Add to ORKGA numerically stable method is developed which computes seemingly tight bounds at a small computational cost relative to the model size, when that model size is large, for the unreliability and bounds for the unreliability using, respectively, exact and bounding failure/repair continuous-time Markov chain models of fault-tolerant systems with exponential failure and repair time distributions, in which repair is deferred until some condition on the collection of failed components is satisfied, and, then, proceeds until reaching the state without failed components, with failure rates much smaller than repair rates and not too different output rates from states with deferred repair
appeared in reduced version in Communications in Statistics—Simulation and Computation Randomization...
Bounds are established for the probability of failure of fault-tolerant systems. The underlying fail...
In this paper we generalize a method (called regenerative randomization) for the transient solution ...
A numerically stable method is developed which computes seemingly tight bounds at a small computati...
The transient analysis of large continuous time Markov reliability models of repairable fault-tolera...
The (standard) randomization method is an attractive alternative for the transient analysis of conti...
The (standard) randomization method is an attractive alternative for the transient analysis of conti...
The paper develops a method, called bounding regenerative transformation, for the computation with ...
Randomization is an attractive alternative for the transient analysis of continuous time Markov mode...
Randomization is an attractive alternative for the transient analysis of continuous time Markov mod...
Randomization is an attractive alternative for the transient analysis of continuous time Markov mod...
Randomization is an attractive alternative for the transient analysis of continuous time Markov mode...
Markov models are commonly used to asses the dependability/performability of fault-tolerant systems...
Markov models are commonly used to asses the dependability/performability of fault-tolerant systems....
A realistic modeling of fault-tolerant systems requires to take into account phenomena such as the d...
appeared in reduced version in Communications in Statistics—Simulation and Computation Randomization...
Bounds are established for the probability of failure of fault-tolerant systems. The underlying fail...
In this paper we generalize a method (called regenerative randomization) for the transient solution ...
A numerically stable method is developed which computes seemingly tight bounds at a small computati...
The transient analysis of large continuous time Markov reliability models of repairable fault-tolera...
The (standard) randomization method is an attractive alternative for the transient analysis of conti...
The (standard) randomization method is an attractive alternative for the transient analysis of conti...
The paper develops a method, called bounding regenerative transformation, for the computation with ...
Randomization is an attractive alternative for the transient analysis of continuous time Markov mode...
Randomization is an attractive alternative for the transient analysis of continuous time Markov mod...
Randomization is an attractive alternative for the transient analysis of continuous time Markov mod...
Randomization is an attractive alternative for the transient analysis of continuous time Markov mode...
Markov models are commonly used to asses the dependability/performability of fault-tolerant systems...
Markov models are commonly used to asses the dependability/performability of fault-tolerant systems....
A realistic modeling of fault-tolerant systems requires to take into account phenomena such as the d...
appeared in reduced version in Communications in Statistics—Simulation and Computation Randomization...
Bounds are established for the probability of failure of fault-tolerant systems. The underlying fail...
In this paper we generalize a method (called regenerative randomization) for the transient solution ...