mice.impute.lasso.logreg: Imputation by direct use of lasso logistic regression
In stefvanbuuren/mice: Multivariate Imputation by Chained Equations
View source: R/mice.impute.lasso.logreg.R
mice.impute.lasso.logreg R Documentation
Imputation by direct use of lasso logistic regression
Description
Imputes univariate missing binary data using lasso logistic regression with bootstrap.
Usage
mice.impute.lasso.logreg(y, ry, x, wy = NULL, nfolds = 10, ...)
Arguments
y
Vector to be imputed
ry
Logical vector of length length(y) indicating the
the subset y[ry] of elements in y to which the imputation
model is fitted. The ry generally distinguishes the observed
(TRUE) and missing values (FALSE) in y.
x
Numeric design matrix with length(y) rows with predictors for
y. Matrix x may have no missing values.
wy
Logical vector of length length(y). A TRUE value
indicates locations in y for which imputations are created.
nfolds
The number of folds for the cross-validation of the lasso penalty.
The default is 10.
...
Other named arguments.
Details
The method consists of the following steps:
For a given y variable under imputation, draw a bootstrap version y*
with replacement from the observed cases y[ry], and stores in x* the
corresponding values from x[ry, ].
Fit a regularised (lasso) logistic regression with y* as the outcome,
and x* as predictors.
A vector of regression coefficients bhat is obtained.
All of these coefficients are considered random draws from the imputation model
parameters posterior distribution.
Same of these coefficients will be shrunken to 0.
Compute predicted scores for m.d., i.e. logit-1(X bhat)
Compare the score to a random (0,1) deviate, and impute.
The method is based on the Direct Use of Regularized Regression (DURR) proposed by
Zhao & Long (2016) and Deng et al (2016).
Value
Vector with imputed data, same type as y, and of length
sum(wy)
Author(s)
Edoardo Costantini, 2021
References
Deng, Y., Chang, C., Ido, M. S., & Long, Q. (2016). Multiple imputation for
general missing data patterns in the presence of high-dimensional data.
Scientific reports, 6(1), 1-10.
Zhao, Y., & Long, Q. (2016). Multiple imputation in the presence of
high-dimensional data. Statistical Methods in Medical Research, 25(5),
2021-2035.
See Also
Other univariate imputation functions:
mice.impute.cart(),
mice.impute.lasso.norm(),
mice.impute.lasso.select.logreg(),
mice.impute.lasso.select.norm(),
mice.impute.lda(),
mice.impute.logreg(),
mice.impute.logreg.boot(),
mice.impute.mean(),
mice.impute.midastouch(),
mice.impute.mnar.logreg(),
mice.impute.mpmm(),
mice.impute.norm(),
mice.impute.norm.boot(),
mice.impute.norm.nob(),
mice.impute.norm.predict(),
mice.impute.pmm(),
mice.impute.polr(),
mice.impute.polyreg(),
mice.impute.quadratic(),
mice.impute.rf(),
mice.impute.ri()
stefvanbuuren/mice documentation built on April 21, 2024, 7:37 a.m.
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View source: R/mice.impute.lasso.logreg.R
| mice.impute.lasso.logreg | R Documentation |
Imputation by direct use of lasso logistic regression
Description
Imputes univariate missing binary data using lasso logistic regression with bootstrap.
Usage
mice.impute.lasso.logreg(y, ry, x, wy = NULL, nfolds = 10, ...)
Arguments
y |
Vector to be imputed |
ry |
Logical vector of length |
x |
Numeric design matrix with |
wy |
Logical vector of length |
nfolds |
The number of folds for the cross-validation of the lasso penalty. The default is 10. |
... |
Other named arguments. |
Details
The method consists of the following steps:
For a given y variable under imputation, draw a bootstrap version y* with replacement from the observed cases
y[ry], and stores in x* the corresponding values fromx[ry, ].Fit a regularised (lasso) logistic regression with y* as the outcome, and x* as predictors. A vector of regression coefficients bhat is obtained. All of these coefficients are considered random draws from the imputation model parameters posterior distribution. Same of these coefficients will be shrunken to 0.
Compute predicted scores for m.d., i.e. logit-1(X bhat)
Compare the score to a random (0,1) deviate, and impute.
The method is based on the Direct Use of Regularized Regression (DURR) proposed by Zhao & Long (2016) and Deng et al (2016).
Value
Vector with imputed data, same type as y, and of length
sum(wy)
Author(s)
Edoardo Costantini, 2021
References
Deng, Y., Chang, C., Ido, M. S., & Long, Q. (2016). Multiple imputation for general missing data patterns in the presence of high-dimensional data. Scientific reports, 6(1), 1-10.
Zhao, Y., & Long, Q. (2016). Multiple imputation in the presence of high-dimensional data. Statistical Methods in Medical Research, 25(5), 2021-2035.
See Also
Other univariate imputation functions:
mice.impute.cart(),
mice.impute.lasso.norm(),
mice.impute.lasso.select.logreg(),
mice.impute.lasso.select.norm(),
mice.impute.lda(),
mice.impute.logreg(),
mice.impute.logreg.boot(),
mice.impute.mean(),
mice.impute.midastouch(),
mice.impute.mnar.logreg(),
mice.impute.mpmm(),
mice.impute.norm(),
mice.impute.norm.boot(),
mice.impute.norm.nob(),
mice.impute.norm.predict(),
mice.impute.pmm(),
mice.impute.polr(),
mice.impute.polyreg(),
mice.impute.quadratic(),
mice.impute.rf(),
mice.impute.ri()
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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