Function to perform various methods of microaggregation.
microaggregation(
obj,
variables = NULL,
aggr = 3,
strata_variables = NULL,
method = "mdav",
weights = NULL,
nc = 8,
clustermethod = "clara",
measure = "mean",
trim = 0,
varsort = 1,
transf = "log"
)
If ‘obj’ was of class sdcMicroObj-class
the corresponding
slots are filled, like manipNumVars, risk and utility. If ‘obj’ was
of class “data.frame”, an object of class “micro” with following entities is returned:
x
: original data
mx
: the microaggregated dataset
method
: method
aggr
: aggregation level
measure
: proximity measure for aggregation
either an object of class sdcMicroObj-class
or a data.frame
variables to microaggregate. For NULL
: If obj is of class
sdcMicroObj, all numerical key variables are chosen per default. For
data.frames
, all columns are chosen per default.
aggregation level (default=3)
for data.frames
, by-variables for applying microaggregation only
within strata defined by the variables. For sdcMicroObj-class
-objects, the
stratification-variable defined in slot @strataVar
is used. This slot can be changed any
time using strataVar<-
.
pca, rmd, onedims, single, simple, clustpca, pppca, clustpppca, mdav, clustmcdpca, influence, mcdpca
sampling weights. If obj is of class sdcMicroObj the vector of sampling weights is chosen automatically. If determined, a weighted version of the aggregation measure is chosen automatically, e.g. weighted median or weighted mean.
number of cluster, if the chosen method performs cluster analysis
clustermethod, if necessary
aggregation statistic, mean, median, trim, onestep (default=mean)
trimming percentage, if measure=trim
variable for sorting, if method=single
transformation for data x
Matthias Templ, Bernhard Meindl
For method “mdav”: This work is being supported by the International Household Survey Network (IHSN) and funded by a DGF Grant provided by the World Bank to the PARIS21 Secretariat at the Organisation for Economic Co-operation and Development (OECD). This work builds on previous work which is elsewhere acknowledged.
Author for the integration of the code for mdav in R: Alexander Kowarik.
On https://research.cbs.nl/casc/glossary.htm one can found the “official” definition of microaggregation:
Records are grouped based on a proximity measure of variables of interest, and the same small groups of records are used in calculating aggregates for those variables. The aggregates are released instead of the individual record values.
The recommended method is “rmd” which forms the proximity using multivariate distances based on robust methods. It is an extension of the well-known method “mdav”. However, when computational speed is important, method “mdav” is the preferable choice.
While for the proximity measure very different concepts can be used, the aggregation itself is naturally done with the arithmetic mean. Nevertheless, other measures of location can be used for aggregation, especially when the group size for aggregation has been taken higher than 3. Since the median seems to be unsuitable for microaggregation because of being highly robust, other mesures which are included can be chosen. If a complex sample survey is microaggregated, the corresponding sampling weights should be determined to either aggregate the values by the weighted arithmetic mean or the weighted median.
This function contains also a method with which the data can be clustered with a variety of different clustering algorithms. Clustering observations before applying microaggregation might be useful. Note, that the data are automatically standardised before clustering.
The usage of clustering method ‘Mclust’ requires package mclust02, which must be loaded first. The package is not loaded automatically, since the package is not under GPL but comes with a different licence.
The are also some projection methods for microaggregation included. The robust version ‘pppca’ or ‘clustpppca’ (clustering at first) are fast implementations and provide almost everytime the best results.
Univariate statistics are preserved best with the individual ranking method (we called them ‘onedims’, however, often this method is named ‘individual ranking’), but multivariate statistics are strong affected.
With method ‘simple’ one can apply microaggregation directly on the (unsorted) data. It is useful for the comparison with other methods as a benchmark, i.e. replies the question how much better is a sorting of the data before aggregation.
Templ, M. and Meindl, B., Robust Statistics Meets SDC: New Disclosure Risk Measures for Continuous Microdata Masking, Lecture Notes in Computer Science, Privacy in Statistical Databases, vol. 5262, pp. 113-126, 2008.
Templ, M. Statistical Disclosure Control for Microdata Using the R-Package sdcMicro, Transactions on Data Privacy, vol. 1, number 2, pp. 67-85, 2008. http://www.tdp.cat/issues/abs.a004a08.php
Templ, M. New Developments in Statistical Disclosure Control and Imputation: Robust Statistics Applied to Official Statistics, Suedwestdeutscher Verlag fuer Hochschulschriften, 2009, ISBN: 3838108280, 264 pages.
Templ, M. Statistical Disclosure Control for Microdata: Methods and Applications in R. Springer International Publishing, 287 pages, 2017. ISBN 978-3-319-50272-4. tools:::Rd_expr_doi("10.1007/978-3-319-50272-4") tools:::Rd_expr_doi("10.1007/978-3-319-50272-4")
Templ, M. and Meindl, B. and Kowarik, A.: Statistical Disclosure Control for Micro-Data Using the R Package sdcMicro, Journal of Statistical Software, 67 (4), 1--36, 2015.
summary.micro
, plotMicro
,
valTable
data(Tarragona)
m1 <- microaggregation(Tarragona, method='onedims', aggr=3)
## summary(m1)
data(testdata)
m2 <- microaggregation(testdata[1:100,c('expend','income','savings')],
method='mdav', aggr=4)
summary(m2)
## for objects of class sdcMicro:
## no stratification because @strataVar is NULL
data(testdata2)
sdc <- createSdcObj(testdata2,
keyVars=c('urbrur','roof','walls','water','electcon','sex'),
numVars=c('expend','income','savings'), w='sampling_weight')
sdc <- microaggregation(sdc, variables=c("expend","income"))
## with stratification by 'relat'
strataVar(sdc) <- "relat"
sdc <- microaggregation(sdc, variables=c("savings"))
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