安全plc监控控制器的合成与实现

Reijnen, Ferdie F. H., Erens, Toby R., van de Mortel-Fronczak, Joanna M., Rooda, Jacobus E.
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引用次数: 2

摘要

网络物理系统监控控制器的开发是一个费力且容易出错的过程。监理综合使控制设计人员能够从工厂模型与控制要求模型相结合的模型中自动合成一个按施工正确的监理。从监控器模型中,可以生成适合在可编程逻辑控制器(PLC)上实现的控制器代码。工业系统的监管人员必须遵守严格的安全标准,这些系统必须与人类密切接触。为了达到这些标准,使用了安全plc (SPLCs)。对于SPLC的实施,主管必须分为常规部分和安全部分。在以前的工作中,为此提出了一种自动分割主管模型的方法。该方法假定所提供的工厂模型是有限自动机的集合。本文讨论了对扩展有限自动机的扩展。此外,还提供了对工厂建模的指导方针和实现有利分裂的要求。最后以某旋转桥为例,对该方法进行了验证。案例研究跨越了所有的开发步骤,包括实现最终的监理来控制真正的桥梁。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Supervisory controller synthesis and implementation for safety PLCs

The development of supervisory controllers for cyber-physical systems is a laborious and error-prone process. Supervisor synthesis enables control designers to automatically synthesize a correct-by-construction supervisor from a model of the plant combined with a model of the control requirements. From the supervisor model, controller code can be generated which is suitable for the implementation on a programmable logic controller (PLC). Supervisors for industrial systems that operate in close proximity to humans have to adhere to strict safety standards. To achieve these standards, safety PLCs (SPLCs) are used. For SPLC implementation, the supervisor has to be split into a regular part and a safety part. In previous work, a method is proposed to automatically split a supervisor model for this purpose. The method assumes that the provided plant model is a collection of finite automata. In this paper, the extension to extended finite automata is described. Additionally, guidelines are provided for modeling the plant and the requirements to achieve a favorable splitting. A case study on a rotating bridge is elaborated which has been used to validate the method. The case study spans all development steps, including the implementation of the resulting supervisor to control the real bridge.

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