Dataset construction for machine learning based wired networks prognosis - CEA - Université Paris-Saclay
Communication Dans Un Congrès Année : 2024

Dataset construction for machine learning based wired networks prognosis

Résumé

Prognostic methods leveraging Machine Learning (ML) require consistent and complete datasets to achieve accurate predictions. However, in the context of cable prognosis based on reflectometry, assembling such datasets is challenging due to the prolonged process of accumulating real condition monitoring data over the lifespan of cables and also the lack of such available datasets in the literature as far as we are informed. Hence, this paper proposes a solution for relevant data generation to simulate the degradation of cables during their lifetime. This initial step is highly important in our proposed cable prognosis methodology, which integrates distributed reflectometry sensors and ML techniques to estimate the remaining useful life of multi-branched wired networks. To do so, two use cases of cable aging, using model-driven and experimental approaches, are studied in this paper. As a conclusion, a hybrid approach will be considered based on accelerated aging experiments and simulations to set up a pertinent dataset and provide a deeper understanding of the cable degradation process.
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Dates et versions

cea-04784242 , version 1 (14-11-2024)

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Baudouin Naline, Nicolas Ravot, Wafa Ben Hassen, Sandra Garcia Rodriguez, Karine Zeitouni. Dataset construction for machine learning based wired networks prognosis. PHM 2024 - 2024 Prognostics and Health Management Conference, May 2024, Stockholm, Sweden. pp.209-216, ⟨10.1109/PHM61473.2024.00046⟩. ⟨cea-04784242⟩
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