Application of Decomposable Semi-Regenerative Processes to the Study of <i>k</i>-out-of-<i>n</i> Systems

This paper aimed to demonstrate the capabilities of decomposable semi-regenerative processes for the investigation of the <i>k</i>-out-of-<i>n</i> system. Proposed in 1955 by W. Smith, the regeneration idea has come a long way in terms of development and has found widespread...

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Bibliographic Details
Main Authors: Vladimir Rykov, Nika Ivanova, Dmitry Kozyrev
Format: Article
Language:English
Published: MDPI AG 2021-08-01
Series:Mathematics
Subjects:
Online Access:https://www.mdpi.com/2227-7390/9/16/1933
Description
Summary:This paper aimed to demonstrate the capabilities of decomposable semi-regenerative processes for the investigation of the <i>k</i>-out-of-<i>n</i> system. Proposed in 1955 by W. Smith, the regeneration idea has come a long way in terms of development and has found widespread applications. First, we briefly recall the history of the development of the regeneration idea and the main results of the theory of regenerative, semi-regenerative, and decomposable semi-regenerative processes. Then, the methods of the theory of decomposable semi-regenerative processes are used for the study of a <i>k</i>-out-of-<i>n</i> renewable system with exponentially distributed life and generally distributed repair times of its components. This system is very important for practice and its special cases have previously been considered (including by the authors); however, only special cases and using other methods are considered herein. In the current paper, two scenarios of system repair after its failure are considered for the first time: the partial and the full system repair scenarios. For both scenarios, the time-dependent system state probabilities are calculated in terms of their Laplace transforms. The closed form representation of the stationary probabilities for both scenarios are also presented. These latest results represent a new contribution to the study of this system.
ISSN:2227-7390