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AI-driven digital twin for autonomous web tension control in Roll-to-Roll manufacturing system

Anton Nailevich Gafurov, Soo-Young Lee, Uzair Ali, Muhammad Irfan, Inyoung Kim, Taik‐Min Lee

2025Scientific Reports8 citationsDOIOpen Access PDF

Abstract

While the roll-to-roll manufacturing process plays a key role in high-throughput and cost-effective production, precise web tension control remains a critical challenge due to the dynamic interaction of web materials and roller mechanics. To address these challenges, this study proposes an AI-driven digital twin framework for autonomous web tension control optimization. The proposed method integrates Bayesian optimization with Gaussian process modeling to efficiently explore and adjust proportional and integral control parameters. While the operation of the roll-to-roll system is managed through a real-time client-server communication, system responses are designed to be iteratively refined by the proposed surrogate model. Experimental validation on an actual roll-to-roll manufacturing system demonstrates that the optimized control strategy significantly reduces tension variation and improves system stability. The proposed method highlights the potential of AI-integrated digital twins in autonomous manufacturing, which can offer a scalable solution for a variety of industrial applications.

Topics & Concepts

Roll-to-roll processingTension (geology)Computer scienceControl (management)World Wide WebArtificial intelligenceEngineeringMechanical engineeringMaterials scienceComposite materialUltimate tensile strengthVibration and Dynamic AnalysisBelt Conveyor Systems EngineeringAdvanced Manufacturing and Logistics Optimization
AI-driven digital twin for autonomous web tension control in Roll-to-Roll manufacturing system | Litcius