Peripheral Blood Smear (PBS) analysis is a vital routine test carried out by medical specialists to assess some health aspects of individuals. The automation of blood analysis has attracted the attention of researchers in recent years, as it will not only save time, money and reduce errors, but also protect and save lives of front-line workers, especially during pandemics. In this work, deep neural networks are trained on a synthetic blood smears dataset to classify fifteen different white blood cell and platelet subtypes and morphological abnormalities. For classifying platelets, a hybrid approach of deep learning and image processing techniques is proposed. This approach improved the platelet classification accuracy and macro-average precision from 82.6% to 98.6% and 76.6%–97.6% respectively.

Moreover, for white blood cell classification, a novel scheme for training deep networks is proposed, namely, Enhanced Incremental Training, that automatically recognises and handles classes that confuse and negatively affect neural network predictions. To handle the confusable classes, we also propose a procedure called “training revert”. Application of the proposed method has improved the classification accuracy and macro-average precision from 61.5% to 95% and 76.6%–94.27% respectively.

中文翻译:

外周血涂片(PBS)分析是医学专家进行的一项至关重要的常规测试,目的是评估个人的某些健康状况。近年来,血液分析的自动化吸引了研究人员的注意力,因为它不仅可以节省时间,金钱和减少错误,而且可以保护和挽救一线工人的生命,尤其是在大流行期间。在这项工作中,在合成的血液涂片数据集上训练了深度神经网络,以对15种不同的白细胞和血小板亚型以及形态异常进行分类。为了对血小板进行分类,提出了深度学习和图像处理技术的混合方法。该方法将血小板分类准确度和宏观平均准确度分别从82.6%提高到了98.6%和76.6%– 97.6%。

此外,对于白细胞分类,提出了一种用于训练深层网络的新方案,即增强增量训练,该方案可以自动识别和处理混淆并负面影响神经网络预测的类。为了处理容易混淆的类,我们还提出了一个称为“训练还原”的过程。所提方法的应用使分类准确率和宏观平均准确率分别从61.5%提高到95%和76.6%–94.27%。