从ISA 88/95元模型到IEC 61499下基于OPC ua的CPPS开发工具

Marcelo V. García, E. Irisarri, F. Pérez, M. Marcos, Elisabet Estévez-Estévez
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引用次数: 6

摘要

在工业4.0时代,对敏捷有效的垂直集成的快速增长的需求正在挑战智能制造。信息物理生产系统(CPPS)技术在工业4.0工厂中发挥着关键作用。其中一个原因是车间数据收集、监控和处理是由CPPS设备以及IEC 61499标准实现的。为此,给出了分布式控制系统的建模和软硬件开发方法。数据监测和处理的改进不仅可以优化设备的预测性维护,还可以集成新的控制技术。该方法为油气行业将传统生产领域转变为智能油田(IOF)环境提供了基础。本文的目的是在技术状况和工业控制应用的设计之间建立桥梁。特别提出了一个通过软件工程工具开发的CPPS平台,为应用程序的设计提供支持。它基于IEC 61499和可配置的OPC-UA服务器,该服务器将现场设备数据映射到基于isa95 /88的信息模型中。因此,该方案不仅可以节省油气工程师的时间,还可以节省采用该技术的工作量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
From ISA 88/95 meta-models to an OPC UA-based development tool for CPPS under IEC 61499
In the era of Industry 4.0, fast-growing requirements for an agile and effective vertical integration are challenging the smart manufacturing. Cyber-Physical Production System (CPPS) technology plays a key role in the Industry 4.0 factory. One of the reasons for this is that shop floor data collection, monitoring and processing are enabled by CPPS devices together with IEC 61499 standard. To this end modeling and developing software and hardware components focused on distributed control systems are provided. This improvement in data monitoring and processing results not only in an optimization of equipment predictive maintenance but also in the ability to integrate new control techniques. This approach provides the Oil&Gas industry with the foundation to transform their traditional production fields into Intelligent Oil Field (IOF) environments. The aim of this paper is to build bridges between the state of technology and the design of industrial control applications. In particular, a CPPS platform developed through a software engineering tool giving support to the design of applications is proposed. It is based on the IEC 61499 and on a configurable OPC-UA server that maps field device data into an ISA95/88-based information model. Thus, this proposal will not only save Oil&Gas engineer time, it also will save efforts of adopting this promising technology.
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