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Optimising Control Engineering Tools Using Digital Twin Capabilities and Other Cyber-physical Metaverse Manufacturing System Components
Date
2024-02-21
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Abstract
he optimisation of control engineering tools based on
digital twin capabilities and other cyber-physical metaverse
manufacturing system (CPMMS) components are crucial for the
successful performance. This study proposes a model for
optimising control engineering tools using digital twin
capabilities and other CPMMS components to solve the open
issues. The main contributions and novelty aspects of the
methodological process are outlined as follows: Formulated and
developed is a decision matrix based on a utility procedure for 10
control engineering tools with digital twin capabilities and other
three CPMMS components (Programmable-Logic-Controller
and Human–Machine-Interface, Internet of Things connectivity
and cybersecurity features). This matrix accounts for the
uncertainty associated with tool assessment and transformation
evaluation issue; formulated and develop an integrating fuzzy
weighted with zero-inconsistency-interval-valued spherical fuzzy
rough sets (IvSFRS–FWZIC) and combined compromise solution
(CoCoSo) methods. The IvSFRS–FWZIC method is utilised to
assign importance degrees to the digital twin capabilities and
other CPMMS components. The applicability and robustness of
the proposed approach are validated and evaluated through
conducting sensitivity, correlation, and comparative analyses.
The proposed approach can assist managers in analysing and
selecting the most suitable tool for developing CPMMS.