A Fault-Detection System Approach for the Optimization of Warship Equipment Replacement Parts Based on Operation Parameters
Use this link to cite
http://hdl.handle.net/2183/33048
Except where otherwise noted, this item's license is described as Creative Commons Attribution (CC BY) license https://creativecommons.org/licenses/by/4.0/
Collections
- GI-CTC - Artigos [80]
Metadata
Show full item recordTitle
A Fault-Detection System Approach for the Optimization of Warship Equipment Replacement Parts Based on Operation ParametersAuthor(s)
Date
2023-03-23Citation
Michelena, Á.; López, V.; Lamas López, F.; Arce, E.; Mendoza García, J.; Suárez-García, A.; García Espinosa, G.; Calvo-Rolle, J.-L.; Quintián, H. A Fault-Detection System Approach for the Optimization of Warship Equipment Replacement Parts Based on Operation Parameters. Sensors 2023, 23, 3389.
https://doi.org/10.3390/s23073389
Abstract
[Abstract] Systems engineering plays a key role in the naval sector, focusing on how to design, integrate, and manage complex systems throughout their life cycle; it is therefore difficult to conceive functional warships without it. To this end, specialized information systems for logistical support and the sustainability of material solutions are essential to ensure proper provisioning and to know the operational status of the frigate. However, based on an architecture composed of a set of logistics applications, this information system may require highly qualified operators with a deep knowledge of the behavior of onboard systems to manage it properly. In this regard, failure detection systems have been postulated as one of the main cutting-edge methods to address the challenge, employing intelligent techniques for observing anomalies in the normal behavior of systems without the need for expert knowledge. In this paper, the study is concerned to the scope of the Spanish navy, where a complex information system structure is responsible for ensuring the correct maintenance and provisioning of the vessels. In such context, we hereby suggest a comparison between different one-class techniques, such as statistical models, geometric boundaries, or dimensional reduction to face anomaly detection in specific subsystems of a warship, with the prospect of applying it to the whole ship.
Keywords
Fault detection
One-class
Warship
Machine learning
One-class
Warship
Machine learning
Editor version
Rights
Creative Commons Attribution (CC BY) license https://creativecommons.org/licenses/by/4.0/
ISSN
1424-8220