| svygini {convey} | R Documentation |
Gini coefficient
Description
Estimate the Gini coefficient, an inequality measure
Usage
svygini(formula, design, ...)
## S3 method for class 'survey.design'
svygini(
formula,
design,
na.rm = FALSE,
deff = FALSE,
linearized = FALSE,
influence = FALSE,
...
)
## S3 method for class 'svyrep.design'
svygini(
formula,
design,
na.rm = FALSE,
deff = FALSE,
linearized = FALSE,
return.replicates = FALSE,
...
)
## S3 method for class 'DBIsvydesign'
svygini(formula, design, ...)
Arguments
formula |
a formula specifying the income variable |
design |
a design object of class |
... |
future expansion |
na.rm |
Should cases with missing values be dropped? |
deff |
Return the design effect (see |
linearized |
Should a matrix of linearized variables be returned |
influence |
Should a matrix of (weighted) influence functions be returned? (for compatibility with |
return.replicates |
Return the replicate estimates? |
Details
you must run the convey_prep function on your survey design object immediately after creating it with the svydesign or svrepdesign function.
Value
Object of class "cvystat", which are vectors with a "var" attribute giving the variance and a "statistic" attribute giving the name of the statistic.
Author(s)
Djalma Pessoa, Guilherme Jacob, and Anthony Damico
References
Guillaume Osier (2009). Variance estimation for complex indicators of poverty and inequality. Journal of the European Survey Research Association, Vol.3, No.3, pp. 167-195, ISSN 1864-3361, URL https://ojs.ub.uni-konstanz.de/srm/article/view/369.
Jean-Claude Deville (1999). Variance estimation for complex statistics and estimators: linearization and residual techniques. Survey Methodology, 25, 193-203, URL https://www150.statcan.gc.ca/n1/en/catalogue/12-001-X19990024882.
See Also
Examples
library(survey)
library(laeken)
data(eusilc) ; names( eusilc ) <- tolower( names( eusilc ) )
# linearized design
des_eusilc <- svydesign( ids = ~rb030 , strata = ~db040 , weights = ~rb050 , data = eusilc )
des_eusilc <- convey_prep(des_eusilc)
svygini( ~eqincome , design = des_eusilc )
# replicate-weighted design
des_eusilc_rep <- as.svrepdesign( des_eusilc , type = "bootstrap" )
des_eusilc_rep <- convey_prep(des_eusilc_rep)
svygini( ~eqincome , design = des_eusilc_rep )
## Not run:
# linearized design using a variable with missings
svygini( ~ py010n , design = des_eusilc )
svygini( ~ py010n , design = des_eusilc , na.rm = TRUE )
# replicate-weighted design using a variable with missings
svygini( ~ py010n , design = des_eusilc_rep )
svygini( ~ py010n , design = des_eusilc_rep , na.rm = TRUE )
# database-backed design
library(RSQLite)
library(DBI)
dbfile <- tempfile()
conn <- dbConnect( RSQLite::SQLite() , dbfile )
dbWriteTable( conn , 'eusilc' , eusilc )
dbd_eusilc <-
svydesign(
ids = ~rb030 ,
strata = ~db040 ,
weights = ~rb050 ,
data="eusilc",
dbname=dbfile,
dbtype="SQLite"
)
dbd_eusilc <- convey_prep( dbd_eusilc )
svygini( ~ eqincome , design = dbd_eusilc )
dbRemoveTable( conn , 'eusilc' )
dbDisconnect( conn , shutdown = TRUE )
## End(Not run)