论文信息 - RELIABILITY AND FUNCTIONALITY OF REPAIRABLE SYSTEMS USING A MINIMAL SET OF METRICS: DESIGN AND MAINTENANCE OF A SMART CHARGING MICROGRID

RELIABILITY AND FUNCTIONALITY OF REPAIRABLE SYSTEMS USING A MINIMAL SET OF METRICS: DESIGN AND MAINTENANCE OF A SMART CHARGING MICROGRID

The definition of reliability may not be readily applicable for repairable systems. Our recent work has shown that multiple metrics are needed to fully account for the performance of a repairable system under uncertainty. Optimal tradeoffs among a minimal set of metrics can be used in the design and maintenance of these systems. A minimal set of metrics provides the most information about the system with the smallest number of metrics using a set of desirable properties. Critical installations such as a remote microgrid powering a military installation require a careful consideration of cost and repair strategies. This is because of logistical challenges in performing repairs and supplying necessary spare parts, particularly in unsafe locations. This paper shows how a minimal set of metrics enhances decision making in such a scenario. It enables optimal tradeoffs between critical attributes in decision making, while guaranteeing that all important performance measures are satisfied. As a result, cost targets and inventory planning can be achieved in an optimal way. We demonstrate the value of the proposed approach using a US Army smart-charging microgrid installation.Copyright © 2013 by ASME

Matthew P. Castanier | David Gorsich | Zissimos P. Mourelatos | Vijitashwa Pandey | Annette G. Skowronska

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