YALE DEPARTMENT OF ECONOMICS
WORKING PAPER NO. 42
SEMIPARAMETRIC EFFICIENCY IN GMM MODELS
OF NONCLASSICAL MEASUREMENT ERRORS,
MISSING DATA AND TREATMENT EFFECTS
Xiaohong Chen, Han Hong, and Alessandro Tarozzi
March 2008
We study semiparametric efficiency bounds and efficient estimation of
parameters defined through general nonlinear, possibly non-smooth and over-identified
moment restrictions, where the sampling information consists of a primary sample and an
auxiliary sample. The variables of interest in the moment conditions are not directly
observable in the primary data set, but the primary data set contains proxy variables
which are correlated with the variables of interest. The auxiliary data set contains
information about the conditional distribution of the variables of interest given the
proxy variables. Identification is achieved by the assumption that this conditional
distribution is the same in both the primary and auxiliary data sets. We provide
semiparametric efficiency bounds for both the "verify-out-of-sample" case, where
the two samples are independent, and the "verify-in-sample" case, where the
auxiliary sample is a subset of the primary sample; and the bounds are derived when the
propensity score is unknown, or known, or belongs to a correctly specified parametric
family. These efficiency variance bounds indicate that the propensity score is ancillary
for the "verify-in-sample" case, but is not ancillary for the
"verify-out-of-sample" case. We show that sieve conditional expectation
projection based GMM estimators achieve the semiparametric efficiency bounds for all the
above mentioned cases, and establish their asymptotic efficiency under mild regularity
conditions. Although inverse probability weighting based GMM estimators are also shown to
be semiparametrically efficient, they need stronger regularity conditions and clever
combinations of nonparametric and parametric estimates of the propensity score to achieve
the efficiency bounds for various cases. Our results contribute to the literature on
non-classical measurement error models, missing data and treatment effects.
JEL Classification: C1, C3
Keywords: Auxiliary data, Measurement error, Missing data, Treatment effect,
Semiparametric efficiency bound, GMM, Sieve estimation