A critical appraisal of reliability procedures for high dimensions is presented. Available approximate methods and methods based on Monte Carlo simulation are discussed. It is shown that procedures which perform well in low dimensions may become impractical if the dimension increases considerably or tends to infinity. It is observed that some types of Monte Carlo based simulation procedures in fact are capable of treating high dimensional problems
In the reliability analysis of safety critical complex engineering structures, a very large number o...
In this paper it is attempted to highlight some problems of failure probability estimation in high d...
As the size of engineered systems grows, problems in reliability theory can become computationally c...
In this paper we adopt a geometric perspective to highlight the challenges associated with solving h...
This work is dedicated to the exploration of commonly used and development of new advanced stochasti...
Computation of the reliability of large technical systems is usually a very difficult problem for re...
As the size of engineered systems grows, problems in reliability theory can become computationally c...
Abstract Monte Carlo Simulation (MCS) offers a powerful means for evaluating the reliability of a sy...
Reliability analysis is a core element in engineering design and can be performed with physical mode...
This paper draws attention to a fundamental problem that occurs in applying importance sampling to ‘...
In the reliability analysis of a complex engineering structure a very large number of the system par...
Monte Carlo simulation (MCS) offers a powerful means for evaluating the reliability of a system, due...
The paper is devoted to the estimation of small failure probabilities, i.e. on the reliability analy...
A simulation-based reliability analysis method is presented and evaluated. This method is intended f...
The article presents new results concerned with general procedures and algorithms to assess the reli...
In the reliability analysis of safety critical complex engineering structures, a very large number o...
In this paper it is attempted to highlight some problems of failure probability estimation in high d...
As the size of engineered systems grows, problems in reliability theory can become computationally c...
In this paper we adopt a geometric perspective to highlight the challenges associated with solving h...
This work is dedicated to the exploration of commonly used and development of new advanced stochasti...
Computation of the reliability of large technical systems is usually a very difficult problem for re...
As the size of engineered systems grows, problems in reliability theory can become computationally c...
Abstract Monte Carlo Simulation (MCS) offers a powerful means for evaluating the reliability of a sy...
Reliability analysis is a core element in engineering design and can be performed with physical mode...
This paper draws attention to a fundamental problem that occurs in applying importance sampling to ‘...
In the reliability analysis of a complex engineering structure a very large number of the system par...
Monte Carlo simulation (MCS) offers a powerful means for evaluating the reliability of a system, due...
The paper is devoted to the estimation of small failure probabilities, i.e. on the reliability analy...
A simulation-based reliability analysis method is presented and evaluated. This method is intended f...
The article presents new results concerned with general procedures and algorithms to assess the reli...
In the reliability analysis of safety critical complex engineering structures, a very large number o...
In this paper it is attempted to highlight some problems of failure probability estimation in high d...
As the size of engineered systems grows, problems in reliability theory can become computationally c...