Please use this identifier to cite or link to this item: https://hdl.handle.net/10419/192394 
Year of Publication: 
2005
Series/Report no.: 
Discussion Papers No. 412
Publisher: 
Statistics Norway, Research Department, Oslo
Abstract: 
We consider concepts and models that are useful for measuring how strongly the distribution of a positive response Y is concentrated near a value with a focus on how concentration varies as a function of covariates. We combine ideas from statistics, economics and reliability theory. Lorenz introduced a device for measuring inequality in the distribution of incomes that indicate how much the incomes below the uth quantile fall short of the egalitarian situation where everyone has the same income. Gini introduced an index that is the average over u of the difference between the Lorenz curve and its values in the egalitarian case. More generally, we can think of the Lorenz and Gini concepts as measures of concentration that applies to other response variables in addition to incomes, e.g. wealth, sales, dividends, taxes, test scores, precipitation, and crop yield. In this paper we propose modified versions of the Lorenz and Gini measures of concentration that we relate to statistical concepts of dispersion. Moreover, we consider the situation where the measures of concentration/dispersion are functions of covariates. We consider the estimation of these functions for parametric models and a semiparametric model involving regression coefficients and an unknown baseline distribution. In this semiparametric model, which combines ideas from Pareto, Lehmann and Cox, we find partial likelihood estimates of the regression coefficients and the baseline distribution that can be used to construct estimates of the various measures of concentration/dispersion.
Subjects: 
Spread
concentration
Lorenz curve
Gini index
Lehmann model
Cox regression
Pareto model.
JEL: 
C14
D31
D63
Document Type: 
Working Paper

Files in This Item:
File
Size
299.2 kB





Items in EconStor are protected by copyright, with all rights reserved, unless otherwise indicated.