Integrating control devices following different network architectures

Proceedings 1997 IEEE International Workshop on Factory Communication Systems. WFCS'97 Pub Date : 1997-10-01 DOI:10.1109/WFCS.1997.634308

M. Marcos, D. Orive

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引用次数: 1

Abstract

The paper deals with some of the problems which can appear when automation technologies are applied in the manufacturing sector. In particular, communication via a network of control equipment such as PLC's, CNC's or robot controllers is established. A novel solution is described which allows the cell controller (represented by a PC under the Unix OS) to communicate with all of them, assuming that they follow the IEEE 802.3 standard at the lower level of its communication architecture. The solution presented, is based on using finite automata theory for formalising the particular protocol used by each device as well as information exchange during each operation, e.g., changing a set point on a PLC or sending a file to the CNC. Once this information is formalised as a finite state automaton, and making use of the software developed, the user is easily driven through the necessary steps in order to generate the complete application. Thus, the so called cell controller can not only be used for monitoring the processes controlled by the devices involved in the plant, but it can also be used as a central supervisor of single loop controllers sending for instance stop orders, new set points, etc.

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集成不同网络架构下的控制设备

本文讨论了自动化技术在制造业中应用时可能出现的一些问题。特别是，通过诸如PLC、CNC或机器人控制器等控制设备的网络建立通信。本文描述了一种新颖的解决方案，该解决方案允许单元控制器(由Unix操作系统下的PC表示)与所有单元控制器进行通信，假设它们在其通信体系结构的较低层遵循IEEE 802.3标准。提出的解决方案是基于使用有限自动机理论来形式化每个设备使用的特定协议以及每次操作期间的信息交换，例如，更改PLC上的设定点或向CNC发送文件。一旦将这些信息形式化为有限状态自动机，并利用所开发的软件，用户就很容易通过必要的步骤来生成完整的应用程序。因此，所谓的单元控制器不仅可以用于监控工厂中涉及的设备所控制的过程，而且还可以用作发送例如停止命令，新设定点等的单回路控制器的中央监督者。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings 1997 IEEE International Workshop on Factory Communication Systems. WFCS'97

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