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A Framework base analyzing cancer cells in blood Image segmentation by using convolution neural networks
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| Author:
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V. KAKULAPATI, S. MAHENDER REDDY
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| Abstract:
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The identification and characterization of blood cells for the diagnosis of diseases is considered as an invasive
method because it requires extracting blood samples for the analysis. Many types of research described detecting
and categorizing blood cells by implemented in medical applications such as Convolutional auto-encoders. With
these methods, the performance in deep Convolutional neural networks for classifying image data is stacking. We
propose a flexible Convolutional automatic detection of cancer cells in blood images by utilizing the conventional
neural network with image segmentation. The Convolutional neural networks trained by a labeled training dataset
of blood cell images where they repeatedly acquire the characteristics of a diseased and further use these features
to detect the disease in the test images This system illustrated in blood image acquisition, image segmentation and
detection of cancer cell modules, homomorphic feature extraction. Automated summaries of erythrocytes from
digital blood cell images by proficient machine learning approaches would enhance the throughput and value of
morphologic analysis. In this regard, we implemented to evaluate the performance of image segmentation of blood
cell images for Convolutional neural networks (CNNs) applied to the classification of erythrocytes based on
morphology. Prototypical and its functions are employed to hypothesis the Convolutional neural network and to
prepare and assess the neural network. This technique of deep learning/machine learning to diagnose cancer cells is
less timing consuming, almost accurate, and can handle hundreds of test blood cell images simultaneously. Thus
assistance a considerable number of patients receive treatment in the probable initial stages of the cancer disease.
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| Keyword:
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cancer, training, neural, classification, images, enterocyte, blood
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| EOI:
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| DOI:
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https://doi.org/10.31838/ijpr/2019.11.04.208
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| Download:
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