EBICglasso.qgraph: 'EBICglasso' from 'qgraph' 1.4.4
In hfgolino/EGAnet: Exploratory Graph Analysis – a Framework for Estimating the Number of Dimensions in Multivariate Data using Network Psychometrics
View source: R/EBICglasso.qgraph.R
EBICglasso.qgraph R Documentation
EBICglasso from qgraph 1.4.4
Description
This function uses the glasso package
(Friedman, Hastie and Tibshirani, 2011) to compute a
sparse gaussian graphical model with the graphical lasso
(Friedman, Hastie & Tibshirani, 2008).
The tuning parameter is chosen using the Extended Bayesian Information criterion
(EBIC) described by Foygel & Drton (2010).
Usage
EBICglasso.qgraph(
data,
n = NULL,
corr = c("auto", "cor_auto", "pearson", "spearman"),
na.data = c("pairwise", "listwise"),
gamma = 0.5,
penalize.diagonal = FALSE,
nlambda = 100,
lambda.min.ratio = 0.1,
returnAllResults = FALSE,
penalizeMatrix,
countDiagonal = FALSE,
refit = FALSE,
model.selection = c("EBIC", "JSD"),
verbose = FALSE,
...
)
Arguments
data
Matrix or data frame.
Should consist only of variables to be used in the analysis
n
Numeric (length = 1).
Sample size if data provided is a correlation matrix
corr
Character (length = 1).
Method to compute correlations.
Defaults to "auto".
Available options:
-
"auto" — Automatically computes appropriate correlations for
the data using Pearson's for continuous, polychoric for ordinal,
tetrachoric for binary, and polyserial/biserial for ordinal/binary with
continuous. To change the number of categories that are considered
ordinal, use ordinal.categories
(see polychoric.matrix for more details)
-
"cor_auto" — Uses cor_auto to
compute correlations. Arguments can be passed along to the function
-
"pearson" — Pearson's correlation is computed for
all variables regardless of categories
-
"spearman" — Spearman's rank-order correlation is
computed for all variables regardless of categories
na.data
Character (length = 1).
How should missing data be handled?
Defaults to "pairwise".
Available options:
-
"pairwise" — Computes correlation for all available
cases between two variables
-
"listwise" — Computes correlation for all complete
cases in the dataset
gamma
Numeric (length = 1)
EBIC tuning parameter.
Defaults to 0.50 and is generally a good choice.
Setting to 0 will cause regular BIC to be used
penalize.diagonal
Boolean (length = 1).
Should the diagonal be penalized?
Defaults to FALSE
nlambda
Numeric (length = 1).
Number of lambda values to test.
Defaults to 100
lambda.min.ratio
Numeric (length = 1).
Ratio of lowest lambda value compared to maximal lambda.
Defaults to 0.1.
NOTE qgraph sets the default to 0.01
returnAllResults
Boolean (length = 1).
Whether all results should be returned.
Defaults to FALSE (network only).
Set to TRUE to access glassopath output
penalizeMatrix
Boolean matrix.
Optional logical matrix to indicate which elements are penalized
countDiagonal
Boolean (length = 1).
Should diagonal be counted in EBIC computation?
Defaults to FALSE.
Set to TRUE to mimic qgraph < 1.3 behavior (not recommended!)
refit
Boolean (length = 1).
Should the optimal graph be refitted without LASSO regularization?
Defaults to FALSE
model.selection
Character (length = 1).
How lambda should be selected within GLASSO.
Defaults to "EBIC".
"JSD" is experimental and should not be used otherwise
verbose
Boolean (length = 1).
Whether messages and (insignificant) warnings should be output.
Defaults to FALSE (silent calls).
Set to TRUE to see all messages and warnings for every function call
...
Arguments sent to glasso
Details
The glasso is run for 100 values of the tuning parameter logarithmically
spaced between the maximal value of the tuning parameter at which all edges are zero,
lambda_max, and lambda_max/100. For each of these graphs the EBIC is computed and
the graph with the best EBIC is selected. The partial correlation matrix
is computed using wi2net and returned.
Value
A partial correlation matrix
Author(s)
Sacha Epskamp; for maintanence,
Hudson Golino <hfg9s at virginia.edu> and Alexander P. Christensen <alexpaulchristensen at gmail.com>
References
Instantiation of GLASSO
Friedman, J., Hastie, T., & Tibshirani, R. (2008).
Sparse inverse covariance estimation with the graphical lasso.
Biostatistics, 9, 432-441.
glasso + EBIC
Foygel, R., & Drton, M. (2010).
Extended Bayesian information criteria for Gaussian graphical models.
In Advances in neural information processing systems (pp. 604-612).
glasso package
Friedman, J., Hastie, T., & Tibshirani, R. (2011).
glasso: Graphical lasso-estimation of Gaussian graphical models.
R package version 1.7.
Tutorial on EBICglasso
Epskamp, S., & Fried, E. I. (2018).
A tutorial on regularized partial correlation networks.
Psychological Methods, 23(4), 617–634.
Examples
# Obtain data
wmt <- wmt2[,7:24]
# Compute graph with tuning = 0 (BIC)
BICgraph <- EBICglasso.qgraph(data = wmt, gamma = 0)
# Compute graph with tuning = 0.5 (EBIC)
EBICgraph <- EBICglasso.qgraph(data = wmt, gamma = 0.5)
hfgolino/EGAnet documentation built on April 17, 2024, 3:48 p.m.
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View source: R/EBICglasso.qgraph.R
| EBICglasso.qgraph | R Documentation |
EBICglasso from qgraph 1.4.4
Description
This function uses the glasso package
(Friedman, Hastie and Tibshirani, 2011) to compute a
sparse gaussian graphical model with the graphical lasso
(Friedman, Hastie & Tibshirani, 2008).
The tuning parameter is chosen using the Extended Bayesian Information criterion
(EBIC) described by Foygel & Drton (2010).
Usage
EBICglasso.qgraph(
data,
n = NULL,
corr = c("auto", "cor_auto", "pearson", "spearman"),
na.data = c("pairwise", "listwise"),
gamma = 0.5,
penalize.diagonal = FALSE,
nlambda = 100,
lambda.min.ratio = 0.1,
returnAllResults = FALSE,
penalizeMatrix,
countDiagonal = FALSE,
refit = FALSE,
model.selection = c("EBIC", "JSD"),
verbose = FALSE,
...
)
Arguments
data |
Matrix or data frame. Should consist only of variables to be used in the analysis |
n |
Numeric (length = 1).
Sample size if |
corr |
Character (length = 1).
Method to compute correlations.
Defaults to
|
na.data |
Character (length = 1).
How should missing data be handled?
Defaults to
|
gamma |
Numeric (length = 1)
EBIC tuning parameter.
Defaults to |
penalize.diagonal |
Boolean (length = 1).
Should the diagonal be penalized?
Defaults to |
nlambda |
Numeric (length = 1).
Number of lambda values to test.
Defaults to |
lambda.min.ratio |
Numeric (length = 1).
Ratio of lowest lambda value compared to maximal lambda.
Defaults to |
returnAllResults |
Boolean (length = 1).
Whether all results should be returned.
Defaults to |
penalizeMatrix |
Boolean matrix. Optional logical matrix to indicate which elements are penalized |
countDiagonal |
Boolean (length = 1).
Should diagonal be counted in EBIC computation?
Defaults to |
refit |
Boolean (length = 1).
Should the optimal graph be refitted without LASSO regularization?
Defaults to |
model.selection |
Character (length = 1).
How lambda should be selected within GLASSO.
Defaults to |
verbose |
Boolean (length = 1).
Whether messages and (insignificant) warnings should be output.
Defaults to |
... |
Arguments sent to |
Details
The glasso is run for 100 values of the tuning parameter logarithmically
spaced between the maximal value of the tuning parameter at which all edges are zero,
lambda_max, and lambda_max/100. For each of these graphs the EBIC is computed and
the graph with the best EBIC is selected. The partial correlation matrix
is computed using wi2net and returned.
Value
A partial correlation matrix
Author(s)
Sacha Epskamp; for maintanence, Hudson Golino <hfg9s at virginia.edu> and Alexander P. Christensen <alexpaulchristensen at gmail.com>
References
Instantiation of GLASSO
Friedman, J., Hastie, T., & Tibshirani, R. (2008).
Sparse inverse covariance estimation with the graphical lasso.
Biostatistics, 9, 432-441.
glasso + EBIC
Foygel, R., & Drton, M. (2010).
Extended Bayesian information criteria for Gaussian graphical models.
In Advances in neural information processing systems (pp. 604-612).
glasso package
Friedman, J., Hastie, T., & Tibshirani, R. (2011).
glasso: Graphical lasso-estimation of Gaussian graphical models.
R package version 1.7.
Tutorial on EBICglasso
Epskamp, S., & Fried, E. I. (2018).
A tutorial on regularized partial correlation networks.
Psychological Methods, 23(4), 617–634.
Examples
# Obtain data
wmt <- wmt2[,7:24]
# Compute graph with tuning = 0 (BIC)
BICgraph <- EBICglasso.qgraph(data = wmt, gamma = 0)
# Compute graph with tuning = 0.5 (EBIC)
EBICgraph <- EBICglasso.qgraph(data = wmt, gamma = 0.5)
R Package Documentation
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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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