Archivio Istituzionale della RicercaThe technologies grouped under the term Extended Reality (XR) are constantly evolving. Only fifty years ago, they were delegated to the science fiction strand and were not feasible except in the distant future; today, they are successfully used for personnel training, diagnostic maintenance, education, and more. This article focuses on one such technology: Augmented Reality (AR). In particular, it aims to present an improvement of a software created to monitor the values of Fiber Bragg Grating (FBG) sensors for aeronautical applications. The ability to overlay the status of various network-connected smart elements allows the operator to evaluate actual conditions in a highly intuitive and seamless manner, thus accelerating various activities. It was evaluated in a controlled environment to perform strain and temperature measurements of an Unmanned Aerial Vehicle (UAV), where it demonstrated its usefulness.
Innovative Monitoring for Aeronautical Application Through Augmented Reality / Marceddu, ANTONIO COSTANTINO; Aimasso, Alessandro; Bertone, Matteo; Maggiore, Paolo; DALLA VEDOVA, MATTEO DAVIDE LORENZO; Montrucchio, Bartolomeo. - In: ENGINEERING PROCEEDINGS. - ISSN 2673-4591. - ELETTRONICO. - 90 (1):(2025). (Intervento presentato al convegno 14th EASN International Conference tenutosi a Thessaloniki (GRC) nel October 8-11, 2024) [10.3390/engproc2025090053].
Innovative Monitoring for Aeronautical Application Through Augmented Reality
Antonio Costantino Marceddu;Alessandro Aimasso;Matteo Bertone;Paolo Maggiore;Matteo Davide Lorenzo Dalla Vedova;Bartolomeo Montrucchio
2025
Abstract
The technologies grouped under the term Extended Reality (XR) are constantly evolving. Only fifty years ago, they were delegated to the science fiction strand and were not feasible except in the distant future; today, they are successfully used for personnel training, diagnostic maintenance, education, and more. This article focuses on one such technology: Augmented Reality (AR). In particular, it aims to present an improvement of a software created to monitor the values of Fiber Bragg Grating (FBG) sensors for aeronautical applications. The ability to overlay the status of various network-connected smart elements allows the operator to evaluate actual conditions in a highly intuitive and seamless manner, thus accelerating various activities. It was evaluated in a controlled environment to perform strain and temperature measurements of an Unmanned Aerial Vehicle (UAV), where it demonstrated its usefulness.
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https://hdl.handle.net/11583/2990647