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Cell nucleus center point detection method based on multi-task convolutional neural network

A convolutional neural network and detection method technology, applied in the field of cell nucleus center point detection based on multi-task convolutional neural network, can solve the problems of slow convergence, false negatives, false positives, etc., to improve detection performance and increase data annotation effect of difficulty

Active Publication Date: 2020-07-03
苏州优纳医疗器械有限公司
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Problems solved by technology

[0005] The present invention aims to provide a method for detecting the nucleus center point based on a multi-task convolutional neural network, which solves the problems of false negatives, false positives, and convergence speed when directly regressing to Gaussian kernels or dividing equivalent structural elements in pathological image nucleus detection. slow problem

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  • Cell nucleus center point detection method based on multi-task convolutional neural network
  • Cell nucleus center point detection method based on multi-task convolutional neural network
  • Cell nucleus center point detection method based on multi-task convolutional neural network

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[0052] In order to make the object, technical solution and advantages of the present invention clearer, the present invention will be further described in detail below in conjunction with the accompanying drawings.

[0053] Briefly, the invention includes data preparation, model structure design and model post-processing.

[0054] Data preparation: When labeling data, directly mark the center point of the cell nucleus. The two types of masks during training can be generated directly according to the coordinates of the point. The single-type Gaussian kernel is a two-dimensional Gaussian distribution in which the center point coincides with the marked center point. Array, the two types of equivalent cores are two-dimensional arrays of equivalent circular structure elements whose center point coincides with the label data.

[0055] Model structure design: This solution uses a fully convolutional network structure, including but not limited to the classic FCN network structure. Fi...

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Abstract

The invention discloses a cell nucleus center point detection method based on a multi-task convolutional neural network. The method comprises the following steps: dotting and marking central points ofcell nucleuses, generating two types of masks during training directly according to coordinates of dotting, with a single type of Gaussian kernel being a Gaussian distribution two-dimensional array with the central point coinciding with the marked central point, and two types of equivalent kernels being an equivalent circular structure element two-dimensional array with the central point coinciding with marking data; a full convolutional network structure is adopted, two types of equivalent structure masks are firstly used for training two types of segmentation models, parameters of the segmentation models are used for initializing a multi-task model, and then the whole model is finely adjusted by combining losses of two task branches; and during prediction, inputting an RGB image, outputting two types of segmentation images and a single-type probability image by the model, and determining the position and the type of a final cell nucleus by combining the two types of segmentation images. According to the method, the problems of false negative, false positive and low convergence rate during direct regression of Gaussian nucleuses or equivalent structural element segmentation during pathological image cell nucleus detection are solved.

Description

technical field [0001] The invention relates to the technical field of neural networks, in particular to a method for detecting the central point of a cell nucleus based on a multi-task convolutional neural network. Background technique [0002] The expression of ki67 is closely related to the occurrence of many tumor diseases, such as breast cancer, ovarian cancer, lymphoma and so on. Clinically, the ki67 index is often detected by immunohistochemical methods to reflect the proliferation activity of normal and diseased tissues or cells, to differentiate benign and malignant tumors, and to help the early diagnosis of malignant tumors, the selection of treatment methods and the evaluation of curative effects. The current method for determining the positive expression rate of ki67 is to check by pathologists under a microscope, but this is very time-consuming and accompanied by the risk of low consistency. At present, more and more institutions are trying to build a computer-a...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06T7/66G06T7/10G06T7/136G06T7/00G06N3/04G06N3/08
CPCG06T7/66G06T7/10G06T7/136G06T7/0012G06N3/08G06T2207/10056G06T2207/20081G06T2207/20132G06T2207/30096G06N3/045
Inventor 陈杰郑众喜杨一明雷雪梅向旭辉杜明熙
Owner 苏州优纳医疗器械有限公司
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