Bibliographic citations
Garrafa, S., Olea, Z. (2023). Modelos de clasificación de densidad mamaria utilizando redes neuronales convolucionales [Trabajo de investigaciòn, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/667566
Garrafa, S., Olea, Z. Modelos de clasificación de densidad mamaria utilizando redes neuronales convolucionales [Trabajo de investigaciòn]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2023. http://hdl.handle.net/10757/667566
@misc{renati/404641,
title = "Modelos de clasificación de densidad mamaria utilizando redes neuronales convolucionales",
author = "Olea Bernales, Zoila Lastenia",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2023"
}
For the development of the investigation we base ourselves on two important points. The first is a previous planning, which contained the formulation of the specific questions regarding the research topic, then the databases that allowed us to obtain these correctly selected documents were considered. In addition, the keywords that made the search more precise were determined. Likewise, the inclusion and exclusion criteria were considered and the process was diagrammed to have a visual panorama of the flow carried out. The second point was the obtaining of results and analysis, which after having completed the first part, in each of the selected papers, the review of the results was carried out taking into account the technique, the contribution it left, the validation process used and the results obtained. In the analysis part, the crossover analysis was carried out, considering here the points that each question has contained, in this case it referred to the models, components, techniques and validations used in carrying out the mammary classification with neural networks. convolutionals. Finally, the respective conclusions were made where it was mentioned that it is necessary to follow both points, but based on the defined questions, so that the project-oriented information is obtained. In addition, it was evidenced, in terms of the information provided by the researchers, that the greater the number of cross-validations, the greater the precision that even 99% can obtain in the classification of breast density.
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