IPW_ASYM_Boxplot: Boxplot adapted to skewness and missing values
In IPWboxplot: Adapted Boxplot to Missing Observations
IPW.ASYM.boxplot R Documentation
Boxplot adapted to skewness and missing values
Description
The function draws a modified boxplot adapted to missing data and skewness. The drop-out probabilities can be given by the practitioner or fitted through a logistic model using auxiliary covariates. The plots are adapted to asymmetric distributions by correcting the whiskers through a measure of the skewness.
Usage
IPW.ASYM.boxplot(y,px=NULL,x=NULL,graph=c("IPW","both"),names=c("IPW Asymmetric Boxplot",
"NAIVE Asymmetric Boxplot"), size.letter=1.2,
method=c("quartile","octile"), ctea=-4, cteb=3, lim.inf=NULL,lim.sup=NULL,
main=" ",xlab = " ", ylab =" ",color="black")
Arguments
y
Numerical vector of length n with possible missing values codified by NA or NAN.
px
Optional. Numerical vector of drop-out probabilities. If not provided a logistic fit is performed using x as predictive variable. Missing values are not admitted.
x
Optional. The matrix of fully observed variables used to estimate the missing model with dimension nrows=n and ncol=p. Missing values are not admitted. One of the vectors px or x must be supplied.
graph
Optional. Character string indicating if the plot contains two boxplots ("both") or only the boxplot computed with the inverse probability weighted quantiles ("IPW"). The default is "IPW".
names
Optional. Character string to name the boxplots. The default is "IPW Asymmetric Boxplot", when graph="IPW" and
c("IPW Asymmetric Boxplot", "NAIVE Asymmetric Boxplot") when graph="both".
size.letter
Optional. The font size of names. Default value is 1.2
method
Optional. Character string indicating if the skewness measure is based on the quartiles ("quartile") or the octiles ("octile").
The default is "quartile".
ctea
Optional. Scaling factors to compute the outlier boundary. The default is -4.
cteb
Optional. Scaling factors to compute the outlier boundary. The default is 3. When ctea=cteb=0 the IPW boxplot for symmetric data is obtained.
lim.inf
Optional. The lower limit of the plot if supplied by the user.
lim.sup
Optional. The upper limit of the plot if supplied by the user.
main
Optional. Character string to title the plot. By default no main title is given.
xlab
Optional. Character string to indicate the label of the horizontal axis.
ylab
Optional. Character string to indicate the label of the vertical axis.
color
Optional. Color for the IPW Boxplot.
Details
The function draws boxplots designed to adjust both for skewness and missingness. The drop-out probabilities can be supplied by the user or estimated through a logistic model from given covariates.
The function plots as default a modified boxplot based on the inverse probability weighted (IPW) quantiles adapting for missing observations as in Zhang et al.(2012), but using a correction factor to adjust for skewness. For that purpose, the function incorporates a skewness measure to compute the whiskers and the outlier cut–off values in a similar way to that considered in Hubert and Vandervieren (2008).
The argument method selects quartiles (method="quartile") or octiles (method="octile") to calculate the skewness measure SKEW, respectively, as
SKEW=\frac{(Q_{0.75}-Q_{0.5})-(Q_{0.5}-Q_{25})}{(Q_{0.75}-Q_{0.25})},
SKEW=\frac{(Q_{0.875}-Q_{0.5})-(Q_{0.5}-Q_{0.125})}{(Q_{0.875}-Q_{0.125})},
where Q\alpha denotes the \alpha-quantile.
The whiskers and the outlier cut–off values are computed by means of an exponential model in the fashion of Hubert and Vandervieren (2008) taking into account the interval:
(Q_{0.25}-1.5*\exp{(c_i*SKEW)}*IQR,Q_{0.75}+1.5*\exp{(c_s*SKEW)}*IQR),
where IQR=Q_{0.75}-Q_{0.25} and c_i=ctea and c_s=cteb if SKEW is positive, otherwise, c_i=-cteb and c_s=-ctea.
The default values for ctea and cteb are -4 and 3, however, the user may choose other values for these constants.
By specifying graph = "both", the function displays two parallel modified boxplots. The boxplot on the left corresponds to the IPW boxplot adapted for missingness and skewness, while that on the right, to its naive counterpart which is simply based on the observations y at hand without any correction for missingness.
The user can supply a vector of drop-out probabilities px or a set of covariates x to estimate the propensity.
When both px and x are supplied, the IPW.ASYM.boxplot is executed using px. When px is not given, it is estimated assuming a logistic model depending on the covariates x .
For more details, see Bianco et al. (2018).
Value
The output of the function is a list with components:
px
Numerical vector of drop-out probabilities.
IPW.Quartiles
Numerical vector of inverse probability weighted quartiles.
IPW.whisker
Numerical vector of lower and upper whiskers calculated from IPW quantiles.
out.IPW
Numerical vector of data points detected as atypical by the IPW boxplot adapted to skewness.
SKEW.IPW
Skewness measure based on the IPW quartiles (method="quartile") or IPW octiles (method="octile").
NAIVE.Quartiles
Numerical vector of naive quartiles computed from the subset of non-missing values of y. Returned only when graph="both".
NAIVE.whisker
Numerical vector of lower and upper whiskers obtained from the naive quantiles. Returned only when graph="both".
out.NAIVE
Numerical vector of data points detected as atypical by the naive boxplot. Returned only when graph="both".
SKEW.NAIVE
Skewness measure based on the naive quartiles (method="quartile") or Naive octiles (method="octile"), computed from the subset of non-missing values of y. Returned only when graph="both".
Note
The missing values of y must be codified as NA or NAN.
The numerical vector px and the matrix of covariates x must be fully observed. px or x must be supplied by the user.
The lengths of y, px, and nrow(x) must be equal.
Author(s)
Ana Maria Bianco <abianco@dm.uba.ar>, Graciela Boente <gboente@dm.uba.ar> and Ana Perez-Gonzalez <anapg@uvigo.es>.
References
Bianco, A. M., Boente, G., and Perez-Gonzalez, A. (2018). A boxplot adapted to missing values: an R function when predictive covariates are available. Submitted.
Hubert, M. and Vandervieren, E. (2008). An adjusted boxplot for skewed distributions. Computational Statistics & Data Analysis, 52, 5186-5201.
Zhang, Z., Chen, Z., Troendle, J. F. and Zhang, J. (2012). Causal inference on quantiles with an obstetric application. Biometrics, 68, 697-706.
See Also
IPW.quantile,
IPW.Boxplot
Examples
## A real data example
library(mice)
data(boys)
attach(boys)
# The function plots the IPW boxplot adapted to skewness.
# Some statistical summaries computed using the inverse probability weighting approach
# are also returned.
res1=IPW.ASYM.boxplot(hc,x=age,main="IPW boxplot adjusted for skewness of the head circumference")
# We can compare the naive and IPW approaches. We also can consider the skewness measure computed
# using the quartiles (as default).
res2=IPW.ASYM.boxplot(hc,x=age,method="quartile",graph="both",main=" ")
# The results obtained if the skewness measure is computed with the octiles (method="octile") are:
res3=IPW.ASYM.boxplot(hc,x=age,method="octile",graph="both",main=" ")
IPWboxplot documentation built on Oct. 22, 2023, 1:11 a.m.
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| IPW.ASYM.boxplot | R Documentation |
Boxplot adapted to skewness and missing values
Description
The function draws a modified boxplot adapted to missing data and skewness. The drop-out probabilities can be given by the practitioner or fitted through a logistic model using auxiliary covariates. The plots are adapted to asymmetric distributions by correcting the whiskers through a measure of the skewness.
Usage
IPW.ASYM.boxplot(y,px=NULL,x=NULL,graph=c("IPW","both"),names=c("IPW Asymmetric Boxplot",
"NAIVE Asymmetric Boxplot"), size.letter=1.2,
method=c("quartile","octile"), ctea=-4, cteb=3, lim.inf=NULL,lim.sup=NULL,
main=" ",xlab = " ", ylab =" ",color="black")
Arguments
y |
Numerical vector of length n with possible missing values codified by NA or NAN. |
px |
Optional. Numerical vector of drop-out probabilities. If not provided a logistic fit is performed using |
x |
Optional. The matrix of fully observed variables used to estimate the missing model with dimension nrows=n and ncol=p. Missing values are not admitted. One of the vectors px or x must be supplied. |
graph |
Optional. Character string indicating if the plot contains two boxplots ("both") or only the boxplot computed with the inverse probability weighted quantiles ("IPW"). The default is "IPW". |
names |
Optional. Character string to name the boxplots. The default is "IPW Asymmetric Boxplot", when |
size.letter |
Optional. The font size of names. Default value is 1.2 |
method |
Optional. Character string indicating if the skewness measure is based on the quartiles ("quartile") or the octiles ("octile"). The default is "quartile". |
ctea |
Optional. Scaling factors to compute the outlier boundary. The default is -4. |
cteb |
Optional. Scaling factors to compute the outlier boundary. The default is 3. When ctea=cteb=0 the IPW boxplot for symmetric data is obtained. |
lim.inf |
Optional. The lower limit of the plot if supplied by the user. |
lim.sup |
Optional. The upper limit of the plot if supplied by the user. |
main |
Optional. Character string to title the plot. By default no main title is given. |
xlab |
Optional. Character string to indicate the label of the horizontal axis. |
ylab |
Optional. Character string to indicate the label of the vertical axis. |
color |
Optional. Color for the IPW Boxplot. |
Details
The function draws boxplots designed to adjust both for skewness and missingness. The drop-out probabilities can be supplied by the user or estimated through a logistic model from given covariates.
The function plots as default a modified boxplot based on the inverse probability weighted (IPW) quantiles adapting for missing observations as in Zhang et al.(2012), but using a correction factor to adjust for skewness. For that purpose, the function incorporates a skewness measure to compute the whiskers and the outlier cut–off values in a similar way to that considered in Hubert and Vandervieren (2008).
The argument method selects quartiles (method="quartile") or octiles (method="octile") to calculate the skewness measure SKEW, respectively, as
SKEW=\frac{(Q_{0.75}-Q_{0.5})-(Q_{0.5}-Q_{25})}{(Q_{0.75}-Q_{0.25})},
SKEW=\frac{(Q_{0.875}-Q_{0.5})-(Q_{0.5}-Q_{0.125})}{(Q_{0.875}-Q_{0.125})},
where Q\alpha denotes the \alpha-quantile.
The whiskers and the outlier cut–off values are computed by means of an exponential model in the fashion of Hubert and Vandervieren (2008) taking into account the interval:
(Q_{0.25}-1.5*\exp{(c_i*SKEW)}*IQR,Q_{0.75}+1.5*\exp{(c_s*SKEW)}*IQR),
where IQR=Q_{0.75}-Q_{0.25} and c_i=ctea and c_s=cteb if SKEW is positive, otherwise, c_i=-cteb and c_s=-ctea.
The default values for ctea and cteb are -4 and 3, however, the user may choose other values for these constants.
By specifying graph = "both", the function displays two parallel modified boxplots. The boxplot on the left corresponds to the IPW boxplot adapted for missingness and skewness, while that on the right, to its naive counterpart which is simply based on the observations y at hand without any correction for missingness.
The user can supply a vector of drop-out probabilities px or a set of covariates x to estimate the propensity.
When both px and x are supplied, the IPW.ASYM.boxplot is executed using px. When px is not given, it is estimated assuming a logistic model depending on the covariates x .
For more details, see Bianco et al. (2018).
Value
The output of the function is a list with components:
px |
Numerical vector of drop-out probabilities. |
IPW.Quartiles |
Numerical vector of inverse probability weighted quartiles. |
IPW.whisker |
Numerical vector of lower and upper whiskers calculated from IPW quantiles. |
out.IPW |
Numerical vector of data points detected as atypical by the IPW boxplot adapted to skewness. |
SKEW.IPW |
Skewness measure based on the IPW quartiles (method="quartile") or IPW octiles (method="octile"). |
NAIVE.Quartiles |
Numerical vector of naive quartiles computed from the subset of non-missing values of |
NAIVE.whisker |
Numerical vector of lower and upper whiskers obtained from the naive quantiles. Returned only when graph="both". |
out.NAIVE |
Numerical vector of data points detected as atypical by the naive boxplot. Returned only when graph="both". |
SKEW.NAIVE |
Skewness measure based on the naive quartiles (method="quartile") or Naive octiles (method="octile"), computed from the subset of non-missing values of |
Note
The missing values of y must be codified as NA or NAN.
The numerical vector px and the matrix of covariates x must be fully observed. px or x must be supplied by the user.
The lengths of y, px, and nrow(x) must be equal.
Author(s)
Ana Maria Bianco <abianco@dm.uba.ar>, Graciela Boente <gboente@dm.uba.ar> and Ana Perez-Gonzalez <anapg@uvigo.es>.
References
Bianco, A. M., Boente, G., and Perez-Gonzalez, A. (2018). A boxplot adapted to missing values: an R function when predictive covariates are available. Submitted.
Hubert, M. and Vandervieren, E. (2008). An adjusted boxplot for skewed distributions. Computational Statistics & Data Analysis, 52, 5186-5201.
Zhang, Z., Chen, Z., Troendle, J. F. and Zhang, J. (2012). Causal inference on quantiles with an obstetric application. Biometrics, 68, 697-706.
See Also
IPW.quantile, IPW.Boxplot
Examples
## A real data example
library(mice)
data(boys)
attach(boys)
# The function plots the IPW boxplot adapted to skewness.
# Some statistical summaries computed using the inverse probability weighting approach
# are also returned.
res1=IPW.ASYM.boxplot(hc,x=age,main="IPW boxplot adjusted for skewness of the head circumference")
# We can compare the naive and IPW approaches. We also can consider the skewness measure computed
# using the quartiles (as default).
res2=IPW.ASYM.boxplot(hc,x=age,method="quartile",graph="both",main=" ")
# The results obtained if the skewness measure is computed with the octiles (method="octile") are:
res3=IPW.ASYM.boxplot(hc,x=age,method="octile",graph="both",main=" ")
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