Simulated-based methodology for the interface configuration of cyber-physical production systems
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Abderrahim Ait-Alla | Michael Freitag | Daniel Rippel | Michael Lütjen | Markus Kreutz | M. Freitag | M. Lütjen | D. Rippel | A. Alla | Markus Kreutz
[1] Marc Priggemeyer,et al. Experimentable Digital Twins—Streamlining Simulation-Based Systems Engineering for Industry 4.0 , 2018, IEEE Transactions on Industrial Informatics.
[2] Arvind Easwaran,et al. Challenges in Digital Twin Development for Cyber-Physical Production Systems , 2018, CyPhy/WESE.
[3] Abderrahim Ait-Alla,et al. Simulation-based Analysis of the Interaction of a Physical and a Digital Twin in a Cyber-Physical Production System , 2019, IFAC-PapersOnLine.
[4] Paulo Leitão,et al. Industrial automation based on cyber-physical systems technologies: Prototype implementations and challenges , 2016, Comput. Ind..
[5] Wilma Polini,et al. Digital twin of composite assembly manufacturing process , 2020, Int. J. Prod. Res..
[6] Robert X. Gao,et al. Digital Twin for rotating machinery fault diagnosis in smart manufacturing , 2018, Int. J. Prod. Res..
[7] Michael W. Grieves,et al. Digital Twin: Mitigating Unpredictable, Undesirable Emergent Behavior in Complex Systems , 2017 .
[8] Qiang Liu,et al. Digital twin-driven rapid individualised designing of automated flow-shop manufacturing system , 2019, Int. J. Prod. Res..
[9] Jay Lee,et al. A Cyber-Physical Systems architecture for Industry 4.0-based manufacturing systems , 2015 .
[10] Alexandre Dolgui,et al. The impact of digital technology and Industry 4.0 on the ripple effect and supply chain risk analytics , 2018, Int. J. Prod. Res..
[11] KarnouskosStamatis,et al. Human Factors in Industrial Automation based on Cyber Physical Systems Technologies , 2016 .
[12] Birgit Vogel-Heuser,et al. Agents enabling cyber-physical production systems , 2015, Autom..
[13] Bernd Scholz-Reiter,et al. Autonomous Control in Production Planning and Control: How to Integrate Autonomous Control into Existing Production Planning and Control Structures , 2011 .
[14] Ha Thi Nguyen,et al. Hardware- and Software-in-the-Loop Simulation for Parameterizing the Model and Control of Synchronous Condensers , 2019, IEEE Transactions on Sustainable Energy.
[15] Klaus-Dieter Thoben,et al. Cyber-Physical Product-Service Systems , 2017, Multi-Disciplinary Engineering for Cyber-Physical Production Systems.
[16] Manuel Parente,et al. Production scheduling in the context of Industry 4.0: review and trends , 2020, Int. J. Prod. Res..
[17] Zaia Alimazighi,et al. Toward integrating grid and cloud-based concepts for an enhanced deployment of spatial data warehouses in cyber-physical system applications , 2016, Journal of Ambient Intelligence and Humanized Computing.
[18] Alberto Traverso,et al. Flexibilization of Gas Turbine Combined Cycle via Heat Pump: development of control logics via Software-in-the-loop application , 2019, E3S Web of Conferences.
[19] Andrew Y. C. Nee,et al. Digital twin-driven product design framework , 2019, Int. J. Prod. Res..
[20] Wilfried Sihn,et al. Digital Twin in manufacturing: A categorical literature review and classification , 2018 .
[21] Bernd Scholz-Reiter,et al. Prototyping in Research Domains: A Prototype for Autonomous Production Logistics , 2012, ImViReLL.
[22] Klaus-Dieter Thoben,et al. Towards Product Avatars Representing Middle-of-Life Information for Improving Design, Development and Manufacturing Processes , 2013, NEW PROLAMAT.
[23] Paulo Leitão,et al. Intelligent products: The grace experience , 2015 .
[24] Xin Chen,et al. A Digital Twin-Based Approach for Designing and Multi-Objective Optimization of Hollow Glass Production Line , 2017, IEEE Access.