Applying the handler-based execution model to IEC 61499 basic and composite function blocks

2006 4th IEEE International Conference on Industrial Informatics Pub Date : 2006-08-01 DOI:10.1109/INDIN.2006.275711

N. Hagge, B. Wagner

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引用次数: 13

Abstract

We defined the so-called "handler-based execution model" as a real-time capable execution model for CNet [H. Wurmus, 2002] [N. Hagge and B. Wagner, 2005]. Traditional controller implementations typically consist of big loops with a fix sequential execution scan order. This was not appropriate for Petri-net based CNet that is characterized by a high degree of concurrency and locality. Our execution model is purely based on events to dynamically schedule the evaluation of firing conditions and avoids unnecessary calculations. There are no global event queues. Event-flow is handled locally which is beneficial for multithreaded and/or distributed platforms. This execution model is part of a full automatic code generator that translates CNet controller models into (real-time) Java code. Examining IEC 61499 revealed that function blocks networks similarly feature concurrency and locality, but that execution environments for function blocks are still developed based on traditional fixed sequential scan approaches. This paper will introduce the main concepts of the "Handler- based execution model" and show its possible application to IEC 61499 function blocks for automatic code generation.

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将基于处理程序的执行模型应用于IEC 61499基本和复合功能块

我们将所谓的“基于处理程序的执行模型”定义为CNet [H]的实时执行模型。[j]。哈格和B.瓦格纳，2005]。传统的控制器实现通常由具有固定顺序执行扫描顺序的大循环组成。这对于以高度并发性和局部性为特征的基于Petri-net的CNet来说是不合适的。我们的执行模型完全基于事件来动态调度触发条件的评估，并避免不必要的计算。没有全局事件队列。事件流在本地处理，这对于多线程和/或分布式平台是有益的。这个执行模型是将CNet控制器模型转换为(实时)Java代码的全自动代码生成器的一部分。通过检查IEC 61499，可以发现功能块网络具有类似的并发性和局部性，但是功能块的执行环境仍然是基于传统的固定顺序扫描方法开发的。本文将介绍“基于处理器的执行模型”的主要概念，并展示其在IEC 61499功能块中用于自动代码生成的可能应用。

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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2006 4th IEEE International Conference on Industrial Informatics

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