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Neuroimaging-Driven Stroke Diagnosis: A Deep Learning Approach

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Titel: Neuroimaging-Driven Stroke Diagnosis: A Deep Learning Approach
Autoren: Yarrapureddy Madhu Smitha, Dr. K G Chiranjivi
Verlagsinformationen: Journal of Scholastic Engineering Science and Management (JSESM), 2025.
Publikationsjahr: 2025
Schlagwörter: Machine Learning, Healthcare AI, Deep Learning, Medical Imaging, Neuroimages, Stroke Diagnosis, DenseNet, Stroke Classification, Diagnostic Model
Beschreibung: Effective stroke treatment and better patient outcomes depend on the prompt and precise detection of strokes. Precision and efficiency issues plague traditional diagnostic techniques frequently. This research presents an Innovative diagnostic framework driven by machine learning, leveraging the DenseNet architecture to classify neuroimages as either normal or indicative of stroke. We develop a comprehensive diagnostic tool by using the inherent dense connection of DenseNet, which enables better feature extraction and improves gradient flow. The framework undergoes training on a wide range of neuroimages, utilizing sophisticated preprocessing methods to improve its flexibility and functionality. According to preliminary results, using normal neuroimages, the DenseNet model achieves a testing accuracy of 96.60% and a training accuracy of 99%, highlighting its potential to greatly increase the precision and efficacy of stroke recognition. Health care providers could find this tool to be a useful resource. Subsequent studies will concentrate on verifying the model with more extensive datasets and carrying out actual clinical trials to determine its effectiveness and dependability in real-world scenarios. This study demonstrates how deep learning models have a revolutionary impact on stroke diagnosis and patient care in general.
Publikationsart: Article
Sprache: English
DOI: 10.5281/zenodo.15045916
DOI: 10.5281/zenodo.15045915
Rights: CC BY
Dokumentencode: edsair.doi.dedup.....6b31047abcd1afaec62f15d55d72df00
Datenbank: OpenAIRE
Beschreibung
Abstract:Effective stroke treatment and better patient outcomes depend on the prompt and precise detection of strokes. Precision and efficiency issues plague traditional diagnostic techniques frequently. This research presents an Innovative diagnostic framework driven by machine learning, leveraging the DenseNet architecture to classify neuroimages as either normal or indicative of stroke. We develop a comprehensive diagnostic tool by using the inherent dense connection of DenseNet, which enables better feature extraction and improves gradient flow. The framework undergoes training on a wide range of neuroimages, utilizing sophisticated preprocessing methods to improve its flexibility and functionality. According to preliminary results, using normal neuroimages, the DenseNet model achieves a testing accuracy of 96.60% and a training accuracy of 99%, highlighting its potential to greatly increase the precision and efficacy of stroke recognition. Health care providers could find this tool to be a useful resource. Subsequent studies will concentrate on verifying the model with more extensive datasets and carrying out actual clinical trials to determine its effectiveness and dependability in real-world scenarios. This study demonstrates how deep learning models have a revolutionary impact on stroke diagnosis and patient care in general.
DOI:10.5281/zenodo.15045916