产品回收网络的设计是逆向物流管理中一个很现实且具有挑战性的问题。
While the design of product recovery networks is one of the challenging and actual reverse logistics problems.
第三层是支撑技术层,主要包括面向逆向物流的产品设计、产品跟踪管理、再制造生产计划和调度。
The third level is supporting technology level, involving product design facing reverse logistics, product track management, production plan and schedule of remanufacturing.
本文针对逆向物流管理信息系统设计及实现的问题进行探讨。
The design and realization method of reverse logistics management information system is also put forward.
本文主要研究逆向物流系统构建中的一个重要方面:网络设计与优化。
The paper focuses on one of the main aspects in the construction of reverse logistics system: network design and optimization.
产品回收网络设计是逆向物流的一个重要研究方向。
The design of product recovery network is an important research direction of reverse logistics.
通过对山东省某冰箱生产企业逆向物流网络的设计分析,获得了布局合理的物流网络。
Through designed and analyzed a refrigerator factory in Shandong province reverse logistics network, to obtain a reasonable layout of the logistics network.
关于逆向物流网络设计问题的研究已经出现很多,但大都集中在再制造物流方面,对再使用物流的关注较少。
The researches on the problem of design of reverse logistics network have already appeared largely, but which mostly focus on the aspect of remanufacturing logistics and concern less reuse logistics.
逆向物流网络的基础和核心是以网络作为支撑的,逆向物流网络设计的合理与否从根本上决定了逆向物流管理的绩效。
Network support is the foundation and core of any reverse logistics, the performance of reverse logistics management depend on the design of revers.
因此,为第三方逆向物流组织设计物流网络成为了可再用废弃消费品包装物回收再利用得以实施的关键。
Therefore, it is the key to recycling and reusing reusable discarded consumable packages to design the logistics network of the third party reverse logistics organization.
因此,为第三方逆向物流组织设计物流网络成为了可再用废弃消费品包装物回收再利用得以实施的关键。
Therefore, it is the key to recycling and reusing reusable discarded consumable packages to design the logistics network of the third party reverse logistics organization.
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