Multi-criteria fuzzy optimization for locating warehouses and distribution centers in a supply chain network

Journal of The Chinese Institute of Chemical Engineers Pub Date : 2007-09-01 DOI:10.1016/j.jcice.2007.08.001

Cheng-Liang Chen , Tzu-Wei Yuan , Wen-Cheng Lee

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引用次数: 66

Abstract

This study considers the planning of a multi-product, multi-period, and multi-echelon supply chain network that consists of several existing plants at fixed places, some warehouses and distribution centers at undetermined locations, and a number of given customer zones. Unsure market demands are taken into account and modeled as a number of discrete scenarios with known probabilities. The supply chain planning model is constructed as a multi-objective mixed-integer linear program (MILP) to satisfy several conflict objectives, such as minimizing the total cost, raising the decision robustness in various product demand scenarios, lifting the local incentives, and reducing the total transport time. For the purpose of creating a compensatory solution among all participants of the supply chain, a two-phase fuzzy decision-making method is presented and, by means of application of it to a numerical example, is proven effective in providing a compromised solution in an uncertain multi-echelon supply chain network.

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供应链网络中仓库和配送中心的多准则模糊优化

本研究考虑了一个多产品、多周期、多层次的供应链网络的规划，该网络由几个固定地点的现有工厂、一些不确定地点的仓库和配送中心以及一些给定的客户区域组成。考虑到不确定的市场需求，并将其建模为具有已知概率的许多离散情景。将供应链规划模型构建为一个多目标混合整数线性规划(MILP)，以满足总成本最小化、提高不同产品需求情景下的决策鲁棒性、提高局部激励和减少总运输时间等冲突目标。为了在供应链的所有参与者之间建立一个补偿解，提出了一种两阶段模糊决策方法，并通过数值算例证明了该方法在不确定多级供应链网络中提供一个折衷解的有效性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of The Chinese Institute of Chemical Engineers

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