Modelling & Simulation of a Rivet Shaving Process for the Protection of the Aerospace Industry Against Cyber-threats
Martin Praddaude, Nicolas Hogrel, Matthieu Gay, Ulrike Baumann, and Adrien Bécue
doi: 10.18278/jpcs.7.2.3
Martin Praddaude, Nicolas Hogrel, Matthieu Gay, Ulrike Baumann, and Adrien Bécue
doi: 10.18278/jpcs.7.2.3
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Abstract
This paper provides insights on simulation and modelling work performed within CyberFactory#1 project which aims at enhancing optimization and resilience of the Factory of the Future. The paper describes the modelling and simulation of a complete industrial process of rivet shaving, in support to the digitization of aerospace manufacturing. It provides evidence of accurate elaboration of a Digital Twin (DT) of the Roboshave system in the Airbus CyberRange (CR) environment. This work contributes to science and technology by demonstrating the feasibility of a holistic DT of a complex Cyber-Physical System(CPS) throughout its operational and informational layers, including multiple heterogeneous industrial communication protocols. It contributes to industry and practice by providing a highly realistic virtual environment for cybersecurity testing, simulation, training and decision support to enforce security of digitized industrial systems.
Keywords: Simulation, modelling, Cyber-Physical System (CPS), Operational Technology (OT), Industry 4.0, CyberRange (CR), Digital Twin (DT), Programmable Logic Controller (PLC), Industrial Internet of Things (IIoT)
This paper provides insights on simulation and modelling work performed within CyberFactory#1 project which aims at enhancing optimization and resilience of the Factory of the Future. The paper describes the modelling and simulation of a complete industrial process of rivet shaving, in support to the digitization of aerospace manufacturing. It provides evidence of accurate elaboration of a Digital Twin (DT) of the Roboshave system in the Airbus CyberRange (CR) environment. This work contributes to science and technology by demonstrating the feasibility of a holistic DT of a complex Cyber-Physical System(CPS) throughout its operational and informational layers, including multiple heterogeneous industrial communication protocols. It contributes to industry and practice by providing a highly realistic virtual environment for cybersecurity testing, simulation, training and decision support to enforce security of digitized industrial systems.
Keywords: Simulation, modelling, Cyber-Physical System (CPS), Operational Technology (OT), Industry 4.0, CyberRange (CR), Digital Twin (DT), Programmable Logic Controller (PLC), Industrial Internet of Things (IIoT)
