none2noReliability assessment of aged electrical components in the presence of overstresses (e.g. voltage surges) is not an easy task. In this paper, a new methodology for solving this problem is illustrated, which is based on a Bayesian approach applied to a novel Weibull stress-strength probabilistic model. This model holds, under proper simplifying hypotheses, for electrical components progressively degraded by service stresses during operating life, thus having a chance to be broken by overstresses sooner or later. Further assumptions lead to a log-logistic reliability function, thus obtaining a novel, physical, motivation for the sometimes observed characteristic of decreasing hazard rates. For the purpose of estimating the parameters ...
It is extremely important to improve methodologies for the lifetime assessment of porcelain insulato...
Estimating the useful life of power system components is of considerable importance both in planning...
In reliability theory, the most important problem is to determine the reliability of a complex syste...
Reliability assessment of aged electrical components in the presence of overstresses (e.g. voltage ...
none3noThis paper shows a Bayesian approach to evaluate the effect of switching overvoltages on HV i...
A key role for the reliability model identification of the electrical insulation of power system com...
A novel Inverse Burr stress-strength probabilistic model is proposed for reliability assessment of ...
This article illustrates a Bayesian inference methodology for the parametric evaluation of the relia...
This article illustrates a Bayesian inference methodology for the parametric evaluation of the relia...
This paper deals with the “physical reliability models” assessment and estimation for electrical ins...
The “stress-strength” reliability model is discussed in the paper as a very efficient method for re...
Estimating the useful life of power system components is of considerable importance both in planning...
This paper presents a new statistical parametric model to predict the times-to-failure of broad clas...
It is extremely important to improve methodologies for the lifetime assessment of porcelain insulato...
Estimating the useful life of power system components is of considerable importance both in planning...
In reliability theory, the most important problem is to determine the reliability of a complex syste...
Reliability assessment of aged electrical components in the presence of overstresses (e.g. voltage ...
none3noThis paper shows a Bayesian approach to evaluate the effect of switching overvoltages on HV i...
A key role for the reliability model identification of the electrical insulation of power system com...
A novel Inverse Burr stress-strength probabilistic model is proposed for reliability assessment of ...
This article illustrates a Bayesian inference methodology for the parametric evaluation of the relia...
This article illustrates a Bayesian inference methodology for the parametric evaluation of the relia...
This paper deals with the “physical reliability models” assessment and estimation for electrical ins...
The “stress-strength” reliability model is discussed in the paper as a very efficient method for re...
Estimating the useful life of power system components is of considerable importance both in planning...
This paper presents a new statistical parametric model to predict the times-to-failure of broad clas...
It is extremely important to improve methodologies for the lifetime assessment of porcelain insulato...
Estimating the useful life of power system components is of considerable importance both in planning...
In reliability theory, the most important problem is to determine the reliability of a complex syste...