A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Structural digital twin framework: Formulation and technology integration
Abstract This work presents a digital twin framework for structural engineering. The digital twin is conceptualised and mathematically idealised within the context of structural integrity, and includes the main attributes to behave as a functional digital twin, namely simulation, learning, and management. The manuscript makes special emphasis on the autonomous interactions between the physical and digital counterparts along with on the workflow modelling of the digital twin, which are both missing aspects in the majority of use cases found in the literature, specially within the civil and structural engineering domain. The proposed framework is demonstrated in a proof of concept using a laboratory scale test structure monitored using internet-of-things-based sensors and actuators. The results reveal that the virtual counterpart can respond in real-time with self-adaptability in liaison to the performance of the physical counterpart. Moreover, the tests show that the digital twin is able to provide automated decision making for structural integrity.
Highlights A digital twin framework for structural integrity is proposed. The digital twin has been conceptualised and formulated mathematically. The overall management of the digital twin is autonomous through the Petri net paradigm. A technology integration of the framework is provided, including the communications between the physical and digital twins. A demonstration case study is included using a test structure able to autonomously provide structural integrity decision-making.
Structural digital twin framework: Formulation and technology integration
Abstract This work presents a digital twin framework for structural engineering. The digital twin is conceptualised and mathematically idealised within the context of structural integrity, and includes the main attributes to behave as a functional digital twin, namely simulation, learning, and management. The manuscript makes special emphasis on the autonomous interactions between the physical and digital counterparts along with on the workflow modelling of the digital twin, which are both missing aspects in the majority of use cases found in the literature, specially within the civil and structural engineering domain. The proposed framework is demonstrated in a proof of concept using a laboratory scale test structure monitored using internet-of-things-based sensors and actuators. The results reveal that the virtual counterpart can respond in real-time with self-adaptability in liaison to the performance of the physical counterpart. Moreover, the tests show that the digital twin is able to provide automated decision making for structural integrity.
Highlights A digital twin framework for structural integrity is proposed. The digital twin has been conceptualised and formulated mathematically. The overall management of the digital twin is autonomous through the Petri net paradigm. A technology integration of the framework is provided, including the communications between the physical and digital twins. A demonstration case study is included using a test structure able to autonomously provide structural integrity decision-making.
Structural digital twin framework: Formulation and technology integration
Chiachío, Manuel (author) / Megía, María (author) / Chiachío, Juan (author) / Fernandez, Juan (author) / Jalón, María L. (author)
2022-05-04
Article (Journal)
Electronic Resource
English
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