ipf_step: Perform one step of iterative proportional updating
In surveysd: Survey Standard Error Estimation for Cumulated Estimates and their Differences in Complex Panel Designs
ipf_step R Documentation
Perform one step of iterative proportional updating
Description
C++ routines to invoke a single iteration of the Iterative proportional updating (IPU) scheme. Targets and classes
are assumed to be one dimensional in the ipf_step functions. combine_factors aggregates several vectors of
type factor into a single one to allow multidimensional ipu-steps. See examples.
Usage
ipf_step_ref(w, classes, targets)
ipf_step(w, classes, targets)
ipf_step_f(w, classes, targets)
combine_factors(dat, targets)
Arguments
w
a numeric vector of weights. All entries should be positive.
classes
a factor variable. Must have the same length as w.
targets
key figure to target with the ipu scheme. A numeric verctor of the same length as levels(classes).
This can also be a table produced by xtabs. See examples.
dat
a data.frame containing the factor variables to be combined.
Details
ipf_step returns the adjusted weights. ipf_step_ref does the same, but updates w by reference rather than
returning. ipf_step_f returns a multiplicator: adjusted weights divided by unadjusted weights. combine_factors is
designed to make ipf_step work with contingency tables produced by xtabs.
Examples
############# one-dimensional ipu ##############
## create random data
nobs <- 10
classLabels <- letters[1:3]
dat = data.frame(
weight = exp(rnorm(nobs)),
household = factor(sample(classLabels, nobs, replace = TRUE))
)
dat
## create targets (same lenght as classLabels!)
targets <- 3:5
## calculate weights
new_weight <- ipf_step(dat$weight, dat$household, targets)
cbind(dat, new_weight)
## check solution
xtabs(new_weight ~ dat$household)
## calculate weights "by reference"
ipf_step_ref(dat$weight, dat$household, targets)
dat
############# multidimensional ipu ##############
## load data
factors <- c("time", "sex", "smoker", "day")
tips <- data.frame(sex=c("Female","Male","Male"), day=c("Sun","Mon","Tue"),
time=c("Dinner","Lunch","Lunch"), smoker=c("No","Yes","No"))
tips <- tips[factors]
## combine factors
con <- xtabs(~., tips)
cf <- combine_factors(tips, con)
cbind(tips, cf)[sample(nrow(tips), 10, replace = TRUE),]
## adjust weights
weight <- rnorm(nrow(tips)) + 5
adjusted_weight <- ipf_step(weight, cf, con)
## check outputs
con2 <- xtabs(adjusted_weight ~ ., data = tips)
sum((con - con2)^2)
surveysd documentation built on Dec. 28, 2022, 2:15 a.m.
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| ipf_step | R Documentation |
Perform one step of iterative proportional updating
Description
C++ routines to invoke a single iteration of the Iterative proportional updating (IPU) scheme. Targets and classes
are assumed to be one dimensional in the ipf_step functions. combine_factors aggregates several vectors of
type factor into a single one to allow multidimensional ipu-steps. See examples.
Usage
ipf_step_ref(w, classes, targets) ipf_step(w, classes, targets) ipf_step_f(w, classes, targets) combine_factors(dat, targets)
Arguments
w |
a numeric vector of weights. All entries should be positive. |
classes |
a factor variable. Must have the same length as |
targets |
key figure to target with the ipu scheme. A numeric verctor of the same length as |
dat |
a |
Details
ipf_step returns the adjusted weights. ipf_step_ref does the same, but updates w by reference rather than
returning. ipf_step_f returns a multiplicator: adjusted weights divided by unadjusted weights. combine_factors is
designed to make ipf_step work with contingency tables produced by xtabs.
Examples
############# one-dimensional ipu ##############
## create random data
nobs <- 10
classLabels <- letters[1:3]
dat = data.frame(
weight = exp(rnorm(nobs)),
household = factor(sample(classLabels, nobs, replace = TRUE))
)
dat
## create targets (same lenght as classLabels!)
targets <- 3:5
## calculate weights
new_weight <- ipf_step(dat$weight, dat$household, targets)
cbind(dat, new_weight)
## check solution
xtabs(new_weight ~ dat$household)
## calculate weights "by reference"
ipf_step_ref(dat$weight, dat$household, targets)
dat
############# multidimensional ipu ##############
## load data
factors <- c("time", "sex", "smoker", "day")
tips <- data.frame(sex=c("Female","Male","Male"), day=c("Sun","Mon","Tue"),
time=c("Dinner","Lunch","Lunch"), smoker=c("No","Yes","No"))
tips <- tips[factors]
## combine factors
con <- xtabs(~., tips)
cf <- combine_factors(tips, con)
cbind(tips, cf)[sample(nrow(tips), 10, replace = TRUE),]
## adjust weights
weight <- rnorm(nrow(tips)) + 5
adjusted_weight <- ipf_step(weight, cf, con)
## check outputs
con2 <- xtabs(adjusted_weight ~ ., data = tips)
sum((con - con2)^2)
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