A Model-Based Framework for Developing DTs in Industry 4.0

By: Lina Bilal, Benoit Combemale, Jean-Marc Jézéquel, Quentin Perez

Abstract

With the rise of Industry 4.0 driven by the integration of Cyber-Physical Systems (CPS) and the Internet of Things (IoT), the use of Digital Twins (DTs) has significantly increased over the past decade, as they provide detailed insights and support well-informed decision-making. However, the lack of standardized methodologies, in addition to the time and resources involved for building them remains an important challenge. Building on the idea that engineering models of the physical twin (PT) are often available, we propose a tool-supported framework that automates the derivation of DTs by leveraging existing structural and behavioral models of the PT and extending them with additional models to build a comprehensive DT. To demonstrate the feasibility of our approach, we applied it to four different use cases, in which we automatically derived DT instances from (1) models of their PT, (2) configuration of our generic framework and (3) minimal ad hoc additional development for connecting the DT to the PT. These experiments illustrate the applicability of our framework for building DTs in contexts that satisfy our assumptions and requirements. By simply configuring the framework, we are able to derive a DT aligned with its operational purpose.

Keywords

Digital Twins, Automation, Development Process, Industry 4.0

Cite as:

Lina Bilal, Benoit Combemale, Jean-Marc Jézéquel, Quentin Perez, “A Model-Based Framework for Developing DTs in Industry 4.0”, Journal of Object Technology, Volume 25, no. 3 ( 2026), pp. 3:225-238, doi:10.5381/jot.2026.25.3.a18.