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    A Bi-Objective Green Closed Loop Supply Chain Design Problem with Uncertain Demand

    New search for: Ming Liu
    New search for: Rongfan Liu
    New search for: Zhanguo Zhu
    New search for: Chengbin Chu
    New search for: Xiaoyi Man

    With the development of e-commerce, competition among enterprises is becoming fiercer. Furthermore, environmental problems can no longer be ignored. To address these challenges, we devise a green closed loop supply chain (GCLSC) with uncertain demand. In the problem, two conflict objectives and recycling the used products are considered. To solve this problem, a mathematical model is formulated with the chance constraint, and the ϵ -constraint method is adapted to obtain the true Pareto front for small sized problems. For larger sized problems, the non-dominated sorting genetic algorithm (NSGA-II) and the multi-objective simulated annealing method (MOSA) are developed. Numerous computational experiments can help manufacturers make better production and sales plans to keep competitive advantage and protect the environment.

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    A Bi-Objective Green Closed Loop Supply Chain Design Problem with Uncertain Demand

    New search for: Ming Liu
    New search for: Rongfan Liu
    New search for: Zhanguo Zhu
    New search for: Chengbin Chu
    New search for: Xiaoyi Man

    With the development of e-commerce, competition among enterprises is becoming fiercer. Furthermore, environmental problems can no longer be ignored. To address these challenges, we devise a green closed loop supply chain (GCLSC) with uncertain demand. In the problem, two conflict objectives and recycling the used products are considered. To solve this problem, a mathematical model is formulated with the chance constraint, and the ϵ -constraint method is adapted to obtain the true Pareto front for small sized problems. For larger sized problems, the non-dominated sorting genetic algorithm (NSGA-II) and the multi-objective simulated annealing method (MOSA) are developed. Numerous computational experiments can help manufacturers make better production and sales plans to keep competitive advantage and protect the environment.

    Access

    Download

    A Bi-Objective Green Closed Loop Supply Chain Design Problem with Uncertain Demand

    New search for: Ming Liu
    New search for: Rongfan Liu
    New search for: Zhanguo Zhu
    New search for: Chengbin Chu
    New search for: Xiaoyi Man

    With the development of e-commerce, competition among enterprises is becoming fiercer. Furthermore, environmental problems can no longer be ignored. To address these challenges, we devise a green closed loop supply chain (GCLSC) with uncertain demand. In the problem, two conflict objectives and recycling the used products are considered. To solve this problem, a mathematical model is formulated with the chance constraint, and the ϵ -constraint method is adapted to obtain the true Pareto front for small sized problems. For larger sized problems, the non-dominated sorting genetic algorithm (NSGA-II) and the multi-objective simulated annealing method (MOSA) are developed. Numerous computational experiments can help manufacturers make better production and sales plans to keep competitive advantage and protect the environment.

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    Download

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    Title:

    A Bi-Objective Green Closed Loop Supply Chain Design Problem with Uncertain Demand

    Contributors:

    Ming Liu (author) / Rongfan Liu (author) / Zhanguo Zhu (author) / Chengbin Chu (author) / Xiaoyi Man (author)

    Published in:

    Sustainability, Vol 10, Iss 4, p 967 (2018)

    Publication date:

    2018

    ISSN:

    2071-1050

    DOI:

    https://doi.org/10.3390/su10040967

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    supply chain design , bi-objective optimization , chance constraint , algorithms , Environmental effects of industries and plants , TD194-195 , Renewable energy sources , TJ807-830 , Environmental sciences , GE1-350

    Metadata by DOAJ is licensed under ​CC BY-SA 1.0

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