Digital twins-based smart manufacturing system design in Industry 4.0: A review

I und J

In this paper we provide an overview of recent theoretical approaches and technologies that respond to the fundamental challenges of modern factory automation. We classify these major methods and t...

An overview of current technologies and emerging trends in factory automation

A classification framework for automated control code generation in industrial automation

Virtual engineering of cyber-physical automation systems: The case of control logic

Transformation of GRAFCET to PLC code including hierarchical structures

GRAFCET is a powerful graphical modelling language and an international standard to specify the behavior of discrete event systems. One of the main advantages of GRAFCET compared to other specification languages is the description of distributed and nested program parts within a control application based on the hierarchical structures enclosing steps, partial-Grafcet and forcing orders. This contribution presents a meta-model based approach for GRAFCET specifications, including hierarchical structures. For this purpose, a suitable static GRAFCET meta-model has been defined. This model is the basis for both, a model-driven implementation of a graphical editor as well as a model-based GRAFCET syntax verification. This meta-model based approach has been made in consideration of the benefits of MDSD and the potential to expand the solution to other issues of formal methods in control system engineering. An integrated software solution is presented using the open-source environment Eclipse.

A meta-model based environment for GRAFCET specifications

A model-driven approach for transforming GRAFCET specification into PLC code including hierarchical structures

Zusammenfassung In diesem Beitrag werden ein modellbasiertes Konzept zur Transformation von GRAFCET nach IEC 61131-3 Steuerungscode sowie verschiedene darauf aufbauende Ansätze für die automatische Rücktransformation des manuell geänderten Codes in die GRAFCET-Spezifikation vorgestellt und diskutiert. Diese bidirektionale Transformation kann als Round-Trip-Engineering im Steuerungs-Lebenszyklus verstanden werden.

Konzept zur bidirektionalen Transformation zwischen GRAFCET-Spezifikationen und IEC 61131-3 Steuerungscode

In this paper, we present an approach to how to store production plans directly on an RFID tag in the form of an automaton. Based on a modular manufacturing system, this enables manufacturing systems to become more flexible and changeable and, in addition, reduces the engineering effort for adaptation in an existing plant. The connection between different production modules is implemented via carriers and a Mealy machine that is stored on an RFID tag. This machine’s states represent the production steps of the product on the carrier.

/pdf/automaton-on-tag-an-approach-for-an-rfid-driven-production-4d2dkoyqp4.pdf

Automaton-on-Tag: An Approach for an RFID-Driven Production Control with Mealy Machines Stored on an RFID Tag

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