International audienceWe consider a Markovian model, proposed by Littlewood, to assess the reliability of a modular software. Speci cally , we are interested in the asymptotic properties of the corresponding failure point process. We focus on its time-stationary version and on its behavior when reliability growth takes place. We prove the convergence in distribution of the failure point process to a Poisson process. Additionally, we provide a convergence rate using the distance in variation. This is heavily based on a similar result of Kabanov, Liptser and Shiryayev, for a doubly-stochastic Poisson process where the intensity is governed by a Markov process
Structural reliability models suffer from some drawbacks mainly related to the assumptions necessary...
In this paper, the new generalized inflection S-shaped software reliability growth model is proposed...
In this paper we investigate a method of quantifying the performance of software-reliability models ...
International audienceWe consider a Markovian model, proposed by Littlewood, to assess the reliabili...
The attached file may be somewhat different from the published versionInternational audienceIn this ...
The attached file may be somewhat different from the published versionInternational audienceDependab...
International audienceIn this article, we deal with a class of discrete-time reliability models. The...
International audienceIn this paper, we deal with a continuous-time software reliability model desig...
In this dissertation, we present Bayesian inference for models based on non-homogeneous Poisson proc...
Over the last 35 years many statistical models have been proposed for the quantitative evaluation of...
Software Reliability models has been developed for decades. The majority of them are based on non ho...
International audienceStructural reliability models suffer from some drawbacks mainly related to the...
The problem considered here is the building of Non-homogeneous Poisson Process (NHPP) model. Current...
A Non Homogenous Poisson Process (NHPP) with its mean value function generated by the cumulative dis...
The attached file may be somewhat different from the published versionInternational audienceDependab...
Structural reliability models suffer from some drawbacks mainly related to the assumptions necessary...
In this paper, the new generalized inflection S-shaped software reliability growth model is proposed...
In this paper we investigate a method of quantifying the performance of software-reliability models ...
International audienceWe consider a Markovian model, proposed by Littlewood, to assess the reliabili...
The attached file may be somewhat different from the published versionInternational audienceIn this ...
The attached file may be somewhat different from the published versionInternational audienceDependab...
International audienceIn this article, we deal with a class of discrete-time reliability models. The...
International audienceIn this paper, we deal with a continuous-time software reliability model desig...
In this dissertation, we present Bayesian inference for models based on non-homogeneous Poisson proc...
Over the last 35 years many statistical models have been proposed for the quantitative evaluation of...
Software Reliability models has been developed for decades. The majority of them are based on non ho...
International audienceStructural reliability models suffer from some drawbacks mainly related to the...
The problem considered here is the building of Non-homogeneous Poisson Process (NHPP) model. Current...
A Non Homogenous Poisson Process (NHPP) with its mean value function generated by the cumulative dis...
The attached file may be somewhat different from the published versionInternational audienceDependab...
Structural reliability models suffer from some drawbacks mainly related to the assumptions necessary...
In this paper, the new generalized inflection S-shaped software reliability growth model is proposed...
In this paper we investigate a method of quantifying the performance of software-reliability models ...