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Article type: Research Article
Authors: Keshavarz Ghorabaee, Mehdi1; * | Amiri, Maghsoud1 | Turskis, Zenonas2
Affiliations: [1] Department of Industrial Management, Faculty of Management and Accounting, Allameh Tabataba’i University, Tehran, Iran | [2] Research Institute of Smart Building Technologies, Vilnius Gediminas Technical University, e-mail: [email protected], [email protected], [email protected]
Correspondence: [*] Corresponding author.
Abstract: The redundancy allocation problem (RAP) has been studied for many different system structures, objective functions, and distribution assumptions. In this paper, we present a problem formulation and a solution methodology to maximize the system steady-state availability and minimize the system cost for the repairable series-parallel system designs. In the proposed approach, the components’ time-to-failure (TTF) and time-to-repair (TTR) can follow any distribution such as the Gamma, Normal, Weibull, etc. We estimate an approximation of the steady-state availability of each subsystem in the series-parallel system with an individual meta-model. Design of experiment (DOE), simulation and the stepwise regression are used to build these meta-models. Face centred design, which is a type of central composite design is used to design experiments. According to a max–min approach, obtained meta-models are utilized for modelling the problem alongside the cost function of the system. We use the augmented ε-constraint method to reformulate the problem and solve the model. An illustrative example which uses the Gamma distribution for TTF and TTR is explained to represent the performance of the proposed approach. The results of the example show that the proposed approach has a good performance to obtain Pareto (near-Pareto) optimal solutions (system configurations).
Keywords: redundancy allocation problem, bi-objective RAP, design of experiment, simulation, ε-constraint method
Journal: Informatica, vol. 28, no. 1, pp. 79-104, 2017
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