A multi-objective programming approach, integrated into the TOPSIS method, in order to optimize product design; in three-dimensional concurrent engineering

► We consider parameters of product, process and supply chain design in the NPD. ► A model based on 3D-CE is proposed by using MOLP, FAHP and TOPSIS. ► The model determines product alternative, assembly process and components suppliers. ► Sensitivity of the proposed model is evaluated by developing...

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Veröffentlicht in:Computers & industrial engineering 2013-04, Vol.64 (4), p.875-885
Hauptverfasser: Shidpour, H., Shahrokhi, M., Bernard, A.
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container_title Computers & industrial engineering
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creator Shidpour, H.
Shahrokhi, M.
Bernard, A.
description ► We consider parameters of product, process and supply chain design in the NPD. ► A model based on 3D-CE is proposed by using MOLP, FAHP and TOPSIS. ► The model determines product alternative, assembly process and components suppliers. ► Sensitivity of the proposed model is evaluated by developing a computer program. This paper proposes a new method to address a three-dimensional concurrent engineering (3D-CE) approach. It uses a Multi-Objective Linear Programming (MOLP) model integrated to the TOPSIS method in order to determine the best configuration product design, assembly process and suppliers of components. This method is able to involve various supply chain strategies by considering qualitative and quantitative criteria in the early stages of the new product development (NPD) process. It also applies the Fuzzy Analytic Hierarchy Process (FAHP) method to determine the relative importance of criteria defined to evaluate configurations of design alternatives, assembly processes and suppliers of components. A sensitivity analysis from different parameters in the model that affect the selection of the best design alternative is performed by creating a computer program using visual studio. A numerical example is used to demonstrate method efficacy and finally, the paper suggests some areas for future research.
doi_str_mv 10.1016/j.cie.2012.12.016
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subjects 3D-CE
Computer programming
Concurrent engineering
FAHP
Linear programming
Multi-objective programming
Multiple criteria decision making
New product development
Product design
Qualitative and quantitative parameters
Sensitivity analysis
Studies
TOPSIS
title A multi-objective programming approach, integrated into the TOPSIS method, in order to optimize product design; in three-dimensional concurrent engineering
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