2021
DOI: 10.3390/app112210662
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An Attention-Based Convolutional Neural Network for Acute Lymphoblastic Leukemia Classification

Abstract: Leukemia is a kind of blood cancer that influences people of all ages and is one of the leading causes of death worldwide. Acute lymphoblastic leukemia (ALL) is the most widely recognized type of leukemia found in the bone marrow of the human body. Traditional disease diagnostic techniques like blood and bone marrow examinations are slow and painful, resulting in the demand for non-invasive and fast methods. This work presents a non-invasive, convolutional neural network (CNN) based approach that utilizes medi… Show more

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Cited by 38 publications
(15 citation statements)
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References 46 publications
(56 reference statements)
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“…Among deep-learning strategies, VGG16 has been commonly reported for leukemia detection [36][37][38], with outstanding results in one of the herein tested databases (accuracy of 97.04 ± 1.21 for D1) [39,40]. The present work extends this evaluation to the D2 database for the VGG16, while the D1 test is performed under a five-fold scheme which is considered more general than a simple leave-on-out strategy, as already reported [40].…”
Section: Experiments 3: Evaluating State-of-the-art Strategies In Bla...supporting
confidence: 60%
See 1 more Smart Citation
“…Among deep-learning strategies, VGG16 has been commonly reported for leukemia detection [36][37][38], with outstanding results in one of the herein tested databases (accuracy of 97.04 ± 1.21 for D1) [39,40]. The present work extends this evaluation to the D2 database for the VGG16, while the D1 test is performed under a five-fold scheme which is considered more general than a simple leave-on-out strategy, as already reported [40].…”
Section: Experiments 3: Evaluating State-of-the-art Strategies In Bla...supporting
confidence: 60%
“…This experiment takes two of the best state‐of‐the‐art CNNs for this task, and separately trains each to classify blast and nonblasts in D1 and D2, that is, VGG16 [28] and RESNEXT [29] are considered as baseline. Among deep‐learning strategies, VGG16 has been commonly reported for leukemia detection [36–38], with outstanding results in one of the herein tested databases (accuracy of 97.04 ± 1.21 for D1) [39, 40]. The present work extends this evaluation to the D2 database for the VGG16, while the D1 test is performed under a five‐fold scheme which is considered more general than a simple leave‐on‐out strategy, as already reported [40].…”
Section: Methodssupporting
confidence: 52%
“…The PBC dataset is imbalanced, therefore to overcome the potential for overfitting we apply data preprocessing techniques similarly employed by Rastogi et al and Zakir Ullah et al 7,23 in their research. For PBC dataset we implemented two distinct approaches: undersampling and oversampling.…”
Section: Data Preprocessingmentioning
confidence: 99%
“…The experiment results indicate that the authors' presented method has the highest classification accuracy at 95.18%. Using a CNN-based ECA module, M-Zakir et al [63] improved the CNN hyperparameters and achieved 91.10% accuracy on the dataset. To detect images of cells, P.Cho et al [64] proposed a vision transfer model and achieved an accuracy of 88.20% on the dataset.…”
Section: F N P Redictedf Alseclassmentioning
confidence: 99%