Abstract :
The computation of a variety of reliability measures for a system that is observed over a random time horizon is examined. This time interval, which can correspond to the system mission, the system lifetime, etc., is assumed to be distributed as a random variable of phase type. Models are developed that aid a decision-maker to choose among the actions of replace, repair, or do nothing, whenever a system component fails, under several assumptions concerning the amount of information available to the decision-maker. In addition, a policy of replacement after a fixed number of repairs is examined. An example computation of several reliability measures and the application of a cost model are included to illustrate the tractability of the results and their usefulness in design decisions
Keywords :
failure analysis; maintenance engineering; reliability theory; cost model; failed components; random lifetime; reliability measures; repair; replacement; Absorption; Costs; Failure analysis; Infinite horizon; Maintenance; Matrices; Phase measurement; Random variables; Reliability theory; Time measurement;
