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Investigation of system transient availability under imperfect maintenance

Suzan Alaswad (Zayed University – Abu Dhabi Campus, Abu Dhabi, United Arab Emirates)
Sinan Salman (Zayed University – Abu Dhabi Campus, Abu Dhabi, United Arab Emirates)

International Journal of Quality & Reliability Management

ISSN: 0265-671X

Article publication date: 15 September 2023

Issue publication date: 22 January 2024

43

Abstract

Purpose

While steady-state analysis is useful, it does not consider the inherent transient characteristics of repairable systems' behavior, especially in systems that have relatively short life spans, or when their transient behavior is of special concern such as the motivating example used in this paper, military systems. Therefore, a maintenance policy that considers both transient and steady-state availability and aims to achieve the best trade-off between high steady-state availability and rapid stabilization is essential.

Design/methodology/approach

This paper studies the transient behavior of system availability under the Kijima Type II virtual age model. While such systems achieve steady-state availability, and it has been proved that deploying preventive maintenance (PM) can significantly improve its steady-state availability, this improvement often comes at the price of longer and increased fluctuating transient behavior, which affects overall system performance. The authors present a methodology that identifies the optimal PM policy that achieves the best trade-off between high steady-state availability and rapid stabilization based on cost-availability analysis.

Findings

When the proposed simulation-based optimization and cost analysis methodology is applied to the motivating example, it produces an optimal PM policy that achieves an availability–variability balance between transient and steady-state system behaviors. The optimal PM policy produces a notably lower availability coefficient of variation (by 11.5%), while at the same time suffering a negligible limiting availability loss of only 0.3%. The new optimal PM policy also provides cost savings of about 5% in total maintenance cost. The performed sensitivity analysis shows that the system's optimal maintenance cost is sensitive to the repair time, the shape parameter of the Weibull distribution and the downtime cost, but is robust with respect to changes in the remaining parameters.

Originality/value

Most of the current maintenance models emphasize the steady-state behavior of availability and neglect its transient behavior. For some systems, using steady-state availability as the sole metric for performance is not adequate, especially in systems that have relatively short life spans or when their transient behavior affects the overall performance. However, little work has been done on the transient analysis of such systems. In this paper, the authors aim to fill this gap by emphasizing such systems and applications where transient behavior is of critical importance to efficiently optimize system performance. The authors use military systems as a motivating example.

Keywords

Citation

Alaswad, S. and Salman, S. (2024), "Investigation of system transient availability under imperfect maintenance", International Journal of Quality & Reliability Management, Vol. 41 No. 2, pp. 656-673. https://doi.org/10.1108/IJQRM-06-2022-0174

Publisher

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Emerald Publishing Limited

Copyright © 2023, Emerald Publishing Limited

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