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AVERAGE DERIVATIVES FOR HAZARD FUNCTIONS

Published online by Cambridge University Press:  08 June 2004

Tue Gørgens
Tue Gørgens
Affiliation:
Australian National University
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Abstract

This paper develops semiparametric kernel-based estimators of risk-specific hazard functions for competing risks data. Both discrete and continuous failure times are considered. The maintained assumption is that the hazard function depends on explanatory variables only through an index. In contrast to existing semiparametric estimators, proportional hazards is not assumed. The new estimators are asymptotically normally distributed. The estimator of index coefficients is root-n consistent. The estimator of hazard functions achieves the one-dimensional rate of convergence. Thus the index assumption eliminates the “curse of dimensionality.” The estimators perform well in Monte Carlo experiments.I thank Denise Doiron for stimulating my interest in this research project and Catherine de Fontenay, Hans Christian Kongsted, Lars Muus, seminar participants, and two anonymous referees for comments on an earlier version of the paper. I gratefully acknowledge the hospitality of the University of Aarhus and the University of Copenhagen, where part of this research was undertaken.

Type
Research Article
Information
Econometric Theory , Volume 20 , Issue 3 , June 2004 , pp. 437 - 463
Copyright
© 2004 Cambridge University Press

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References

REFERENCES

Ai, C. (1997) A semiparametric maximum likelihood estimator. Econometrica 65, 933963.Google Scholar
Andersen, P.K., Ø. Borgan, R.D. Gill, & N. Keiding (1993) Statistical Models Based on Counting Processes. Springer-Verlag.
Beran, R. (1981) Nonparametric Regression with Randomly Censored Survival Data. Technical report, Department of Statistics, University of California, Berkeley.
Carling, K., P.-A. Edin, A. Harkman, & B. Holmlund (1996) Unemployment duration, unemployment benefits, and labor market programs in Sweden. Journal of Public Economics 59, 313334.Google Scholar
Cox, D.R. (1972) Regression models and life tables. Journal of the Royal Statistical Society, Series B 34, 187220.Google Scholar
Cox, D.R. (1975) Partial likelihood. Biometrika 62, 269276.Google Scholar
Cox, D.R. & D. Oakes (1984) Analysis of Survival Data. Chapman and Hall.
Dabrowska, D.M. (1987) Nonparametric regression with censored survival time data. Scandinavian Journal of Statistics: Theory and Applications 14, 181197.Google Scholar
Dabrowska, D.M. (1989) Uniform consistency of the kernel conditional Kaplan-Meier estimate. Annals of Statistics 17, 11571167.Google Scholar
Fallick, B.C. (1993) The industrial mobility of displaced workers. Journal of Labor Economics 11, 302323.Google Scholar
Fleming, T.R. & D.P. Harrington (1991) Counting Processes and Survival Analysis. Wiley.
Gørgens, T. & J. Horowitz (1999) Semiparametric estimation of a censored regression model with an unknown transformation of the dependent variable. Journal of Econometrics 90, 155191.Google Scholar
Grambsch, P.M. & T.M. Therneau (1994) Proportional hazards tests and diagnostics based on weighted residuals. Biometrika 81, 515526.Google Scholar
Han, A.K. (1987) Non-parametric analysis of a generalized regression model. Journal of Econometrics 35, 303316.Google Scholar
Härdle, W. & T. M. Stoker (1989) Investigating smooth multiple regression by the method of average derivatives. Journal of the American Statistical Association 84, 986995.Google Scholar
Härdle, W. & A.B. Tsybakov (1993) How sensitive are average derivatives? Journal of Econometrics 58, 3148.Google Scholar
Hastie, T. & R. Tibshirani (1990) Exploring the nature of covariate effects in the proportional hazards model. Biometrics 46, 10051016.Google Scholar
Henley, A. (1998) Residential mobility, housing equity, and the labour market. Economic Journal 108, 414427.Google Scholar
Horowitz, J.L. (1999) Semiparametric estimation of a proportional hazard model with unobserved heterogeneity. Econometrica 67, 10011028.Google Scholar
Horowitz, J.L. & G.R. Neumann (1992) A generalized moments specification test of the proportional hazards model. Journal of the American Statistical Association 87, 234240.Google Scholar
Ichimura, H. (1993) Semiparametric least squares (SLS) and weighted SLS estimation of single index models. Journal of Econometrics 58, 71120.Google Scholar
Kalbfleisch, J.D. & R.L. Prentice (1980) The Statistical Analysis of Failure Time Data. Wiley.
Koop, G. & C.J. Ruhm (1993) Econometric estimation of proportional hazard models. Journal of Economics and Business 45, 421430.Google Scholar
Lancaster, T. (1990) The Econometric Analysis of Transition Data. Cambridge University Press.
Li, G. & H. Doss (1995) An approach to nonparametric regression for life history data using local linear fitting. Annals of Statistics 23, 787823.Google Scholar
McCall, B.P. (1994) Testing the proportional hazards assumption in the presence of unmeasured heterogeneity. Journal of Applied Econometrics 9, 321334.Google Scholar
McKeague, I.W. & K.J. Utikal (1990) Inference for a nonlinear counting process regression model. Annals of Statistics 18, 11721187.Google Scholar
Nielsen, J.P. (1998) Marker dependent kernel hazard estimation from local linear estimation. Scandinavian Actuarial Journal 1998(2), 113124.Google Scholar
Nielsen, J.P. & O.B. Linton (1995) Kernel estimation in a nonparametric marker dependent hazard model. Annals of Statistics 23, 17351748.Google Scholar
Nielsen, J.P., O. Linton, & P.J. Bickel (1998) On a semiparametric survival model with flexible covariate effect. Annals of Statistics 26, 215241.Google Scholar
Nielsen, J.P. & C. Tanggaard (2001) Boundary and bias correction in kernel hazard estimation. Scandinavian Journal of Statistics 28, 675698.Google Scholar
Powell, J.L., J.H. Stock, & T.M. Stoker (1989) Semiparametric estimation of index coefficients. Econometrica 57, 14031430.Google Scholar
Powell, J.L. & T.M. Stoker (1996) Optimal bandwidth choice for density-weighted averages. Journal of Econometrics 75, 291316.Google Scholar
Ridder, G. (1990) The non-parametric identification of generalized accelerated failure-time models. Review of Economic Studies 57, 16781.Google Scholar
Salzberger, E. & P. Fenn (1999) Judicial independence: Some evidence from the English Court of Appeal. Journal of Law and Economics 42, 831847.Google Scholar
Santarelli, E. (2000) The duration of new firms in banking: An application of Cox regression analysis. Empirical Economics 25, 315325.Google Scholar
Sherman, R.P. (1993) The limiting distribution of the maximum rank correlation estimator. Econometrica 61, 123137.Google Scholar
Stancanelli, E.G.F. (1999) Do the rich stay unemployed longer? An empirical study for the UK. Oxford Bulletin of Economics and Statistics 61, 295314.Google Scholar