Deep Learning for Malaria Diagnosis: Leveraging Convolutional Neural Networks for Accurate Parasite Detection

widad kadhim; Dr. Mohammed A. Taha; Haider D. Abduljabbar

doi:10.31185/wjps.205

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widad kadhim Ministry of Education , Ministry of Education , Ministry of Education , Ministry of Education , Ministry of Education , Ministry of Education , Ministry of Education , Ministry of Education , Ministry of Education , Ministry of Education , Ministry of Education , Ministry of Education , Ministry of Education , Ministry of Education , Ministry of Education , Ministry of Education , Ministry of Education , Ministry of Education , Ministry of Education , Ministry of Education , Ministry of Education , Ministry of Education , Ministry of Education
Dr. Mohammed A. Taha
Haider D. Abduljabbar

DOI:

https://doi.org/10.31185/wjps.205

Abstract

malaria is one of the most severe diseases worldwide. However, the current diagnostic method that involves examining blood smears under a microscope is unreliable and heavily relies on the examiner's expertise. Recent attempts to use deep-learning algorithms for malaria diagnosis have not produced satisfactory results. But, a new CNN-based machine learning model has been proposed in a research paper that can automatically detect and predict infected cells in thin blood smears with 94.63% accuracy. This model accurately accentuates the region of interest for the stained parasite in the images, which increases its reliability, transparency, and comprehensibility, making it suitable for deployment in healthcare settings.

Deep Learning for Malaria Diagnosis: Leveraging Convolutional Neural Networks for Accurate Parasite Detection

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