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Multi-objective reliability optimization for dissimilar-unit cold-standby systems using a genetic algorithm
Authors:Amir Azaron  Cahit Perkgoz  Hideki Katagiri  Kosuke Kato  Masatoshi Sakawa
Affiliation:1. Department of Industrial Engineering, Dalhousie University, Halifax, NS, Canada;2. Department of Artificial Complex Systems Engineering, Graduate School of Engineering, Hiroshima University, Hiroshima, Japan
Abstract:A genetic algorithm approach is used to solve a multi-objective discrete reliability optimization problem in a k dissimilar-unit non-repairable cold-standby redundant system. Each unit is composed of a number of independent components with generalized Erlang distributions arranged in a series–parallel configuration. There are multiple component choices with different distribution parameters available for being replaced with each component of the system. The objective of the reliability optimization problem is to select the best components, from the set of available components, to be placed in the standby system in order to minimize the initial purchase cost of the system, maximize the system MTTF (mean time to failure), minimize the system VTTF (variance of time to failure) and also maximize the system reliability at the mission time. Finally, we apply a genetic algorithm with double strings using continuous relaxation based on reference solution updating (GADSCRRSU) to solve this multi-objective problem, using goal attainment formulation. The results are also compared against the results of a discrete-time approximation technique to show the efficiency of the proposed GA approach.
Keywords:Reliability optimization   Genetic algorithm   Multiple objective programming   Markov processes   Graph theory
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