Physical Activity Detection for Diabetes Mellitus Patients Using Recurrent Neural Networks.
Lehel Dénes-FazakasBarbara SimonÁdám HartvégLevente KovacsÉva-Henrietta DulfLászló SzilágyiGyörgy EignerPublished in: Sensors (Basel, Switzerland) (2024)
Diabetes mellitus (DM) is a persistent metabolic disorder associated with the hormone insulin. The two main types of DM are type 1 (T1DM) and type 2 (T2DM). Physical activity plays a crucial role in the therapy of diabetes, benefiting both types of patients. The detection, recognition, and subsequent classification of physical activity based on type and intensity are integral components of DM treatment. The continuous glucose monitoring system (CGMS) signal provides the blood glucose (BG) level, and the combination of CGMS and heart rate (HR) signals are potential targets for detecting relevant physical activity from the BG variation point of view. The main objective of the present research is the developing of an artificial intelligence (AI) algorithm capable of detecting physical activity using these signals. Using multiple recurrent models, the best-achieved performance of the different classifiers is a 0.99 area under the receiver operating characteristic curve. The application of recurrent neural networks (RNNs) is shown to be a powerful and efficient solution for accurate detection and analysis of physical activity in patients with DM. This approach has great potential to improve our understanding of individual activity patterns, thus contributing to a more personalized and effective management of DM.
Keyphrases
- physical activity
- glycemic control
- blood glucose
- artificial intelligence
- neural network
- type diabetes
- end stage renal disease
- heart rate
- machine learning
- body mass index
- deep learning
- newly diagnosed
- ejection fraction
- chronic kidney disease
- blood pressure
- prognostic factors
- cardiovascular disease
- adipose tissue
- high resolution
- stem cells
- sleep quality
- big data
- metabolic syndrome
- risk assessment
- insulin resistance
- skeletal muscle
- label free
- patient reported
- cell therapy