A Framework for Model-Driven Digital Twin Engineering

Daniel Lehner

A Framework for Model-Driven Digital Twin Engineering

Institute of Business Informatics - Software Engineering

Research output: Thesis › Doctoral thesis

Abstract

Digital twins (DTs) are an emerging concept to handle the complexity of modern cyber-physical systems. They are virtual representations of physical objects (referred to as physical twins or PTs) that allow interaction with these objects. Experimentable DTs extend this notion through simulations of the physical object that allow experimentation and exploiting what-if scenarios. Based on these DTs, engineers can build innovative applications, from predictive maintenance to self-adaptation.

Problem: Connecting DT services, together with DTs and simulations, into so-called DT systems, and managing the evolution of these DT systems, currently requires a lot of effort from engineers. More precisely, this high effort stems from (i) redundant effort when specifying DT models in addition to engineering models, (ii) redundant effort when connecting DT services to both PT and simulations, and (iii) lack of dedicated support for managing variability when evolving DT systems in time and space.

Original language	English
Qualification	PhD
Awarding Institution	Institute of Business Informatics - Software Engineering
Supervisors/Reviewers	Wimmer, Manuel, Supervisor
Award date	10 Jan 2025
Publication status	Published - 2024

Fields of science

102020 Medical informatics
102022 Software development
102006 Computer supported cooperative work (CSCW)
102027 Web engineering
502050 Business informatics
102040 Quantum computing
102016 IT security
503015 Subject didactics of technical sciences
509026 Digitalisation research
102015 Information systems
102034 Cyber-physical systems
502032 Quality management

JKU Focus areas

Digital Transformation

Access to Document

https://epub.jku.at/obvulihs/content/titleinfo/11407045Licence: Unspecified

Cite this

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title = "A Framework for Model-Driven Digital Twin Engineering",

abstract = "Digital twins (DTs) are an emerging concept to handle the complexity of modern cyber-physical systems. They are virtual representations of physical objects (referred to as physical twins or PTs) that allow interaction with these objects. Experimentable DTs extend this notion through simulations of the physical object that allow experimentation and exploiting what-if scenarios. Based on these DTs, engineers can build innovative applications, from predictive maintenance to self-adaptation.Problem: Connecting DT services, together with DTs and simulations, into so-called DT systems, and managing the evolution of these DT systems, currently requires a lot of effort from engineers. More precisely, this high effort stems from (i) redundant effort when specifying DT models in addition to engineering models, (ii) redundant effort when connecting DT services to both PT and simulations, and (iii) lack of dedicated support for managing variability when evolving DT systems in time and space.",

author = "Daniel Lehner",

year = "2024",

language = "English",

school = "Institute of Business Informatics - Software Engineering",

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TY - BOOK

T1 - A Framework for Model-Driven Digital Twin Engineering

AU - Lehner, Daniel

PY - 2024

Y1 - 2024

N2 - Digital twins (DTs) are an emerging concept to handle the complexity of modern cyber-physical systems. They are virtual representations of physical objects (referred to as physical twins or PTs) that allow interaction with these objects. Experimentable DTs extend this notion through simulations of the physical object that allow experimentation and exploiting what-if scenarios. Based on these DTs, engineers can build innovative applications, from predictive maintenance to self-adaptation.Problem: Connecting DT services, together with DTs and simulations, into so-called DT systems, and managing the evolution of these DT systems, currently requires a lot of effort from engineers. More precisely, this high effort stems from (i) redundant effort when specifying DT models in addition to engineering models, (ii) redundant effort when connecting DT services to both PT and simulations, and (iii) lack of dedicated support for managing variability when evolving DT systems in time and space.

AB - Digital twins (DTs) are an emerging concept to handle the complexity of modern cyber-physical systems. They are virtual representations of physical objects (referred to as physical twins or PTs) that allow interaction with these objects. Experimentable DTs extend this notion through simulations of the physical object that allow experimentation and exploiting what-if scenarios. Based on these DTs, engineers can build innovative applications, from predictive maintenance to self-adaptation.Problem: Connecting DT services, together with DTs and simulations, into so-called DT systems, and managing the evolution of these DT systems, currently requires a lot of effort from engineers. More precisely, this high effort stems from (i) redundant effort when specifying DT models in addition to engineering models, (ii) redundant effort when connecting DT services to both PT and simulations, and (iii) lack of dedicated support for managing variability when evolving DT systems in time and space.

M3 - Doctoral thesis

ER -