%0 Journal Article
%J Econometrica
%D 2002
%T Inference on Regressions with Interval Data on a Regressor or Outcome
%A Charles F Manski
%A Tamer, Elie
%K Identification
%K interval data
%K Regression Analysis
%X This paper examines inference on regressions when interval data are available on one variable, the other variables being measured precisely. Let a population be characterized by a distribution P(y, x, v, v0, v1), where y ε R1, x ε Rk, and the real variables (v, v0, v1) satisfy v0 ≤ v ≤ v1. Let a random sample be drawn from P and the realizations of (y, x, v0, v1) be observed, but not those of v. The problem of interest may be to infer E(y|x, v) or E(v|x). This analysis maintains Interval (I), Monotonicity (M), and Mean Independence (MI) assumptions: (I) P(v0 ≤ v ≤ v1) = 1; (M)E(y|x, v) is monotone in v; (MI) E(y|x, v, v0, v1) = E(y|x, v). No restrictions are imposed on the distribution of the unobserved values of v within the observed intervals [v0, v1]. It is found that the IMMI Assumptions alone imply simple nonparametric bounds on E(y|x, v) and E(v|x). These assumptions invoked when y is binary and combined with a semiparametric binary regression model yield an identification region for the parameters that may be estimated consistently by a modified maximum score (MMS) method. The IMMI assumptions combined with a parametric model for E(y|x, v) or E(v|x) yield an identification region that may be estimated consistently by a modified minimum-distance (MMD) method. Monte Carlo methods are used to characterize the finite-sample performance of these estimators. Empirical case studies are performed using interval wealth data in the Health and Retirement Study and interval income data in the Current Population Survey.
%B Econometrica
%I 70
%V 70
%P 519-46
%G eng
%N 2
%L pubs_2002_Manski_CEcmetrica.pdf
%4 Econometric Methods: Single Equation Models: General/Regression
%$ 1068
%R https://doi.org/10.1111/1468-0262.00294