对工厂系统集成中功能块组成的IEC-61499和CDL的评估

Borja Ramis, Jorge Garcia, J. Lastra
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引用次数: 5

摘要

工厂信息系统(FIS)是由使用不同协议的各种异构系统组成的集群,使得集成任务复杂且耗时。大型应用程序集成的常见实践是模块化和服务化,如面向服务的计算(Service Oriented Computing, SOC)范例所示。服务可以根据IEC-61499标准封装为功能块(FB),弥合了车间和信息技术(IT)分布式系统之间的差距。这种方法简化了用单一描述性语言描述整个系统的任务。然而,与所有这些概念一起出现的关键任务是确保分布式模块化功能之间的可信通信,以将原子功能转换为流程。功能组合的主要挑战之一是需要在兼容模块之间建立交互以组合流程。这鼓励使用丰富的描述性语言作为控制策略来管理消息交换和定义服务之间的连接。首先,本文提供了使用IEC-61499和基于功能块集成的编排描述语言(CDL)的功能块组合的对比。结果随后在PLANTCockpit的功能块引擎参考架构中进行评估,用于部署功能块网络(fbn)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Assessment of IEC-61499 and CDL for Function Block composition in factory-wide system integration
Factory Information Systems (FIS) are clustered with a variety of heterogeneous systems using different protocols making integration tasks complex and time consuming. A common practice for integration of large applications is modularity and servitization as seen in the Service Oriented Computing (SOC) paradigms. Services can be encapsulated as a Function Block (FB) according to IEC-61499 standard bridging the gap between shop-floors and Information Technology (IT) distributed systems. This approach eases the task to describe the overall system in a single descriptive language. However, along with all these concepts comes the critical task of ensuring trustful communication between distributed modular functions to transform the atomic functionality into processes. One of the main challenges for function composition is the need to establish the interactions between the compatible modules to compose a process. This encourages the use of a rich descriptive language as a control strategy to manage the exchange of messages and to define the connections among the services. Primarily, this paper provides a contrast for Function Block composition using IEC-61499 and Choreography Description Languages (CDL) for Function Block based integration. The results are later evaluated within the PLANTCockpit's Function Block Engine reference architecture for deployment of Function Block Networks (FBNs).
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