利用资源有限的嵌入式设备对组织病理图像进行分类的微型概率图

Anil Johny, K. Madhusoodanan
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引用次数: 0

摘要

使用CNN预测组织病理图像中的恶性肿瘤,主要是使用云服务进行的,受到网络延迟的影响。我们提出了一种新的,有效的方法来分类整个切片组织病理学图像使用模块化和便携式嵌入式设备来检测细胞异常的存在。提出的方法生成概率图,该概率图表示预测,以便获得组织恶性肿瘤的鸟瞰图。组织病理图像的微缩图(mini-map)是在患者水平上对二分类概率的概述。使用自定义训练模型可以减少设备的计算开销,并且预测速度更快。由于计算发生在终端设备本身附近,往返时间也减少了。在迷你地图中获得的预测结果可以在任何便携式设备上查看,因为地图的大小只有几千字节。这种方法被发现是适合于协助医生在病人诊断。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Miniature probability maps using resource limited embedded device for classification of histopathological images
Prediction of malignancy in histopathology images using CNN is mostly performed using cloud services suffers from network latency. We propose a novel, efficient method to classify whole slide histopathology images using modular and portable embedded devices to detect the presence of cell abnormality. The proposed method generates probability maps which indicates predictions so that a bird’s-eye view of tissue malignancy can be obtained. The miniature map(mini-map) of histopathology image is the overview of binary class probabilities at the patient level. The computational overhead of device is reduced as well as prediction will be faster while using custom-trained model. The round trip time is also reduced as the computing occurs near the end-device itself. The obtained predictions in mini-map can be viewed in any portable device consuming minimum processing time as the size of the map is only few kilo-bytes. This method is found to be suitable to assist medical practitioners in patient diagnosis.
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