可持续闭环供应链网络:数学建模和拉格朗日松弛

IF 0.6 Q4 ENGINEERING, INDUSTRIAL

Industrial Engineering and Management Systems Pub Date : 2021-07-01 DOI:10.22116/JIEMS.2020.215206.1330

Behrooz Khorshidvand, H. Soleimani, M. S. Esfahani, S. Sibdari

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引用次数: 0

摘要

本文提出了一种新的可持续闭环供应链(SCLSC)两阶段模型。作为一种贡献，这种模式在经济目标、环境问题和基于价格、绿色质量和广告水平的社会责任之间提供了平衡。因此，在第一阶段，考虑广告和绿化的最优水平，得出价格的最优值。然后，在第二阶段，将多目标混合整数线性规划(MOMILP)推广到计算Pareto解。目标包括使整个链条的利润最大化，使二氧化碳排放对环境的影响最小化，使员工的安全最大化。此外，提出了一种基于加权和法的拉格朗日松弛算法来求解MOMILP模型。研究结果表明，所提出的两阶段模型可以同时处理协调决策和可持续目标。结果表明，回收产品的最优价格为新产品价格的75%，极大地鼓励了消费者购买。此外，在求解MOMILP模型时，该算法与最优解相比效率差0.17%，可以达到精确界。由于该算法的使用，与GUROBI求解器相比，大规模实例的求解时间平均减少和简化了49%。

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Sustainable closed-loop supply chain network: Mathematical modeling and Lagrangian relaxation

This paper addresses a novel two-stage model for a Sustainable Closed-Loop Supply Chain (SCLSC). This model, as a contribution, provides a balance among economic aims, environmental concerns, and social responsibilities based on price, green quality, and advertising level. Therefore, in the first stage, the optimal values of price are derived by considering the optimal level of advertising and greening. After that, in the second stage, multi-objective Mixed-Integer Linear Programming (MOMILP) is extended to calculate Pareto solutions. The objectives are include maximizing the profit of the whole chain, minimizing the environmental impacts due to CO2 emissions, and maximizing employee safety. Besides, a Lagrangian relaxation algorithm is developed based on the weighted-sum method to solve the MOMILP model. The findings demonstrate that the proposed two-stage model can simultaneously cope with coordination decisions and sustainable objectives. The results show that the optimal price of the recovered product equals 75% of the new product price which considerably encourages customers to buy it. Moreover, to solve the MOMILP model, the proposed algorithm can reach to exact bound with an efficiency gap of 0.17% compared to the optimal solution. Due to the use of this algorithm, the solution time of large-scale instances is reduced and simplified by an average of 49% in comparison with the GUROBI solver.

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来源期刊

Industrial Engineering and Management Systems ENGINEERING, INDUSTRIAL-

CiteScore

2.20

自引率

28.60%

发文量

期刊介绍： Industrial Engineering and Management Systems (IEMS) covers all areas of industrial engineering and management sciences including but not limited to, applied statistics & data mining, business & information systems, computational intelligence & optimization, environment & energy, ergonomics & human factors, logistics & transportation, manufacturing systems, planning & scheduling, quality & reliability, supply chain management & inventory systems.