpha.correction = 0L, twolevel.method = "h1"),
global.options = list(), output = "lavaan")
Arguments
model
A description of the user-specified model. Typically, the model
is described using the lavaan model syntax. See
model.syntax for more information. Alternatively, a
parameter table (eg. the output of the lavaanify() function) is also
accepted.
data
A data frame containing the observed variables used in
the model.
cmd
Character. Which command is used to run the sem models. The possible
choices are "sem", "cfa" or "lavaan", determining how
we deal with default options.
se
Character. The type of standard errors that are used in the
final (structural) model. If "twostep" (the default), the
standard errors take the estimation uncertainty of the first (measurement)
stage into account. If "standard", this uncertainty is ignored,
and we treat the measurement information as known. If "none",
no standard errors are computed.
mm.list
List. Define the measurement blocks.
Each element of the list should
be either a single name of a latent variable, or a vector of latent
variable names. If omitted, a separate measurement
block is used for each latent variable.
mm.args
List. Optional arguments for the fitting
function(s) of the measurement block(s) only. See lavOptions
for a complete list.
struc.args
List. Optional arguments for the fitting function of the
structural part only. See lavOptions for a complete list.
sam.method
Character. Can be set to "local", "global"
or "fsr". In the latter case, the results are the same as if
Bartlett factor scores were used, without any bias correction.
...
Many more additional options can be defined, using 'name = value'.
See lavOptions for a complete list. These options affect
both the measurement blocks and the structural part.
local.options
List. Options specific for local SAM method (these
options may change over time). If lambda.correction = TRUE,
we ensure that the variance matrix of the latent variables (VETA)
is positive definite. The alpha.correction options must be an
integer. Acceptable values are in the range 0 till
N-1. If zero (the default), no small sample correction is performed,
and the bias-correction is the same as with local SAM. When equal to N-1,
the bias-correction is eliminated, and the results are the same as
naive FSR. Typical values are 0, P+1 (where P is the number of
predictors in the structural model), P+5, and (N-1)/2.
global.options
List. Options specific for global SAM method (not
used for now).
output
Character. If "lavaan", a lavaan object returned. If
"list", a list is returned with all the ingredients from the
different stages.
Details
The sam function tries to automate the SAM approach, by first
estimating the measurement part of the model,
and then the structural part of the model. See reference for more
details.
Note that in the current implementation, all indicators of latent
variables have to be observed. This implies: no support for second-order
factor structures (for now).
Value
If output = "lavaan", an object of class
lavaan, for which several methods
are available, including a summary method. If output = "list",
a list.
References
Rosseel and Loh (2021). A structural-after-measurement approach to Structural
Equation Modeling. Psychological Methods. Advance online publication.
https://dx.doi.org/10.1037/met0000503
See Also
lavaan
Examples
## The industrialization and Political Democracy Example
## Bollen (1989), page 332
model <- '
# latent variable definitions
ind60 =~ x1 + x2 + x3
dem60 =~ y1 + a*y2 + b*y3 + c*y4
dem65 =~ y5 + a*y6 + b*y7 + c*y8
# regressions
dem60 ~ ind60
dem65 ~ ind60 + dem60
# residual correlations
y1 ~~ y5
y2 ~~ y4 + y6
y3 ~~ y7
y4 ~~ y8
y6 ~~ y8
'
fit.sam <- sam(model, data = PoliticalDemocracy,
mm.list = list(ind = "ind60", dem = c("dem60", "dem65")))
summary(fit.sam)
yrosseel/lavaan documentation built on April 26, 2024, 1:41 p.m.
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| sam | R Documentation |
Fit Structural Equation Models using the SAM approach
Description
Fit a Structural Equation Model (SEM) using the Structural After Measurement (SAM) approach.
Usage
sam(model = NULL, data = NULL, cmd = "sem", se = "twostep",
mm.list = NULL, mm.args = list(bounds = "wide.zerovar"),
struc.args = list(estimator = "ML"),
sam.method = "local", ...,
local.options = list(M.method = "ML", lambda.correction = TRUE,
alpha.correction = 0L, twolevel.method = "h1"),
global.options = list(), output = "lavaan")
Arguments
model |
A description of the user-specified model. Typically, the model
is described using the lavaan model syntax. See
|
data |
A data frame containing the observed variables used in the model. |
cmd |
Character. Which command is used to run the sem models. The possible
choices are |
se |
Character. The type of standard errors that are used in the
final (structural) model. If |
mm.list |
List. Define the measurement blocks. Each element of the list should be either a single name of a latent variable, or a vector of latent variable names. If omitted, a separate measurement block is used for each latent variable. |
mm.args |
List. Optional arguments for the fitting
function(s) of the measurement block(s) only. See |
struc.args |
List. Optional arguments for the fitting function of the
structural part only. See |
sam.method |
Character. Can be set to |
... |
Many more additional options can be defined, using 'name = value'.
See |
local.options |
List. Options specific for local SAM method (these
options may change over time). If |
global.options |
List. Options specific for global SAM method (not used for now). |
output |
Character. If |
Details
The sam function tries to automate the SAM approach, by first
estimating the measurement part of the model,
and then the structural part of the model. See reference for more
details.
Note that in the current implementation, all indicators of latent variables have to be observed. This implies: no support for second-order factor structures (for now).
Value
If output = "lavaan", an object of class
lavaan, for which several methods
are available, including a summary method. If output = "list",
a list.
References
Rosseel and Loh (2021). A structural-after-measurement approach to Structural Equation Modeling. Psychological Methods. Advance online publication. https://dx.doi.org/10.1037/met0000503
See Also
lavaan
Examples
## The industrialization and Political Democracy Example
## Bollen (1989), page 332
model <- '
# latent variable definitions
ind60 =~ x1 + x2 + x3
dem60 =~ y1 + a*y2 + b*y3 + c*y4
dem65 =~ y5 + a*y6 + b*y7 + c*y8
# regressions
dem60 ~ ind60
dem65 ~ ind60 + dem60
# residual correlations
y1 ~~ y5
y2 ~~ y4 + y6
y3 ~~ y7
y4 ~~ y8
y6 ~~ y8
'
fit.sam <- sam(model, data = PoliticalDemocracy,
mm.list = list(ind = "ind60", dem = c("dem60", "dem65")))
summary(fit.sam)
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