Abstract
Markov models are commonly used for unavailability analysis of redundant systems. However, due to the exploding states of Markov models for redundant systems, the states need to be merged to simplify the computation, which is called micro-Markov models. However, how to derive the failure rates and repair rates of the newly developed micro-Markov models has not been studied thoroughly. Therefore, this paper proposes detailed explanations and rules to derive the static unavailability by the micro-Markov models for thek-out-of-n:G systems with multiple failure modes. Firstly, two properties about applying the Markov models to the repairable system with independent multiple failure modes are presented. Based on these two properties, two rules are proposed for implementing the micro-Markov models. The micro-Markov models provide the exact same results for the repairablek-out-of-n:G system with multiple independent failure modes and repair mechanisms and approximate results for systems with multiple hybrid failure modes. A case study of safety integrity verification for safety instrumented systems is provided to illustrate the application of the proposed method. The conceptual comparison and numerical examples demonstrate the reasonability and usefulness of the proposed micro-Markov models.
Highlights
A k-out-of-n:G system is a redundant system where at least k out of n components must be functional for the redundant system to be successful [1,2,3]
As the static unavailability is an important value in the reliability analysis for safety systems [9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25], this paper focuses on the static unavailability evaluation for koon systems with multiple failure modes
This paper proposes micro-Markov models for the reliability analysis of koon systems with multiple failure modes
Summary
A k-out-of-n:G system (hereinafter referred to as koon system) is a redundant system where at least k out of n components (or channels) must be functional for the redundant system to be successful [1,2,3]. The second is how to transform the nonrepairable failure as the repairable failure for the general koon system In response to these two issues, a property about applying the Markov models to the repairable system with a single failure mode is first presented. Based on this property, we present a rule for transforming the nonrepairable failure to a repairable failure for the general koon system.
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