Title :
Optimal allocation of interchangeable components in a series-parallel system
Author :
Prasad, V. Rajendra ; Raghavachari, M.
Author_Institution :
Texas A&M Univ., College Station, TX, USA
fDate :
9/1/1998 12:00:00 AM
Abstract :
This paper extends the work of El-Neweihi, Proschan, Sethuraman (1986) to maximize the reliability of a series-parallel system through optimal allocation of interchangeable components. It provides a practical procedure for the reliability optimization problem which is shown to be NP complete. Based on an observation that the reliability of series-parallel system increases with the homogeneity among the cutset hazards, an approximate linear programming model is developed in which the objective is to minimize the mean deviation of the cut-set hazards. An algorithm is provided to improve further the resulting allocation. The numerical investigation on this heuristic approach and its application to a large problem have yielded encouraging results
Keywords :
failure analysis; integer programming; linear programming; reliability theory; approximate linear programming model; cut-set hazards; cutset hazards; heuristic approach; interchangeable components; mean deviation minimisation; optimal allocation; reliability optimization problem; series-parallel system reliability; Concurrent computing; Hazards; Linear approximation; Linear programming; Power system reliability;
Journal_Title :
Reliability, IEEE Transactions on
