add_missing: Add missing values to a vector given a MCAR, MAR, or MNAR...
In SimDesign: Structure for Organizing Monte Carlo Simulation Designs
add_missing R Documentation
Add missing values to a vector given a MCAR, MAR, or MNAR scheme
Description
Given an input vector, replace elements of this vector with missing values according to some scheme.
Default method replaces input values with a MCAR scheme (where on average 10% of the values will be
replaced with NAs). MAR and MNAR are supported by replacing the default FUN argument.
Usage
add_missing(y, fun = function(y, rate = 0.1, ...) rep(rate, length(y)), ...)
Arguments
y
an input vector that should contain missing data in the form of NA's
fun
a user defined function indicating the missing data mechanism for each element in y.
Function must return a vector of probability values with the length equal to the length of y.
Each value in the returned vector indicates the probability that
the respective element in y will be replaced with NA.
Function must contain the argument y, representing the
input vector, however any number of additional arguments can be included
...
additional arguments to be passed to FUN
Details
Given an input vector y, and other relevant variables
inside (X) and outside (Z) the data-set, the three types of missingness are:
- MCAR
Missing completely at random (MCAR). This is realized by randomly
sampling the values of the
input vector (y) irrespective of the possible values in X and Z.
Therefore missing values are randomly sampled and do not depend on any data characteristics and
are truly random
- MAR
Missing at random (MAR). This is realized when values in the dataset (X)
predict the missing data mechanism in y; conceptually this is equivalent to
P(y = NA | X). This requires the user to define a custom missing data function
- MNAR
Missing not at random (MNAR). This is similar to MAR except
that the missing mechanism comes
from the value of y itself or from variables outside the working dataset;
conceptually this is equivalent to P(y = NA | X, Z, y). This requires
the user to define a custom missing data function
Value
the input vector y with the sampled NA values
(according to the FUN scheme)
Author(s)
Phil Chalmers rphilip.chalmers@gmail.com
References
Chalmers, R. P., & Adkins, M. C. (2020). Writing Effective and Reliable Monte Carlo Simulations
with the SimDesign Package. The Quantitative Methods for Psychology, 16(4), 248-280.
\Sexpr[results=rd]{tools:::Rd_expr_doi("10.20982/tqmp.16.4.p248")}
Sigal, M. J., & Chalmers, R. P. (2016). Play it again: Teaching statistics with Monte
Carlo simulation. Journal of Statistics Education, 24(3), 136-156.
\Sexpr[results=rd]{tools:::Rd_expr_doi("10.1080/10691898.2016.1246953")}
Examples
## Not run:
set.seed(1)
y <- rnorm(1000)
## 10% missing rate with default FUN
head(ymiss <- add_missing(y), 10)
## 50% missing with default FUN
head(ymiss <- add_missing(y, rate = .5), 10)
## missing values only when female and low
X <- data.frame(group = sample(c('male', 'female'), 1000, replace=TRUE),
level = sample(c('high', 'low'), 1000, replace=TRUE))
head(X)
fun <- function(y, X, ...){
p <- rep(0, length(y))
p[X$group == 'female' & X$level == 'low'] <- .2
p
}
ymiss <- add_missing(y, X, fun=fun)
tail(cbind(ymiss, X), 10)
## missingness as a function of elements in X (i.e., a type of MAR)
fun <- function(y, X){
# missingness with a logistic regression approach
df <- data.frame(y, X)
mm <- model.matrix(y ~ group + level, df)
cfs <- c(-5, 2, 3) #intercept, group, and level coefs
z <- cfs %*% t(mm)
plogis(z)
}
ymiss <- add_missing(y, X, fun=fun)
tail(cbind(ymiss, X), 10)
## missing values when y elements are large (i.e., a type of MNAR)
fun <- function(y) ifelse(abs(y) > 1, .4, 0)
ymiss <- add_missing(y, fun=fun)
tail(cbind(y, ymiss), 10)
## End(Not run)
SimDesign documentation built on Oct. 17, 2023, 5:07 p.m.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
| add_missing | R Documentation |
Add missing values to a vector given a MCAR, MAR, or MNAR scheme
Description
Given an input vector, replace elements of this vector with missing values according to some scheme.
Default method replaces input values with a MCAR scheme (where on average 10% of the values will be
replaced with NAs). MAR and MNAR are supported by replacing the default FUN argument.
Usage
add_missing(y, fun = function(y, rate = 0.1, ...) rep(rate, length(y)), ...)
Arguments
y |
an input vector that should contain missing data in the form of |
fun |
a user defined function indicating the missing data mechanism for each element in |
... |
additional arguments to be passed to |
Details
Given an input vector y, and other relevant variables inside (X) and outside (Z) the data-set, the three types of missingness are:
- MCAR
Missing completely at random (MCAR). This is realized by randomly sampling the values of the input vector (y) irrespective of the possible values in X and Z. Therefore missing values are randomly sampled and do not depend on any data characteristics and are truly random
- MAR
Missing at random (MAR). This is realized when values in the dataset (X) predict the missing data mechanism in y; conceptually this is equivalent to
P(y = NA | X). This requires the user to define a custom missing data function- MNAR
Missing not at random (MNAR). This is similar to MAR except that the missing mechanism comes from the value of y itself or from variables outside the working dataset; conceptually this is equivalent to
P(y = NA | X, Z, y). This requires the user to define a custom missing data function
Value
the input vector y with the sampled NA values
(according to the FUN scheme)
Author(s)
Phil Chalmers rphilip.chalmers@gmail.com
References
Chalmers, R. P., & Adkins, M. C. (2020). Writing Effective and Reliable Monte Carlo Simulations
with the SimDesign Package. The Quantitative Methods for Psychology, 16(4), 248-280.
\Sexpr[results=rd]{tools:::Rd_expr_doi("10.20982/tqmp.16.4.p248")}
Sigal, M. J., & Chalmers, R. P. (2016). Play it again: Teaching statistics with Monte
Carlo simulation. Journal of Statistics Education, 24(3), 136-156.
\Sexpr[results=rd]{tools:::Rd_expr_doi("10.1080/10691898.2016.1246953")}
Examples
## Not run:
set.seed(1)
y <- rnorm(1000)
## 10% missing rate with default FUN
head(ymiss <- add_missing(y), 10)
## 50% missing with default FUN
head(ymiss <- add_missing(y, rate = .5), 10)
## missing values only when female and low
X <- data.frame(group = sample(c('male', 'female'), 1000, replace=TRUE),
level = sample(c('high', 'low'), 1000, replace=TRUE))
head(X)
fun <- function(y, X, ...){
p <- rep(0, length(y))
p[X$group == 'female' & X$level == 'low'] <- .2
p
}
ymiss <- add_missing(y, X, fun=fun)
tail(cbind(ymiss, X), 10)
## missingness as a function of elements in X (i.e., a type of MAR)
fun <- function(y, X){
# missingness with a logistic regression approach
df <- data.frame(y, X)
mm <- model.matrix(y ~ group + level, df)
cfs <- c(-5, 2, 3) #intercept, group, and level coefs
z <- cfs %*% t(mm)
plogis(z)
}
ymiss <- add_missing(y, X, fun=fun)
tail(cbind(ymiss, X), 10)
## missing values when y elements are large (i.e., a type of MNAR)
fun <- function(y) ifelse(abs(y) > 1, .4, 0)
ymiss <- add_missing(y, fun=fun)
tail(cbind(y, ymiss), 10)
## End(Not run)
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Embedding an R snippet on your website
Add the following code to your website.
For more information on customizing the embed code, read Embedding Snippets.