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阶体系
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     Hierarchical System of Production on Scheduling Management in Steel Works CIMS
     钢铁企业CIMS生产计划管理的递阶体系
短句来源
     The complexity of steel industrial production determines the complexity of producion and scheduling management in steel works, so creating a hierarchical system of production and scheduling management using large scale systems decomposition and coordination theroy is necessary.
     钢铁生产的复杂性决定了钢铁企业计划管理的复杂性,因而有必要采用大系统分解协调理论对钢铁生产计划系统进行时间分解与空间分解,建立生产计划的递阶体系
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  相似匹配句对
     CALCULATING SYSTEM FOR SECOND-ORDER EFFECT IN THE COLUMNS OF REINFORCED CONCRETE FRAMES
     钢筋混凝土框架柱的二效应计算体系
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     World-system
     世界体系
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     248 from both.
     248体系
短句来源
     Transport for a mesoscopic system——Calculations of conductivity with high-order approximation
     介观体系的输运——高电导系数的计算
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     Exponent Set of Trees with n Venices
     n树的指数分布
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The complexity of steel industrial production determines the complexity of producion and scheduling management in steel works, so creating a hierarchical system of production and scheduling management using large scale systems decomposition and coordination theroy is necessary. This paper presents a hierarchical system structure of production plan of steel works and the rules of decomposition with space and time for the system.

钢铁生产的复杂性决定了钢铁企业计划管理的复杂性,因而有必要采用大系统分解协调理论对钢铁生产计划系统进行时间分解与空间分解,建立生产计划的递阶体系。本文提出了CIMS下钢铁生产计划管理的递阶体系结构模式,研究了对计划系统进行空间分解与时间分解的原则。

This paper presents a Multi Robot Cooperative Assembly System(MRCAS), which is implemented based on multi agent system concept. The system is composed of a organizer computer, three industrial robots and an Omni Directional Vehicle(ODV). The MRCAS is organized into a hierarchical architecture. The paper also describes the experiments with MRCAS: on ODVs assembly platform, the four robots assemble cooperatively a large frame type workpiece, which has many final assembly construction forms and can not be...

This paper presents a Multi Robot Cooperative Assembly System(MRCAS), which is implemented based on multi agent system concept. The system is composed of a organizer computer, three industrial robots and an Omni Directional Vehicle(ODV). The MRCAS is organized into a hierarchical architecture. The paper also describes the experiments with MRCAS: on ODVs assembly platform, the four robots assemble cooperatively a large frame type workpiece, which has many final assembly construction forms and can not be assembled by only any one of the robots.

介绍了一个基于多智能体概念实现的多机器人协作装配系统——MRCAS(Multi-RobotCooperativeAssmblySystem)。该系统由组织级计算机、三台工业机器人和一台全方位移动小车(ODV)组成,采用分层递阶体系结构。利用MRCAS系统进行了多机器人协作装配的实验:在ODV装配平台上,四台机器人合作装配一个大型桁架式工件。该工件具有多种装配构型,但任何一台机器人不能独立完成装配。

Based on the combination of MEC(Most Economica Control)and IC(Intelligent Control),the concept of MEC(Most Economica Control)and a hierarchical architecture are promoted,the economic goal function of the control system is presented in this article.Provided the circulation ability as the constraints of the technical performance,a new approach which exploits GA(Genetic Algorithm) in the optimization of the system structure design of control systems and the controller parameter is given.The application indicates...

Based on the combination of MEC(Most Economica Control)and IC(Intelligent Control),the concept of MEC(Most Economica Control)and a hierarchical architecture are promoted,the economic goal function of the control system is presented in this article.Provided the circulation ability as the constraints of the technical performance,a new approach which exploits GA(Genetic Algorithm) in the optimization of the system structure design of control systems and the controller parameter is given.The application indicates that this method shortens the designing circuit,improves the reliability of the system and gains conspicuous social economic benefits.

本文在最经济控制和智能控制结合的基础上提出了最经济智能控制的概念和一种分级递阶的体系结构 ,建立了系统的经济目标函数 ,并给出了以信息结构能通性为技术约束条件利用遗传算法进行系统结构和控制参数优化设计的方法。实际应用表明 ,该方法缩短了系统的开发周期 ,提高了系统的可靠性 ,并获得了显著的社会经济效益

 
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