Abstract
White blood cells (leukocytes) are a very important component of the blood that forms the immune system, which is responsible for fighting foreign elements. The five types of white blood cells include neutrophils, eosinophils, lymphocytes, monocytes, and basophils, where each type constitutes a different proportion and performs specific functions. Being able to classify and, therefore, count these different constituents is critical for assessing the health of patients and infection risks. Generally, laboratory experiments are used for determining the type of a white blood cell. The staining process and manual evaluation of acquired images under the microscope are tedious and subject to human errors. Moreover, a major challenge is the unavailability of training data that cover the morphological variations of white blood cells so that trained classifiers can generalize well. As such, this paper investigates image transformation operations and generative adversarial networks (GAN) for data augmentation and state-of-the-art deep neural networks (i.e., VGG-16, ResNet, and DenseNet) for the classification of white blood cells into the five types. Furthermore, we explore initializing the DNNs' weights randomly or using weights pretrained on the CIFAR-100 dataset. In contrast to other works that require advanced image preprocessing and manual feature extraction before classification, our method works directly with the acquired images. The results of extensive experiments show that the proposed method can successfully classify white blood cells. The best DNN model, DenseNet-169, yields a validation accuracy of 98.8%. Particularly, we find that the proposed approach outperforms other methods that rely on sophisticated image processing and manual feature engineering.
Highlights
Blood is vital for life, and many functionalities of the body organs rely on healthy blood. e healthiness of blood can be assessed by analysing the blood constituents
The blood contains cells and a liquid portion known as the plasma [1]. e blood cells constitute about 45% of the blood volume, while the plasma constitutes the remaining 55% [2, 3]. e blood cells are of three types that include the red blood cells, white blood cells, and Platelets [4]. e red blood cells make up 40–45% of the blood, while the white blood cells make up about 1% of the blood [3, 5, 6]. e three different blood cells have different functions for the body organs
White blood cells are of five different types, which include neutrophils, eosinophils, lymphocytes, monocytes, and basophils; see Figure 1. ese blood cells can be further divided into two broad groups, granulocytes and agranulocytes [7]; see Figure 2
Summary
Blood is vital for life, and many functionalities of the body organs rely on healthy blood. e healthiness of blood can be assessed by analysing the blood constituents (i.e., cells). White blood cells are of five different types, which include neutrophils, eosinophils, lymphocytes, monocytes, and basophils; see Figure 1. The identification requires a laboratory setting where acquired images of blood cells are stained using special chemicals (i.e., reagents) and, afterwards, examined under a microscope by a specialist. We explore the state-of-art DNNs such as VGG [9], ResNet [10], and DenseNet [11] that are pretrained on the CIFAR-100 dataset [12] for classifying white blood cells into one of the following: neutrophils, eosinophils, lymphocytes, monocytes, or basophils. (1) Propose DNNs that are trainable end-to-end for the automatic classification of white blood cells into the five different types of white blood cells, which include neutrophils, eosinophils, lymphocytes, monocytes, or basophils.
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