The additive-multiplicative hazard model specifies that the hazard function for the counting process associated with a multidimensional covariate process $Z = (W^T, X^T)^T$ takes the form of $\lambda(t\mid Z) = g\{\beta^T_0 W(t)\} + \lambda_0(t)h\{\gamma^T_0X(t)\}$, where $\theta_0 = (\beta^T_0, \gamma^T_0)^T$ is a vector of unknown regression parameters, $g$ and $h$ are known link functions and $\lambda_0$ is an unspecified "baseline hazard function." In this paper, we develop a class of simple estimating functions for $\theta_0$, which contains the partial likelihood score function in the special case of proportional hazards models. The resulting estimators are shown to be consistent and asymptotically normal under appropriate regularity conditions. Weak convergence of the Aalen-Breslow type estimators for the cumulative baseline hazard function $\Lambda_0(t) = \int^t_0\lambda_0(u) du$ is also established. Furthermore, we construct adaptive estimators for $\theta_0$ and $\Lambda_0$ that achieve the (semiparametric) information bounds. Finally, a real example is provided along with some simulation results.

Publié le : 1995-10-14
Classification:  Aalen-Breslow estimator,  adaptive estimation,  asymptotic efficiency,  censoring,  Cox regression,  estimating equation,  failure time,  information bound,  martingale,  partial likelihood,  proportional hazards,  survival data,  time-dependent covariate,  62J99,  62P10

@article{1176324320,
     author = {Lin, D. Y. and Ying, Zhiliang},
     title = {Semiparametric Analysis of General Additive-Multiplicative Hazard Models for Counting Processes},
     journal = {Ann. Statist.},
     volume = {23},
     number = {6},
     year = {1995},
     pages = { 1712-1734},
     language = {en},
     url = {http://dml.mathdoc.fr/item/1176324320}
}

Lin, D. Y.; Ying, Zhiliang. Semiparametric Analysis of General Additive-Multiplicative Hazard Models for Counting Processes. Ann. Statist., Tome 23 (1995) no. 6, pp.  1712-1734. http://gdmltest.u-ga.fr/item/1176324320/