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Remote Patient Monitoring and Classification of Diabetes Subtypes Classification Using Deep-Learning Reconstruction Algorithm


Affiliations
1 Department of Computer Science and Engineering, SRM Madurai College for Engineering and Technology, India
2 Department of Information Technology, Sethu Institute of Technology, India
3 Department of Computer Science and Engineering, Vel Tech Rangarajan Dr.Sagunthala R&D Institute of Science and Technology, India
4 Department of Computer Science and Engineering, Sethu Institute of Technology, India
     

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Remote patient monitoring has become pivotal in managing chronic diseases like diabetes. This study proposes a novel approach for the classification of diabetes subtypes utilizing a deep-learning reconstruction algorithm. The system leverages continuous patient data obtained through remote monitoring devices, enabling real-time analysis for timely intervention. The deep-learning reconstruction algorithm, based on a convolutional neural network architecture, demonstrated exceptional accuracy in distinguishing between diabetes subtypes. The model achieved an overall classification accuracy of 92%, outperforming traditional methods. It exhibited high sensitivity and specificity, with values exceeding 90% for each subtype. The results showcase the system’s effectiveness in classifying diabetes subtypes: Type 1 diabetes (Sensitivity: 94%, Specificity: 92%), Type 2 diabetes (Sensitivity: 91%, Specificity: 94%), and Gestational diabetes (Sensitivity: 93%, Specificity: 91%). The system’s ability to accurately identify these subtypes ensures personalized and targeted care for patients.

Keywords

Deep-Learning Reconstruction Algorithm, Diabetes Subtypes, Remote Patient Monitoring, Convolutional Neural Network, Healthcare Classification.
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  • Remote Patient Monitoring and Classification of Diabetes Subtypes Classification Using Deep-Learning Reconstruction Algorithm

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Authors

Callins Christiyana Chelladurai
Department of Computer Science and Engineering, SRM Madurai College for Engineering and Technology, India
Punitha Murugesan
Department of Information Technology, Sethu Institute of Technology, India
Sivajothi Esakkimani
Department of Computer Science and Engineering, Vel Tech Rangarajan Dr.Sagunthala R&D Institute of Science and Technology, India
Selvi Shanmuga Pandian
Department of Computer Science and Engineering, Sethu Institute of Technology, India

Abstract


Remote patient monitoring has become pivotal in managing chronic diseases like diabetes. This study proposes a novel approach for the classification of diabetes subtypes utilizing a deep-learning reconstruction algorithm. The system leverages continuous patient data obtained through remote monitoring devices, enabling real-time analysis for timely intervention. The deep-learning reconstruction algorithm, based on a convolutional neural network architecture, demonstrated exceptional accuracy in distinguishing between diabetes subtypes. The model achieved an overall classification accuracy of 92%, outperforming traditional methods. It exhibited high sensitivity and specificity, with values exceeding 90% for each subtype. The results showcase the system’s effectiveness in classifying diabetes subtypes: Type 1 diabetes (Sensitivity: 94%, Specificity: 92%), Type 2 diabetes (Sensitivity: 91%, Specificity: 94%), and Gestational diabetes (Sensitivity: 93%, Specificity: 91%). The system’s ability to accurately identify these subtypes ensures personalized and targeted care for patients.

Keywords


Deep-Learning Reconstruction Algorithm, Diabetes Subtypes, Remote Patient Monitoring, Convolutional Neural Network, Healthcare Classification.

References