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Gender wage difference estimation at quantile levels using sample survey data and multiple imputation
Auteur(s)
Date de parution
2023-08-17
Résumé
The presentation is motivated by the growing interest in estimating gender wage differences in
official statistics. The wage of an employee is hypothetically a reflection of their characteristics,
such as the education level or the work experience. It is possible that men and women, with the
same characteristics obtain different wages. The gender wage differences are usually estimated
at the mean level (see Blinder, 1973: J Hum Resour, 8, 436–455; Oaxaca, 1973: Int Econ Rev, 14,
693–709). Our goal is to estimate the differences between wages at different quantiles, using
sample survey data into a super-population framework. To do this we use a parametric approach
based on conditional distributions of the wages in function of some auxiliary information, as well
as a counterfactual distribution (see Biewen and Jenkins, 2005: Empir Econ, 30, 331-358). The
counterfactual distribution can be interpreted as an imputed distribution. It is constructed here
by using a reweighting approach (see Fortin et al., 2011: Handbook of Labor Economics, 4, 1-102)
based on calibration (see Anastasiade and Tillé, 2017: Surv Methodol, 43, 211-235). We use methods
inspired from multiple imputation to estimate the quantiles of the wage distributions, as well
as those of the counterfactual distribution. We show in our simulation studies that the use of
auxiliary information well correlated with the wages reduces the variance of the counterfactual
quantile estimates compared to those of the competitors. Since, in general, wage distributions
are heavy-tailed, the interest is to model wages by using heavy-tailed distributions like the GB2
distribution. We illustrate the approach using this distribution and the wages for men and women
using simulated and real data from the Swiss Federal Statistical Office.
official statistics. The wage of an employee is hypothetically a reflection of their characteristics,
such as the education level or the work experience. It is possible that men and women, with the
same characteristics obtain different wages. The gender wage differences are usually estimated
at the mean level (see Blinder, 1973: J Hum Resour, 8, 436–455; Oaxaca, 1973: Int Econ Rev, 14,
693–709). Our goal is to estimate the differences between wages at different quantiles, using
sample survey data into a super-population framework. To do this we use a parametric approach
based on conditional distributions of the wages in function of some auxiliary information, as well
as a counterfactual distribution (see Biewen and Jenkins, 2005: Empir Econ, 30, 331-358). The
counterfactual distribution can be interpreted as an imputed distribution. It is constructed here
by using a reweighting approach (see Fortin et al., 2011: Handbook of Labor Economics, 4, 1-102)
based on calibration (see Anastasiade and Tillé, 2017: Surv Methodol, 43, 211-235). We use methods
inspired from multiple imputation to estimate the quantiles of the wage distributions, as well
as those of the counterfactual distribution. We show in our simulation studies that the use of
auxiliary information well correlated with the wages reduces the variance of the counterfactual
quantile estimates compared to those of the competitors. Since, in general, wage distributions
are heavy-tailed, the interest is to model wages by using heavy-tailed distributions like the GB2
distribution. We illustrate the approach using this distribution and the wages for men and women
using simulated and real data from the Swiss Federal Statistical Office.
Nom de l'événement
8th Italian Conference on Survey Methodology (Itacosm, June 2023)
Lieu
University of Calabria, Italy
Identifiants
Autre version
http://meetings3.sis-statistica.org/index.php/itacosm2023/index/pages/view/boa
Type de publication
conference presentation
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