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MarkovElection
Iterative numerical methods are an important ingredient for the solution of continuous time Markov dependability models of fault-tolerant systems. In this paper we make a numerical comparison of several splitting-based iterative methods. We consider the computation of steady-state reward rate on rewarded models. This measure requires the solution of a singular linear system. We consider two classes of models. The first class includes failure/repair models. The second class is more general and includes the modeling of periodic preventive test of spare components to reduce the probability of latent failures in inactive components. The periodic preventive test is approximated by an Erlang distribution with enough number of stages. We show tha...
A numerically stable method is developed which computes seemingly tight bounds at a small computati...
In this paper we generalize a method (called regenerative randomization) for the transient solution ...
Markov models are commonly used to asses the dependability/performability of fault-tolerant systems...
Iterative numerical methods are an important ingredient for the solution of continuous time Markov d...
In this paper we deal with iterative numerical methods to solve linear systems arising in continuous...
Except for formatting details, this version matches exactly the version published with the same titl...
Markov reward models have interesting modeling applications, particularly those addressing fault-tol...
Randomization is an attractive alternative for the transient analysis of continuous time Markov mod...
Composite performance and dependability analysis is gaining importance in the design of complex, fau...
appeared in reduced version in Communications in Statistics—Simulation and Computation Randomization...
This paper compares three numerical methods for reliability calculation of Markov, closed, fault-tol...
The transient analysis of large continuous time Markov reliability models of repairable fault-tolera...
In this tutorial, we discuss several practical issues regarding specification and solution of depend...
Degradable fault-tolerant systems can be evaluated using rewarded continuous-time Markov chain (CTMC...
The (standard) randomization method is an attractive alternative for the transient analysis of conti...
A numerically stable method is developed which computes seemingly tight bounds at a small computati...
In this paper we generalize a method (called regenerative randomization) for the transient solution ...
Markov models are commonly used to asses the dependability/performability of fault-tolerant systems...
Iterative numerical methods are an important ingredient for the solution of continuous time Markov d...
In this paper we deal with iterative numerical methods to solve linear systems arising in continuous...
Except for formatting details, this version matches exactly the version published with the same titl...
Markov reward models have interesting modeling applications, particularly those addressing fault-tol...
Randomization is an attractive alternative for the transient analysis of continuous time Markov mod...
Composite performance and dependability analysis is gaining importance in the design of complex, fau...
appeared in reduced version in Communications in Statistics—Simulation and Computation Randomization...
This paper compares three numerical methods for reliability calculation of Markov, closed, fault-tol...
The transient analysis of large continuous time Markov reliability models of repairable fault-tolera...
In this tutorial, we discuss several practical issues regarding specification and solution of depend...
Degradable fault-tolerant systems can be evaluated using rewarded continuous-time Markov chain (CTMC...
The (standard) randomization method is an attractive alternative for the transient analysis of conti...
A numerically stable method is developed which computes seemingly tight bounds at a small computati...
In this paper we generalize a method (called regenerative randomization) for the transient solution ...
Markov models are commonly used to asses the dependability/performability of fault-tolerant systems...
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