The term Human-Centric Digital Twin (HCDT) has been recently coined meaning the design and the simulation of complex production systems by integrating human factors. This paper presents an HCDT system architecture focused on an enhanced 3D virtual model, embedding human interaction information in product and process information. Such a model extends the current features of AutomationML (AML) framework, a recently defined standard for digitization in Industry 4.0, by specific human-related data. The framework has been primarily integrated into a Virtual Reality (VR) scenario to support, predict and study the human-system interactions in the early stages of industrial machine design. The infrastructure has been validated on a real case developed in collaboration with an Italian manufacturing company, world leader in automatic machine design and production. User testing was conducted within a virtual environment, where the HCDT enriched the 3D virtual model of the machine with an additional AML description of human-system interaction.
Valentini, L., Khamaisi, R.K., Peruzzini, M., Raffaeli, R. (2024). Towards a Human-Centric Digital Twin: An AutomationML-Based Description to Include Human Factors in Machine Design. GEWERBESTRASSE 11, CHAM, CH-6330, SWITZERLAND : Springer Science and Business Media Deutschland GmbH [10.1007/978-3-031-74485-3_48].
Towards a Human-Centric Digital Twin: An AutomationML-Based Description to Include Human Factors in Machine Design
Valentini L.;Peruzzini M.;
2024
Abstract
The term Human-Centric Digital Twin (HCDT) has been recently coined meaning the design and the simulation of complex production systems by integrating human factors. This paper presents an HCDT system architecture focused on an enhanced 3D virtual model, embedding human interaction information in product and process information. Such a model extends the current features of AutomationML (AML) framework, a recently defined standard for digitization in Industry 4.0, by specific human-related data. The framework has been primarily integrated into a Virtual Reality (VR) scenario to support, predict and study the human-system interactions in the early stages of industrial machine design. The infrastructure has been validated on a real case developed in collaboration with an Italian manufacturing company, world leader in automatic machine design and production. User testing was conducted within a virtual environment, where the HCDT enriched the 3D virtual model of the machine with an additional AML description of human-system interaction.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
