需求驱动型供应链物流仿生优化设计框架

工业工程

需求驱动型供应链物流仿生优化设计框架

（长安大学汽车学院，陕西西安 710064）

出版日期:2015-12-31 发布日期:2016-03-24
作者简介:李博（1980-），女，河北省人，副教授，博士，主要研究方向为供应链物流系统设计和管理仿生.
基金资助:
中国博士后科学基金资助项目（2014M552401）；陕西省自然科学基金资助项目（2015JQ7272）；国家自然科学基金资助项目（51108036；51308058）；交通部应用基础研究项目——主干学科（2014319812240）；中央高校基本科研业务费专项资金（CHD2009JC092），陕西省“百人计划”资助项目。

#br# A Bionic Design Framework of the Demand-driven Supply Chain Logistics

(School of Automobile, Changan University, Xian 710064, China)

Online:2015-12-31 Published:2016-03-24

摘要/Abstract

摘要：

为提高供应链运作效率，运用仿生学理论和方法，仿生生物基因表达调控模式对需求驱动型供应链物流进行了优化设计。分析了基因表达调控机制，建立了基因表达调控的“功能-行为-结构”模式，识别了需求驱动型供应链物流与基因表达调控过程的相似性，提出了包括需求驱动——响应机制、设施位置、信息传输过程和物流路径在内的需求驱动型供应链物流仿生设计框架。研究表明，仿生设计能够从整体上优化供应链物流的运作过程，提高运作效率。

关键词:

需求驱动型供应链, 供应链物流, 基因表达调控, 仿生设计

关键词：需求驱动型供应链, 供应链物流, 基因表达调控, 仿生设计

Abstract:

To improve the operation efficiency of the supply chain, the theory and method of bionics are employed and the process of gene regulation is simulated to optimize the logistics design of demand-driven supply chain. The mechanism of gene regulation is analyzed and the “Function-Behavior-Structure” (FBS) models are established. Further, similar characteristics between the demand-driven supply chain logistics and the process of gene regulation are identified. On this basis, the bionic design framework is presented including four main parts, i.e., demand-driven response mechanism of the supply chain logistics, facility location and information transfer process as well as the logistics path. The study shows that the bionic design can optimize the operation process of the supply chain logistics on the whole and enhance the operation efficiency.

Key words: demand-driven supply chain, supply chain logistics, gene regulation, bionic design

李博, 胡大伟. 需求驱动型供应链物流仿生优化设计框架[J]. 工业工程.

Li Bo, Hu Da-wei. #br# A Bionic Design Framework of the Demand-driven Supply Chain Logistics[J]. Industrial Engineering Journal .

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