The control system structure of sheet metal flexible manufacturing system (FMS) is discussed in this paper.
研究板材柔性制造系统(FMS)控制系统结构。
FMS, a highly automatic and flexible manufacturing system, is critical for an enterprise to improve its production efficiency and flexibility and to adapt to the changeful competition in market.
FMS是一种高度自动化和柔性化的制造系统,对企业提高制造环节的效率和柔性,适应持续多变的市场竞争环境具有重要意义。
Making use of the workpiece information in CAD database is the basis of integrating RFACMS into flexible manufacturing system (FMS) or computer integrated manufacturing system (CIMS).
利用CAD数据库中的工件信息,是RFACMS集成到柔性制造系统(FMS)或计算机集成制造系统(CIMS)的基础。
Flexible manufacturing system (FMS) is a advanced automatic manufacturing system.
柔性制造系统(FMS)是一种先进的自动化制造系统。
Sheet metal flexible manufacturing system (FMS) with high automatic and flexibility is fit for low volume and rich varieties production particularly.
板件柔性制造系统具有高度自动化和高度柔性化的特点,特别适合板件多品种、中小批量生产的要求。
This paper will study the methods describing risk of the ability decision in FMS (Flexible Manufacturing System) and their effect on ability decision.
本文针对柔性制造系统的能力决策中的风险描述的方法及其对能力决策的影响进行研究。
Based on the flexible manufacturing experiment system (FMES), this paper gives the hardware structure and the software framework of a monitoring system for flexible manufacturing system (FMS).
以柔性制造实验系统(FMES)为研究对象,研究了FMS检测监控系统的硬件体系结构和软件集成框架,提出了FMS检测监控中信息的选择及故障处理策略。
Based on the flexible manufacturing experiment system (FMES), this paper gives the hardware structure and the software framework of a monitoring system for flexible manufacturing system (FMS).
以柔性制造实验系统(FMES)为研究对象,研究了FMS检测监控系统的硬件体系结构和软件集成框架,提出了FMS检测监控中信息的选择及故障处理策略。
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