A review of an ontology-based digital twin to enable condition-based maintenance for aircraft operations
A review of an ontology-based digital twin to enable condition-based maintenance for aircraft operations
The concept of digital twins has been studied for over two decades and the core tenet lies in it being a “digital representation of a connected physical object”. Utilization of digital twins promises to enable superior decision-making, enhanced operational understanding and future predictions to enable levels of Condition Based Maintenance (CBM) through Integrated Vehicle Health Management (IVHM) which exceeds existing capabilities. Digital twins are being embraced by many industries, including aviation, and are often depicted as electronic images of an asset of interest. However, in a less visually appealing manner, they can also be described simply as a collection of data in an organized and easily accessible format from across the lifecycle which describes a feature that addresses a specific use case. This review demonstrates how the creation and maintenance of digital twins will play a critical role in enhancing IVHM to enable CBM within the aerospace industry. Through a literature review, this paper demonstrates the need for digital twins, of a sufficient level of fidelity, to facilitate the transition to being condition based through deeper levels of operational and component understanding. It emphasizes how detailed knowledge, represented through ontologies, regarding component design, manufacturing, and operational history aid in achieving the desired fidelity levels. By synthesizing insights from various industries with a focus on aerospace applications, this paper aims to provide a comprehensive understanding, focused on the aviation industry, of digital twin definitions, their creation processes, fidelity measurement, and their implications for CBM, while acknowledging the limitations of the current research landscape.
condition based maintenance, digital twin, fidelity, integrated vehicle health management, ontology
Macer, Darren B.
ac273c5f-51af-4e38-b5a4-ef155dfbf345
Jennions, Ian K.
9b2b7ddf-6b77-4a11-956b-7279f7435db9
Avdelidis, Nicolas P.
a3de63a8-48ff-4664-b6fa-8650721f39bb
17 October 2025
Macer, Darren B.
ac273c5f-51af-4e38-b5a4-ef155dfbf345
Jennions, Ian K.
9b2b7ddf-6b77-4a11-956b-7279f7435db9
Avdelidis, Nicolas P.
a3de63a8-48ff-4664-b6fa-8650721f39bb
Macer, Darren B., Jennions, Ian K. and Avdelidis, Nicolas P.
(2025)
A review of an ontology-based digital twin to enable condition-based maintenance for aircraft operations.
Applied Sciences, 15 (20), [11136].
(doi:10.3390/app152011136).
Abstract
The concept of digital twins has been studied for over two decades and the core tenet lies in it being a “digital representation of a connected physical object”. Utilization of digital twins promises to enable superior decision-making, enhanced operational understanding and future predictions to enable levels of Condition Based Maintenance (CBM) through Integrated Vehicle Health Management (IVHM) which exceeds existing capabilities. Digital twins are being embraced by many industries, including aviation, and are often depicted as electronic images of an asset of interest. However, in a less visually appealing manner, they can also be described simply as a collection of data in an organized and easily accessible format from across the lifecycle which describes a feature that addresses a specific use case. This review demonstrates how the creation and maintenance of digital twins will play a critical role in enhancing IVHM to enable CBM within the aerospace industry. Through a literature review, this paper demonstrates the need for digital twins, of a sufficient level of fidelity, to facilitate the transition to being condition based through deeper levels of operational and component understanding. It emphasizes how detailed knowledge, represented through ontologies, regarding component design, manufacturing, and operational history aid in achieving the desired fidelity levels. By synthesizing insights from various industries with a focus on aerospace applications, this paper aims to provide a comprehensive understanding, focused on the aviation industry, of digital twin definitions, their creation processes, fidelity measurement, and their implications for CBM, while acknowledging the limitations of the current research landscape.
Text
applsci-15-11136-v2
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More information
Accepted/In Press date: 13 October 2025
e-pub ahead of print date: 17 October 2025
Published date: 17 October 2025
Keywords:
condition based maintenance, digital twin, fidelity, integrated vehicle health management, ontology
Identifiers
Local EPrints ID: 510153
URI: http://eprints.soton.ac.uk/id/eprint/510153
ISSN: 2076-3417
PURE UUID: 16f72cd5-800c-4888-9277-415ff5242d25
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Date deposited: 19 Mar 2026 17:36
Last modified: 20 Mar 2026 03:10
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Author:
Darren B. Macer
Author:
Ian K. Jennions
Author:
Nicolas P. Avdelidis
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