It is commonplace to replicate critical components in order to increase system lifetimes and reduce failure rates. The case of a general N-plexed system, whose failures are modeled as N identical, independent nonhomogeneous Poisson process (NHPP) flows, each with rocof (rate of occurrence of failure) equal to λ(t), is considered here. Such situations may arise if either there is a time-dependent factor accelerating failures or if minimal repair maintenance is appropriate. We further assume that system logic for the redundant block is 2-out-of-N:G. Reliability measures are obtained as functions of τ which represents a fixed time after which Maintenance Teams must have replaced any failed component. Such measures are determined for small λ(t)...
To achieve commercialization and wide acceptance in industrial application, reliability analysis for...
Much of the recent work on modeling repairable systems involves Poisson processes with nonconstant i...
System reliability analyses, involving multiple failure processes, are important and challenging res...
It is commonplace to replicate critical components in order to increase system lifetimes and reduce ...
Stochastic point processes have been widely used to describe the behaviour of repairable systems. Th...
The paper discusses some common reliability architectures, such as "parallel" and "k-out-of-n" syste...
In safety critical applications, it is becoming quite common to improve reliability through the use ...
The reliability of consecutive-k-out-of-n: F system (or C (k, n: F) system) has aroused great intere...
In reliability engineering, system failures may occur due to intrinsic or extrinsic factors. For exa...
This paper derives reliability indices of a linear consecutive-k-out-of-n: F system with retrial und...
The power-law non-homogeneous Poisson process, also called the Crow-AMSAA model, is often used to mo...
Failures in repairable systems are often described by means of renewal or non-homogeneous Poisson pr...
The nonhomogeneous Poisson process (NHPP) has become a useful approach for modeling failure patterns...
The nonhomogeneous Poisson process (NHPP) has become a useful approach for modeling failure patterns...
The authors have considered a complex system consisting of two subsystems designated as ‘A’ and ‘B’ ...
To achieve commercialization and wide acceptance in industrial application, reliability analysis for...
Much of the recent work on modeling repairable systems involves Poisson processes with nonconstant i...
System reliability analyses, involving multiple failure processes, are important and challenging res...
It is commonplace to replicate critical components in order to increase system lifetimes and reduce ...
Stochastic point processes have been widely used to describe the behaviour of repairable systems. Th...
The paper discusses some common reliability architectures, such as "parallel" and "k-out-of-n" syste...
In safety critical applications, it is becoming quite common to improve reliability through the use ...
The reliability of consecutive-k-out-of-n: F system (or C (k, n: F) system) has aroused great intere...
In reliability engineering, system failures may occur due to intrinsic or extrinsic factors. For exa...
This paper derives reliability indices of a linear consecutive-k-out-of-n: F system with retrial und...
The power-law non-homogeneous Poisson process, also called the Crow-AMSAA model, is often used to mo...
Failures in repairable systems are often described by means of renewal or non-homogeneous Poisson pr...
The nonhomogeneous Poisson process (NHPP) has become a useful approach for modeling failure patterns...
The nonhomogeneous Poisson process (NHPP) has become a useful approach for modeling failure patterns...
The authors have considered a complex system consisting of two subsystems designated as ‘A’ and ‘B’ ...
To achieve commercialization and wide acceptance in industrial application, reliability analysis for...
Much of the recent work on modeling repairable systems involves Poisson processes with nonconstant i...
System reliability analyses, involving multiple failure processes, are important and challenging res...