Hostname: page-component-586b7cd67f-g8jcs Total loading time: 0 Render date: 2024-11-22T04:22:28.688Z Has data issue: false hasContentIssue false
  • English
  • Français

ASYMPTOTICALLY EFFICIENT ESTIMATION OF WEIGHTED AVERAGE DERIVATIVES WITH AN INTERVAL CENSORED VARIABLE

Published online by Cambridge University Press:  23 September 2016

Hiroaki Kaido
Hiroaki Kaido*
Affiliation:
Boston University
*
*Address correspondence to Hiroaki Kaido, Dept. of Economics, Boston University 270 Bay State Road, Boston, MA 02215, USA; e-mail: [email protected].
Get access Rights & Permissions [Opens in a new window]

Abstract

This paper studies the identification and estimation of weighted average derivatives of conditional location functionals including conditional mean and conditional quantiles in settings where either the outcome variable or a regressor is interval-valued. Building on Manski and Tamer (2002, Econometrica 70(2), 519–546) who study nonparametric bounds for mean regression with interval data, we characterize the identified set of weighted average derivatives of regression functions. Since the weighted average derivatives do not rely on parametric specifications for the regression functions, the identified set is well-defined without any functional-form assumptions. Under general conditions, the identified set is compact and convex and hence admits characterization by its support function. Using this characterization, we derive the semiparametric efficiency bound of the support function when the outcome variable is interval-valued. Using mean regression as an example, we further demonstrate that the support function can be estimated in a regular manner by a computationally simple estimator and that the efficiency bound can be achieved.

Type
ARTICLES
Information
Econometric Theory , Volume 33 , Issue 5 , October 2017 , pp. 1218 - 1241
Copyright
Copyright © Cambridge University Press 2016 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

Footnotes

The author thanks the editor and anonymous referees for comments that helped improve this paper. The author thanks Iván Fernández-Val, Arthur Lewbel, Francesca Molinari, Pierre Perron, Zhongjun Qu, Andres Santos, Jörg Stoye, and seminar participants at BU, Cornell, Brown, Yale and participants of BU-BC Joint Econometrics Conference, the CEMMAP Workshop (New Developments in the Use of Random Sets in Economics), the 2012 International Symposium on Econometric Theory and Applications, and CEME 2014 for helpful comments. The author acknowledges excellent research assistance from Michael Gechter. Financial support from NSF Grants SES-1230071 and SES-1357643 is gratefully acknowledged.

References

REFERENCES

Beresteanu, A., Molchanov, I., & Molinari, F. (2011) Sharp identification regions in models with convex predictions. Econometrica 79(6), 17851821.Google Scholar
Beresteanu, A. & Molinari, F. (2008) Asymptotic properties for a class of partially identified models. Econometrica 76(4), 763814.CrossRefGoogle Scholar
Bickel, P.J., Klassen, C.A., Ritov, Y., & Wellner, J.A. (1993) Efficient and Adaptive Estimation for Semiparametric Models. Springer.Google Scholar
Blundell, R., Kristensen, D., & Matzkin, R. (2014) Bounding quantile demand functions using revealed preference inequalities. Journal of Econometrics 179(2), 112127.CrossRefGoogle Scholar
Bugni, F.A., Canay, I.A., & Shi, X. (2016) Inference for subvectors and other functions of partially identified parameters in moment inequality models. Quantitative Economics, first published online 12 February 2016.Google Scholar
Carneiro, P., Heckman, J.J., & Vytlacil, E. (2010) Evaluating marginal policy changes and the average effect of treatment for individuals at the margin. Econometrica 78(1), 377394.Google ScholarPubMed
Cattaneo, M.D., Crump, R.K., & Jansson, M. (2010) Robust data-driven inference for density-weighted average derivatives. Journal of the American Statistical Association 105(491), 10701083.CrossRefGoogle Scholar
Cattaneo, M.D., Crump, R.K., & Jansson, M. (2013) Small bandwidth asymptotics for density-weighted average derivatives. Econometric Theory 30, 125.Google Scholar
Chandrasekhar, A., Chernozhukov, V., Molinari, F., & Schrimpf, P. (2011) Inference for Best Linear Approximations to Set Identified Functions. Discussion paper, University of British Columbia.Google Scholar
Chaudhuri, P., Doksum, K., & Samarov, A. (1997) On average derivative quantile regression. The Annals of Statistics 25(2), 715744.Google Scholar
Chernozhukov, V., Hong, H., & Tamer, E. (2007) Estimation and confidence regions for parameter sets in econometric models. Econometrica 75(5), 12431284.CrossRefGoogle Scholar
Chernozhukov, V., Kocatulum, E., & Menzel, K. (2015) Inference on sets in finance. Quantitative Economics 6(2), 309358.Google Scholar
Chernozhukov, V., Lee, S., & Rosen, A. (2013) Intersection bounds: Estimation and inference. Econometrica 81(2), 667737.Google Scholar
Crossley, T.F. & Pendakur, K.M. (2010) The common-scaling social cost of living index. Journal of Business and Economic Statistics 28(4), 523538.Google Scholar
Deaton, A. & Ng, S. (1998) Parametric and nonparametric approaches to price and tax reform. Journal of the American Statistical Association 93(443), 900909.CrossRefGoogle Scholar
Härdle, W. & Stoker, T. (1989) Investigating smooth multiple regression by the method of average derivatives. Journal of the American Statistical Association 84(408), 986995.Google Scholar
Hirano, K. & Porter, J.R. (2012) Impossibility results for nondifferentiable functionals. Econometrica 80(4), 17691790.Google Scholar
Horowitz, J.L. (1996) Semiparametric estimation of a regression model with an unknown transformation of the dependent variable. Econometrica 64(1), 103137.CrossRefGoogle Scholar
Ichimura, H. (1993) Semiparametric least squares (SLS) and weighted SLS estimation of single-index models. Journal of Econometrics 58(1–2), 71120.CrossRefGoogle Scholar
Kaido, H. (2016) A dual approach to inference for partially identified models. Journal of Econometrics 192, 269290.CrossRefGoogle Scholar
Kaido, H., Molinari, F., & Stoye, J. (2016) Confidence Intervals for Projections of Partially Identified Parameters. Working paper, Boston University.CrossRefGoogle Scholar
Kaido, H. & Santos, A. (2014) Asymptotically efficient estimation of models defined by convex moment inequalities. Econometrica 82(1), 387413.Google Scholar
Klein, R. & Spady, R. (1993) An efficient semiparametric estimator for binary response models. Econometrica 61(2), 387421.CrossRefGoogle Scholar
Lewbel, A. (1995) Consistent nonparametric hypothesis tests with an application to Slutsky symmetry. Journal of Econometrics 67, 379401.CrossRefGoogle Scholar
Lewbel, A. (2000) Asymptotic Trimming for Bounded Density Plug-in Estimators. Discussion paper, Boston College.Google Scholar
Manski, C.F. & Tamer, E. (2002) Inference on regressions with interval data on a regressor or outcome. Econometrica 70(2), 519546.CrossRefGoogle Scholar
Milgrom, P. & Segal, I. (2002) Envelope theorems for arbitrary choice sets. Econometrica 70(2), 583601.CrossRefGoogle Scholar
Newey, W. & Stoker, T. (1993) Efficiency of weighted average derivative estimators and index models. Econometrica 61(5), 11991223.CrossRefGoogle Scholar
Nishiyama, Y. & Robinson, P. (2000) Edgeworth expansions for semiparametric averaged derivatives. Econometrica 68(4), 931979.CrossRefGoogle Scholar
Ponomareva, M. & Tamer, E. (2011) Misspecification in moment inequality models: Back to moment equalities? The Econometrics Journal 14(2), 186203.CrossRefGoogle Scholar
Powell, J., Stock, J., & Stoker, T. (1989) Semiparametric estimation of index coefficients. Econometrica 57(6), 14031430.CrossRefGoogle Scholar
Sherman, R.P. (1994) U-processes in the analysis of a generalized semiparametric regression estimator. Econometric Theory 10, 372–372.Google Scholar
Song, K. (2014) Local asymptotic minimax estimation of nonregular parameters with translation-scale equivariant maps. Journal of Multivariate Analysis 125, 136158.CrossRefGoogle Scholar
Stoker, T. (1986) Consistent estimation of scaled coefficients. Econometrica 54(6), 14611481.CrossRefGoogle Scholar
Supplementary material: PDF

Kaido supplementary material

Kaido supplementary material 1

Download Kaido supplementary material(PDF)
PDF 548.6 KB