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Submission last date: 15th November 2024

A hybrid deep transfer learning framework for stroke risk prediction

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Author: 
P. Akshay Kumar, M. Abhishek, G. Akshai Sai, V. Monica and Sunil Bhutada
Page No: 
5437-5440

Around the world, stroke is the main source of death and long haul incapacity, and there is as of now no successful treatment. Strategies in light of deep learning outflank existing calculations for foreseeing stroke risk, yet they need a great deal of information that has been named accurately. Because of serious secret rules in clinical benefits systems, stroke data is a significant part of the time participated in parts among different affiliations. Both the positive and negative information models are very one-sided. Transfer learning can assist with little data issues by utilizing data from a connected field when there are various data sources free. A clever Mixture Hybrid Deep Transfer Learning-based Stroke Risk Prediction (HDTL-SRP) system for managing the information plan of different associated sources is portrayed in this article. For example, information on wounds supported outside and constant sicknesses like diabetes and hypertension). The proposed technique presently beats the best stroke risk gauge calculations after broad testing in fictitious and certifiable situations. Furthermore, it shows the suitability of utilization in reality in countless 5 G/B5G-utilizing associations.

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