基于最小代价的串联式应急系统集成调度策略  被引量:2

Research on the Integrated Dispatch Strategy of the Tandem Emergency System Based on Minimum Loss

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作  者:陶敏[1,2] 但斌[1,2] 贺庆仁[1] 

机构地区:[1]重庆大学经济与工商管理学院,重庆400044 [2]重庆大学现代物流重庆市重点实验室,重庆400030

出  处:《工业工程与管理》2013年第4期31-36,共6页Industrial Engineering and Management

基  金:国家自然科学基金资助项目(71272086);研究生科技创新基金自主研究项目(CDJXS12020010)

摘  要:对国民经济影响重大的串联式公用设施系统(如电力、通信、供水供热供气等系统)具有多环节、多物资、各环节之间存在串联的相关关系、且系统极易受到损坏等特点,其应急物资调度存在各环节之间协调困难、应急物资的筹集和调度难度大等问题。建立了面向串联式应急系统的多应急物资集成调度优化模型作为应急调度策略,以串联式应急系统破坏的代价最小为目标。设计了一个协进化的遗传算法对模型进行求解,并以电力系统为背景进行了电力物资应急调度的算例分析,验证了该串联式应急系统多物资集成调度策略的可行性。The Tandem Utilities System, which has an important influence in the national economy,has the features of multi-links, multi-materials, Being relevant between each link, and being vulnerable. The dispatching of emergency materials has the problems of coordinating difficultly, as well as raising and dispatching difficultly. An integrated dispatching optimal model of multi-materials facing the Tandem Emergency System is built to be the emergency dispatching strategy. The target is minimizing the loss of the destruction of the Tandem Utilities System. A co-evolution genetic algorithm is designed to solve the model. At last, an example is used to analyze the integrated dispatch of electrical emergency materials in the background of electrical system. The result verifies the feasibility of the strategy.

关 键 词:串联式应急系统 集成调度 最小代价 遗传算法 

分 类 号:C931.2[经济管理—管理学]

 

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