Modularity and architecture of PLC-based software for automated production Systems: An analysis in industrial companies

Vogel‐Heuser, Birgit; Fischer, Juliane; Feldmann, Stefan; Ulewicz, Sebastian; Rösch, Susanne

doi:10.1016/j.jss.2017.05.051

Cited by 51 publications

(15 citation statements)

References 22 publications

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“…A comprehensive survey of modularity of PLC and PLC based software for automated production system has been outlined in the study [22]. Recently deep learning based technique is used to classify bottles using machine vision approach [23,24].…”

Section: Figure 1 Flow Of Product In An Assembly Linementioning

confidence: 99%

Design of Automated Visual Inspection System for Beverage Industry Production Line

Padhee¹,

Nandan²

2021

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This paper provides an overall design and implementation perspective of a laboratory-scale automated visual inspection system for the beverage industry's production line. A case study has been undertaken where the image processing algorithm inspects the beverage bottle for any defects. Different defects such as improper labeling and improper liquid level can be detected using the image processing algorithm. A laboratory prototype of the conveyor belt has been built, and a prototype filling plant has been established to verify the simulation results.

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Section: Figure 1 Flow Of Product In An Assembly Linementioning

confidence: 99%

Design of Automated Visual Inspection System for Beverage Industry Production Line

Padhee¹,

Nandan²

2021

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“…Much research in recent years regarding the automated generation of control code has been concerned with Programmable Logical Controllers (PLCs) based on the standard IEC 61131 iec1131 with the automatic generation of concrete software structures and implementations from the models. Current research in the field of model-driven engineering is mainly focused on developing new methods to support the development process of new software using modeling languages such as Unified Modeling Language (UML) or Systems Modeling Language (SysML) (Vogel-Heuser, Fischer, Feldmann, Ulewicz, & Rsch, 2017). Most approaches are based on UML, having the software structure and the behaviors automatically derived from the developed UML models as software artifacts into the target language (Tikhonov, Schtz, Ulewicz, & Vogel-Heuser, 2014).…”

Section: Automated Configurationmentioning

confidence: 99%

Knowledge-based cyber-physical systems for assembly automation

Merdan¹,

Hoebert²,

List³

et al. 2019

Production & Manufacturing Research

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Current assembly systems are handling the increased requirements for mass customization with difficulties and need to be updated with new approaches and technologies. Cyber-Physical Systems (CPS) auto-configuration is regarded as an important asset towards automation components, which autonomously embed themselves into the system. In this context, knowledge-based technologies pave the way for highly flexible and reconfigurable CPS. This paper introduces and demonstrates a model-driven engineering approach for automatically configuring the control layer of a CPS based on knowledge representation of the environment and component capabilities. The approach encompasses a control architecture that is tested in two industrial use cases. The first case employs a configuration infrastructure for control software based on IEC 61499 to automatically configure the hardwarenear control layer of a CPS within an assembly line. The second case is concerned with autonomously generating assembly plans, which are then transformed into actions that an industrial robot sequentially executes.

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“…A fim de auxiliar o desenvolvimento da CM, é essencial ampliar a tecnologia de configuração para o processo de planejamento da família de produtos, que é a essência tecnológica do processo de configuração de produtos . Vogel-Heuser et al, (2017) afirmam em seu artigo que as tendências modernas de fabricação de produtos são definidas pela CM, onde são mantidos lotes pequenos e alta variabilidade de tipos de produtos. Vanderroost et al, (2017) falam que a CM se enquadra no contexto da fabricação inteligente e da quarta revolução industrial, que está atualmente em andamento (mais conhecida como Indústria 4.0) que visa interligar continuamente todas as etapas (pesquisa, design, teste, produção e controle de qualidade) e sistemas de um processo de fabricação.…”

Section: Customização Em Massaunclassified

Design Colaborativo e Customização em Massa: uma Interseção de Conceitos Através da Revisão Bibliográfica Sistemática

Fontana¹,

Heemann²

2019

Blucher Design Proceedings

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ResumoCom o intuito de tornar a pesquisa sobre a colaboração no design de produtos para a customização em massa (CM) mais abrangente, o presente artigo insere á uma análise anterior sobre esses conceitos, uma nova análise dos conceitos específicos isolados de design colaborativo e da CM na tentativa de identificar uma possível intersecção entre os dois assuntos e incluindo a literatura consolidada sobre esses conceitos em separado, que não foram identificadas na busca dos termos em conjunto. Para tanto, o procedimento executado foi uma revisão bibliográfica sistemática (RBS), que resultou em um quadro teórico de síntese que classifica a interseção entre os assuntos desta pesquisa. Com esse quadro é possível identificar lacunas e ênfases que as publicações descrevem em suas pesquisas. Isto torna possível listá-las e usá-las como fatores que merecem maior atenção no processo de design de produto para CM.Palavras Chave: design colaborativo, customização em massa, desenvolvimento de produto e revisão bibliográfica sistemática. AbstractIn order to make the research about collaborative product design for mass customization (MC) more comprehensive, this article introduces an earlier analysis of these concepts, the analysis of specific isolated concepts of collaborative design and CM in attempt to identify a possible intersection between the two subjects and including the consolidated literature on these separate concepts that were not identified in the search for the terms together. For this, the procedure performed was a systematic literature review, which resulted in a theoretical framework of synthesis. With this framework it is possible to identify gaps and emphases that the publications describe in their research. This makes it possible to list them and use them as factors that deserve more attention in the product design process for CM.

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Modularity and architecture of PLC-based software for automated production Systems: An analysis in industrial companies

Cited by 51 publications

References 22 publications

Design of Automated Visual Inspection System for Beverage Industry Production Line

Design of Automated Visual Inspection System for Beverage Industry Production Line

Knowledge-based cyber-physical systems for assembly automation

Design Colaborativo e Customização em Massa: uma Interseção de Conceitos Através da Revisão Bibliográfica Sistemática

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