Among its main benefits, telemonitoring enables personalized management of chronic diseases by means of biomarkers extracted from signals. In these applications, a thorough quality assessment is required to ensure the reliability of the monitored parameters. Motion artifacts are a common problem in recordings with wearable devices. In this work, we propose a fully automated and personalized method to detect motion artifacts in multimodal recordings devoted to the monitoring of the Cardiac Time Intervals (CTIs). The detection of motion artifacts was carried out by using template matching with a personalized template. The method yielded a balanced accuracy of 86%. Moreover, it proved effective to decrease the variability of the estimated CTIs by at least 17%. Our preliminary results show that personalized detection of motion artifacts improves the robustness of the assessment CTIs and opens to the use in wearable systems.

Personalized Detection of Motion Artifacts for Telemonitoring Applications / Giordano, Noemi; Rosati, Samanta; Fortunato, Daniele; Knaflitz, Marco; Balestra, Gabriella. - ELETTRONICO. - 314:(2024), pp. 155-159. (Intervento presentato al convegno pHealth 2024 tenutosi a Rende (Italy) nel 27-29 May 2024) [10.3233/shti240083].

Personalized Detection of Motion Artifacts for Telemonitoring Applications

Giordano, Noemi;Rosati, Samanta;Fortunato, Daniele;Knaflitz, Marco;Balestra, Gabriella
2024

Abstract

Among its main benefits, telemonitoring enables personalized management of chronic diseases by means of biomarkers extracted from signals. In these applications, a thorough quality assessment is required to ensure the reliability of the monitored parameters. Motion artifacts are a common problem in recordings with wearable devices. In this work, we propose a fully automated and personalized method to detect motion artifacts in multimodal recordings devoted to the monitoring of the Cardiac Time Intervals (CTIs). The detection of motion artifacts was carried out by using template matching with a personalized template. The method yielded a balanced accuracy of 86%. Moreover, it proved effective to decrease the variability of the estimated CTIs by at least 17%. Our preliminary results show that personalized detection of motion artifacts improves the robustness of the assessment CTIs and opens to the use in wearable systems.
2024
9781643685182
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11583/2992401