International audienceThe aim of this paper is twofold. First a new imperfect maintenance model is introduced. This model is an extension of Finkelstein’s Geometric Failure Rate Reduction model, using the modification proposed by Bordes and Mercier for extending the Geometric Process. Second, based on the observation of several systems, the semiparametric inference in this model is studied. Estimators of the euclidean and functional model parameters are derived and their asymptotic normality is proved. A simulation study is carried out to assess the behavior of these estimators for samples of small or moderate size. Finally, an application on a real dataset is presented
Since its introduction, the geometric process (GP) has attracted extensive research attention from a...
The geometric process (GP) is a stochastic process that was an extension of the renewal process. It ...
International audienceThe aim of this articles is to study the asymptotic behavior of two imperfect ...
International audienceThe aim of this paper is twofold. First a new imperfect maintenance model is i...
International audienceThe aim of this paper is twofold. First a new imperfect maintenance model is i...
International audienceThe aim of this paper is to introduce and study a new model of imperfect maint...
The rate reduction models have been widely used to model the recurrent failure data for their capabi...
Modelling the failure process of a system is one of the most important problems in the reliability a...
The geometric process (GP) is a stochastic process that is introduced to model the failure process o...
The geometric process has been widely studied in various disciplines and applied in reliability, mai...
Commonly used repair rate models for repairable systems in the reliability literature are renewal pr...
Stochastic models for correlated count data have been attracting a lot of interest in the recent yea...
The geometric process has been widely applied in reliability engineering and other areas since its i...
SUMMARY. We survey some recent results pertaining to nonparametric inference for repair models. Of p...
International audienceLam (2007) introduces a generalization of renewal processes named Geometric pr...
Since its introduction, the geometric process (GP) has attracted extensive research attention from a...
The geometric process (GP) is a stochastic process that was an extension of the renewal process. It ...
International audienceThe aim of this articles is to study the asymptotic behavior of two imperfect ...
International audienceThe aim of this paper is twofold. First a new imperfect maintenance model is i...
International audienceThe aim of this paper is twofold. First a new imperfect maintenance model is i...
International audienceThe aim of this paper is to introduce and study a new model of imperfect maint...
The rate reduction models have been widely used to model the recurrent failure data for their capabi...
Modelling the failure process of a system is one of the most important problems in the reliability a...
The geometric process (GP) is a stochastic process that is introduced to model the failure process o...
The geometric process has been widely studied in various disciplines and applied in reliability, mai...
Commonly used repair rate models for repairable systems in the reliability literature are renewal pr...
Stochastic models for correlated count data have been attracting a lot of interest in the recent yea...
The geometric process has been widely applied in reliability engineering and other areas since its i...
SUMMARY. We survey some recent results pertaining to nonparametric inference for repair models. Of p...
International audienceLam (2007) introduces a generalization of renewal processes named Geometric pr...
Since its introduction, the geometric process (GP) has attracted extensive research attention from a...
The geometric process (GP) is a stochastic process that was an extension of the renewal process. It ...
International audienceThe aim of this articles is to study the asymptotic behavior of two imperfect ...