testOMF: Test for overall model fit
In cSEM: Composite-Based Structural Equation Modeling
View source: R/postestimate_test_OMF.R
testOMF R Documentation
Test for overall model fit
Description
\lifecyclematuring
Usage
testOMF(
.object = NULL,
.alpha = 0.05,
.fit_measures = FALSE,
.handle_inadmissibles = c("drop", "ignore", "replace"),
.R = 499,
.saturated = FALSE,
.seed = NULL,
...
)
Arguments
.object
An R object of class cSEMResults resulting from a call to csem().
.alpha
An integer or a numeric vector of significance levels.
Defaults to 0.05.
.fit_measures
Logical. (EXPERIMENTAL) Should additional fit measures
be included? Defaults to FALSE.
.handle_inadmissibles
Character string. How should inadmissible results
be treated? One of "drop", "ignore", or "replace". If "drop", all
replications/resamples yielding an inadmissible result will be dropped
(i.e. the number of results returned will potentially be less than .R).
For "ignore" all results are returned even if all or some of the replications
yielded inadmissible results (i.e. number of results returned is equal to .R).
For "replace" resampling continues until there are exactly .R admissible solutions.
Depending on the frequency of inadmissible solutions this may significantly increase
computing time. Defaults to "drop".
.R
Integer. The number of bootstrap replications. Defaults to 499.
.saturated
Logical. Should a saturated structural model be used?
Defaults to FALSE.
.seed
Integer or NULL. The random seed to use. Defaults to NULL in which
case an arbitrary seed is chosen. Note that the scope of the seed is limited
to the body of the function it is used in. Hence, the global seed will
not be altered!
...
Can be used to determine the fitting function used in the calculateGFI function.
Details
Bootstrap-based test for overall model fit originally proposed by \insertCiteBeran1985;textualcSEM.
See also \insertCiteDijkstra2015;textualcSEM who first suggested the test in
the context of PLS-PM.
By default, testOMF() tests the null hypothesis that the population indicator
correlation matrix equals the population model-implied indicator correlation matrix.
Several discrepancy measures may be used. By default, testOMF() uses four distance
measures to assess the distance between the sample indicator correlation matrix
and the estimated model-implied indicator correlation matrix, namely the geodesic distance,
the squared Euclidean distance, the standardized root mean square residual (SRMR),
and the distance based on the maximum likelihood fit function.
The reference distribution for each test statistic is obtained by
the bootstrap as proposed by \insertCiteBeran1985;textualcSEM.
It is possible to perform the bootstrap-based test using fit measures such
as the CFI, RMSEA or the GFI if .fit_measures = TRUE. This is experimental.
To the best of our knowledge the applicability and usefulness of the fit
measures for model fit assessment have not been formally (statistically)
assessed yet. Theoretically, the logic of the test applies to these fit indices as well.
Hence, their applicability is theoretically justified.
Only use if you know what you are doing.
If .saturated = TRUE the original structural model is ignored and replaced by
a saturated model, i.e., a model in which all constructs are allowed to correlate freely.
This is useful to test misspecification of the measurement model in isolation.
Value
A list of class cSEMTestOMF containing the following list elements:
$Test_statisticThe value of the test statistics.
$Critical_valueThe corresponding critical values obtained by the bootstrap.
$DecisionThe test decision. One of: FALSE (Reject) or TRUE (Do not reject).
$InformationThe .R bootstrap values; The number of admissible results;
The seed used and the number of total runs.
References
\insertAllCited
See Also
csem(), calculateSRMR(), calculateDG(), calculateDL(), cSEMResults,
testMICOM(), testMGD(), exportToExcel()
Examples
# ===========================================================================
# Basic usage
# ===========================================================================
model <- "
# Structural model
eta2 ~ eta1
eta3 ~ eta1 + eta2
# (Reflective) measurement model
eta1 =~ y11 + y12 + y13
eta2 =~ y21 + y22 + y23
eta3 =~ y31 + y32 + y33
"
## Estimate
out <- csem(threecommonfactors, model, .approach_weights = "PLS-PM")
## Test
testOMF(out, .R = 50, .seed = 320)
cSEM documentation built on Nov. 25, 2022, 1:05 a.m.
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View source: R/postestimate_test_OMF.R
| testOMF | R Documentation |
Test for overall model fit
Description
\lifecyclematuring
Usage
testOMF(
.object = NULL,
.alpha = 0.05,
.fit_measures = FALSE,
.handle_inadmissibles = c("drop", "ignore", "replace"),
.R = 499,
.saturated = FALSE,
.seed = NULL,
...
)
Arguments
.object |
An R object of class cSEMResults resulting from a call to |
.alpha |
An integer or a numeric vector of significance levels.
Defaults to |
.fit_measures |
Logical. (EXPERIMENTAL) Should additional fit measures
be included? Defaults to |
.handle_inadmissibles |
Character string. How should inadmissible results
be treated? One of "drop", "ignore", or "replace". If "drop", all
replications/resamples yielding an inadmissible result will be dropped
(i.e. the number of results returned will potentially be less than |
.R |
Integer. The number of bootstrap replications. Defaults to |
.saturated |
Logical. Should a saturated structural model be used?
Defaults to |
.seed |
Integer or |
... |
Can be used to determine the fitting function used in the calculateGFI function. |
Details
Bootstrap-based test for overall model fit originally proposed by \insertCiteBeran1985;textualcSEM. See also \insertCiteDijkstra2015;textualcSEM who first suggested the test in the context of PLS-PM.
By default, testOMF() tests the null hypothesis that the population indicator
correlation matrix equals the population model-implied indicator correlation matrix.
Several discrepancy measures may be used. By default, testOMF() uses four distance
measures to assess the distance between the sample indicator correlation matrix
and the estimated model-implied indicator correlation matrix, namely the geodesic distance,
the squared Euclidean distance, the standardized root mean square residual (SRMR),
and the distance based on the maximum likelihood fit function.
The reference distribution for each test statistic is obtained by
the bootstrap as proposed by \insertCiteBeran1985;textualcSEM.
It is possible to perform the bootstrap-based test using fit measures such
as the CFI, RMSEA or the GFI if .fit_measures = TRUE. This is experimental.
To the best of our knowledge the applicability and usefulness of the fit
measures for model fit assessment have not been formally (statistically)
assessed yet. Theoretically, the logic of the test applies to these fit indices as well.
Hence, their applicability is theoretically justified.
Only use if you know what you are doing.
If .saturated = TRUE the original structural model is ignored and replaced by
a saturated model, i.e., a model in which all constructs are allowed to correlate freely.
This is useful to test misspecification of the measurement model in isolation.
Value
A list of class cSEMTestOMF containing the following list elements:
$Test_statisticThe value of the test statistics.
$Critical_valueThe corresponding critical values obtained by the bootstrap.
$DecisionThe test decision. One of:
FALSE(Reject) orTRUE(Do not reject).$InformationThe
.Rbootstrap values; The number of admissible results; The seed used and the number of total runs.
References
\insertAllCitedSee Also
csem(), calculateSRMR(), calculateDG(), calculateDL(), cSEMResults,
testMICOM(), testMGD(), exportToExcel()
Examples
# =========================================================================== # Basic usage # =========================================================================== model <- " # Structural model eta2 ~ eta1 eta3 ~ eta1 + eta2 # (Reflective) measurement model eta1 =~ y11 + y12 + y13 eta2 =~ y21 + y22 + y23 eta3 =~ y31 + y32 + y33 " ## Estimate out <- csem(threecommonfactors, model, .approach_weights = "PLS-PM") ## Test testOMF(out, .R = 50, .seed = 320)
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