CN107368671A - System and method are supported in benign gastritis pathological diagnosis based on big data deep learning - Google Patents

Abstract

The invention discloses a kind of benign gastritis pathological diagnosis based on big data deep learning to support system and method, and the system includes：View data obtaining unit, the pathological section image of the benign gastritis cases for obtaining normal mucosa tissues sectioning image and having made a definite diagnosis are used as input image data；View data marks unit, for being labeled to input image data；Image data base construction unit, for the classification of the view data of mark, the arrangement provided view data mark unit, build pathological image database；Convolutional neural networks (CNN) structural unit, for constructing the first convolution neural network model；And convolutional neural networks model training unit, obtain preferable convolutional neural networks model.Support system and method to realize accurate and efficient intelligent read tablet by the benign gastritis pathological diagnosis of the present invention, worked with the pathological diagnosis of benign gastritis on adjuvant clinical, improve its accuracy rate, operating efficiency and operation duration state.

Description

System and method are supported in benign gastritis pathological diagnosis based on big data deep learning

Technical field

The present invention relates to a kind of benign gastritis pathological diagnosis based on big data deep learning to support system and method.

Background technology

Deep learning is that current artificial intelligence field is used for most agreeing with, being most widely used for image recognition and speech analysis Algorithm, its inspiration come from the working mechanism of human brain, are that the data of outside input are entered by establishing convolutional neural networks Row automation feature extraction, so as to make machine rational learning data, obtain information and export.At present, based on deep learning Artificial intelligence be applied to industry-by-industry field, including speech recognition, recognition of face, vehicle-logo recognition, handwritten Kanji recognition etc.. The research and development of products of artificial intelligence medical assistance technology also makes substantial progress in recent years, is such as ground by Google's brain and Verily companies The artificial intelligence product for breast cancer pathological diagnosis of hair can reach 89% tumor-localizing accuracy rate；Zhejiang University attached One hospital realizes in quick analysis thyroid gland B ultrasound the position of knuckle areas and good pernicious using artificial intelligence.

During medical diagnosis, pathological diagnosis is the goldstandard of medical diagnosis on disease.The pathological tissue of the overwhelming majority is cut at present Piece is analyzed and judged with reference to the clinical diagnosis experience of itself long term accumulation by manual manufacture, and by pathologist.Under gastroscope It is the goldstandard for diagnosing disease of stomach that tissue biopsy, which carries out histopathologic examination,.The pathological diagnosis of benign gastritis can indicate and face Bed is lapsed to such as whether peptic ulcer or stomach cancer can be developed into, and objective basis is provided for clinical treatment and prognosis evaluation.According to aobvious The degree of inflammation (invasive depth of the inflammatory cell in mucous layer) of stomach lining, body of gland atrophy degree under micro mirror, (mucous membrane goes out intestinal metaplasia Existing goblet cell and intestinal absorption epithelial cell metaplasia), atypical hyperplasia degree, the index of correlation such as erosion or necrosis can specify gastritis Diagnosis, so as to instruct clinical diagnosis and treatment, improve patients ' life quality.

Therefore, it is mainly the shortcomings that histopathological methods diagnosis of benign gastritis：It is by disease that the result of pathology slide, which judges, Reason doctor visually observes gained, and the subjective factor such as this artificial diagosis method and pathologist experience, working condition is close Correlation, easily produce error.Pathologist will be responsible for checking all visible biological tissues in section, and each patient can There are many sections, it is assumed that carrying out 40 times of amplifications, then each section has more than 100 hundred million pixel, therefore artificial diagosis workload pole Greatly, easily influenceed by the factor such as diagosis person's subjective emotion and tired diagosis.Moreover, different virologists can to same patient Significantly different diagnosis can be provided.Therefore, the Tissue pathological diagnosis method that this height relies on human factor has master Otherness is seen, plus its working strength is big, time cost is high and the shortcomings of diagnosing inconsistency, can largely influence benign The specification diagnosis and treatment of gastritis and patients ' life quality and prognosis.In addition, the qualified professional pathologist of culture needs to carry out long-term Professional training and practice process, cultivation cycle length, and easily influenceed by social factors such as current social economy, culture, it is meant that China or even the big severe situation urgent need to resolve of whole world pathologist quantity " supply falls short of demand ", professional breach.

The content of the invention

The shortcomings that diagosis artificial for Histopathology, the present invention intend by computer to a large amount of benign gastritis pathological images Deep learning is carried out, to establish intelligentized benign gastritis pathological diagnosis mathematical modeling, is built based on big data and deep learning The benign gastritis auxiliary pathological diagnosis artificial intelligence platform of algorithm, so as to realize high-accuracy and efficient intelligent read tablet, with The pathological diagnosis work of benign gastritis, improves its accuracy rate, operating efficiency and operation duration state on adjuvant clinical.

Based on this, it is an object of the invention to overcome in place of above-mentioned the deficiencies in the prior art and clinic can be improved by providing one kind System is supported in the benign gastritis pathological diagnosis of efficiency, reduction medical treatment cost during diagnosis of benign gastritis.

To achieve the above object, the technical scheme taken of the present invention is：A kind of Benign Gastric based on big data deep learning System is supported in scorching pathological diagnosis, and the support system includes：View data obtaining unit, cut for obtaining normal mucosa tissues The pathological section image of picture and the benign gastritis cases made a definite diagnosis is as input image data；View data mark is single Member, for being labeled to the input image data, and ensure the label of image and the true pathological diagnosis knot of image Fruit is consistent；Image data base construction unit, for classifying to the view data of mark of described image data mark unit offer, Arrange, build pathological image database；Convolutional neural networks structural unit, for constructing the first convolution neural network model；With And convolutional neural networks model training unit, using the view data of the pathological image database to first convolutional Neural The parameter of network model is adjusted, and training the first convolution neural network model, obtains and can be used for detecting disease Manage the second convolution neural network model of view data.

Thus, doctor can be with reference to the holding equipment for the classification results that provide of patient's pathological image of input and corresponding Probability, and doctor professional standing and experience be rapidly diagnosed to be the patient whether suffer from benign gastritis, significantly improve The efficiency of clinical diagnosis, so as to reduce medical treatment cost；Wherein, in order to ensure that the view data that is collected into is accurate, Ke Yili With image labeling instrument ASAP, every pathological section image is labeled, to ensure that the label of image is consistent with actual value；For Accelerate the speed of training network model, the GPU with high-speed parallel calculating can be used to be trained instead of CPU；In order to Accelerate the detection speed of convolutional neural networks model, based on convolutional neural networks training unit, the network mould that will can be trained Type is modeled as the CNN disaggregated model structures of variable step size again, for the detection method in practical operation；The model will be to huge Big full slice image carries out blocking processing, by the biological tissue region segmentation selected in advance into size identical ROI piecemeals, by Detection between piecemeal can be with highly-parallel so that the speed of detection more GPU it is parallel under be significantly improved, Ran Houtong The detection of the CNN disaggregated models of variable step size is crossed, generates prediction probability distributed image；Image data base divides pathological image data For training set, test set and checksum set etc.；The parameter of first convolution neural network model includes learning rate, frequency of training and more The network parameters such as few layer network, training refer to when seeking optimal solution, the process of automatically adjusting parameter.

Preferably, the support system also includes convolutional neural networks model testing unit, for obtaining preferable convolution Neural network model.It should be noted that " ideal " refers to that the accuracy rate of convolutional neural networks model is high herein, and " Shandong Rod ".

Preferably, the convolutional neural networks model testing unit includes convolutional neural networks model checking unit and convolution Neural network model test cell, the convolutional neural networks model checking unit are used to detect second convolutional neural networks The accuracy rate of model；The convolutional neural networks model measurement unit, it is for detecting the second convolution neural network model No over-fitting, to filter out the 3rd convolutional neural networks model of robust；It should be noted that if model is on test set Accuracy rate during accuracy rate is trained with checksum set differs larger, then illustrates model over-fitting, now, can return to convolutional neural networks In training unit, regulating networks structure or parameter, trained again to obtain more preferable network model；If on test set Accuracy rate and checksum set train in accuracy rate be sufficiently close to, then illustrate the model more robust.

Preferably, the support system also includes convolutional neural networks model pre-training unit, for when described image number During the deficiency of input image data being collected into according to obtaining unit, pre-training is carried out to the first convolution neural network model.

Preferably, the support system also includes pathological image data pre-processing unit, for screening and showing disease Manage the region to be detected in image.

Preferably, in order to ensure the validity of detection, the pretreatment unit are filtered out described using Adaptive Thresholding Region to be detected.

Preferably, the convolutional neural networks training unit trains the first convolutional neural networks mould using fine setting method Type.

As another aspect of the present invention, present invention also offers a kind of pathological diagnosis of benign gastritis to support method, institute Support method is stated to comprise the following steps：

View data obtains：The pathology for obtaining normal mucosa tissues sectioning image and the benign gastritis cases made a definite diagnosis is cut Picture is as input image data；

View data marks：The input image data is labeled, and ensures the label and image of image True pathological diagnosis result is consistent；

Image data base is built：The classification of the view data of mark, the arrangement provided described image data mark unit, structure Build pathological image database；

Convolutional neural networks construct：Construct the first convolution neural network model；And

Convolutional neural networks model training:Using the view data of the pathological image database to first convolution god Parameter through network model is adjusted, and training the first convolution neural network model, obtains and can be used for detecting patient Second convolution neural network model of pathological image data.

It should be noted that view data mark and image data base structure are considered as pathological image database sharing rank Section.Preferably, the support method also includes convolutional neural networks model testing step：Obtain preferable convolutional neural networks mould Type；The convolutional neural networks model testing step includes convolutional neural networks model checking and convolutional neural networks model is surveyed Examination, the convolutional neural networks model checking are used for the accuracy rate for detecting the second convolution neural network model；The convolution Neural network model is tested, for detect the second convolution neural network model whether over-fitting, to filter out the of robust Three convolutional neural networks models.It should be noted that convolutional neural networks construction, convolutional neural networks model training and convolution god The training stage of convolutional neural networks can be regarded as by being examined through network model, for obtaining preferable convolutional neural networks model.

As the third aspect of the invention, the invention further relates to above-mentioned support system in the benign gastritis of pathological diagnosis Clinical practice.

In summary, beneficial effects of the present invention are：

Compared with the artificial diagosis of existing pathologist, the Benign Gastric of the invention based on big data and deep learning algorithm The holding equipment of scorching pathological diagnosis has the advantages of high, the time-consuming short and run duration of accuracy rate is long, and this invention is major Hospital will be helpful to solution medical resource including front three, the popularization of basic hospital and cloud service and distribute uneven, realization far Cheng Youzhi medical treatment etc., more convenient, more accurately pathological diagnosis service is provided for many patients；The realization of above-mentioned advantage is because originally The apparatus and method of invention using deep learning algorithm image recognition advantage, allow computer carry out big data rank it is benign The deep learning of gastritis pathological section, so as to train the intelligent neutral net that can be simulated pathologist diagosis and match in excellence or beauty therewith Model, by constantly study and checking, the neural network model can realize the intelligent diagosis to benign gastritis pathological section, fast Speed identifies and draws scientific conclusion.

Brief description of the drawings

Fig. 1 is that the structured flowchart of system is supported in the benign gastritis pathological diagnosis of the present invention；

Fig. 2 is that the flow chart of method is supported in the benign gastritis pathological diagnosis of the embodiment of the present invention two；

Fig. 3 is to benign gastritis slice map；

Fig. 4 is the schematic diagram of the quick detection model of embodiments of the invention two；

Flow chart of the system in application is supported in the benign gastritis pathological diagnosis that Fig. 5 is the present invention；

Wherein, 1 system is supported in, benign gastritis pathological diagnosis, 2, view data obtaining unit, 3, view data mark it is single Member, 4, convolutional neural networks structural unit, 5, convolutional neural networks model training unit, 6, convolutional neural networks model testing list Member, 7, image data base construction unit, 8, pathological image data pre-processing unit, 9, input terminal, 10, outlet terminal.

Embodiment

To better illustrate the object, technical solutions and advantages of the present invention, below in conjunction with the drawings and specific embodiments pair The present invention is described further.

Embodiment 1

Referring to Fig. 1, a kind of embodiment of system 1 is supported in benign gastritis pathological diagnosis of the invention, and it includes：

View data obtaining unit 2, for the benign gastritis disease for obtaining normal mucosa tissues sectioning image and having made a definite diagnosis The pathological section image of example is as input image data；

View data marks unit 3, for being labeled to input image data, and ensures the label and figure of image The true pathological diagnosis result of picture is consistent；

Image data base construction unit 7, the view data of mark for providing view data mark unit are classified, are whole Reason, build pathological image database；

Convolutional neural networks structural unit 4, for constructing the first convolution neural network model；

Convolutional neural networks model training unit 5, using the view data of pathological image database to the first convolutional Neural The parameter of network model is adjusted, and the first convolution neural network model of training, obtains and can be used for detection patient's pathology figure As the second convolution neural network model of data；

Convolutional neural networks model testing unit 6, for obtaining preferable convolutional neural networks model, including convolutional Neural Network model verification unit (not shown) and convolutional neural networks model measurement unit (not shown), convolutional Neural net Network model checking unit is used for the accuracy rate for detecting the second convolution neural network model；Convolutional neural networks model measurement unit, For detect the second convolution neural network model whether over-fitting, to filter out the 3rd convolutional neural networks model of robust.

Convolutional neural networks model pre-training unit (not shown), for what is be collected into when view data obtaining unit During input image data deficiency, pre-training is carried out to the first convolution neural network model；And

Pathological image data pre-processing unit 8, for screening and showing the region to be detected in patient's pathological image.

Wherein, pathological image data pre-processing unit 8 filters out region to be detected using Adaptive Thresholding；Convolutional Neural Network model training unit 5 trains the first convolution neural network model using fine setting (fine-tune) method；Database include with Lower four class data sets：Training set, disappear and test the disclosed pathological image data set of collection, test set and routine.

In addition, input terminal 9 is used for existing normal mucosa tissues sectioning image and the benign gastritis made a definite diagnosis disease The pathological section image input image data obtaining unit 2 of example, also, the data of these inputs finally will be by image data base structure The categorised collection of unit 7 is built, for supporting follow-up clinical diagnosis to work；

And the pathological section image of patient to be detected is inputted into pathological image data pre-processing unit 8；

Outlet terminal 10, for the convolutional neural networks for the robust that will be obtained by convolutional neural networks model training unit 5 The result that model detects to the pathological section image classification for inputting the patient to be detected of pathological image data pre-processing unit 8 (histological type and corresponding probability) is presented to doctor, so that clinical diagnosis refers to.

Embodiment 2

Referring to Fig. 2, benign gastritis of the invention diagnoses a kind of embodiment of support method, and it comprises the following steps：

(1) view data is gathered

Using ZhongShan University attached No.6 Hospital pathology department and human tissue resource library data as data source, collection 10000 Pathological section image, including 5000 normal tissue sections images and 5000 benign gastritis histotomies, and respectively according to Training set：Checksum set：Test set=3：1：1 quantitative proportion is grouped at random.It is as shown in table 1 below：

The specific data of the pathological section image of table 1.

By acquired image be digitized scanning storage, sequence number file, create benign gastritis pathological image database.

(2) image information is marked

Disease using existing ASAP image labelings software to the training set collected by step (1), checksum set and test set Manage sectioning image and carry out data markers.To ensure the accuracy of information labeling, processing need to be optimized to image before mark.It is right The mark work of image mainly includes：Various pathologic structure regions in image are sketched the contours of with different colours/thickness/actual situation lines, According to the degree of inflammation (invasive depth of the inflammatory cell in mucous layer) of stomach lining under microscope, body of gland atrophy degree, intestinal metaplasia The index of correlation such as (goblet cell and intestinal absorption epithelial cell metaplasia occurs in mucous membrane), atypical hyperplasia degree, erosion or necrosis is to figure Enter row label name as classifying and assigning score value, and by the region sketched the contours.Pathological image after correct mark is subjected to numeral Change storage, to carry out the training of the network model of next step and verification.Fig. 3 is the mark to atypical hyperplasia region in benign gastritis Figure.

(3) training convolutional neural networks

1. design a model

(a) convolutional Neural is constructed in the way of convolutional layer, maximum sample level, nonlinear function, the cascade of full articulamentum Network；

(b) capability of fitting of network is strengthened using multitiered network；

(c) port number of the output of the last full articulamentum of network is set to 2, and it is normal gastric mucosa group to represent the image respectively Knit sectioning image, benign gastritis tissue slice images.

2. training network

(a) according to the view data being collected into step (1), (2), the parameter of convolutional neural networks model is adjusted Section, the accuracy rate of classification is observed on checksum set；

(b) in order to accelerate the speed of training network, it is trained using the GPU calculated with high-speed parallel instead of CPU；

(c) method of the renewal of convolutional neural networks weighting parameter is solved using SGD, if convergence rate is slower, is made Solved with optimization methods such as Adadelta, Adam；

(d) if training data (i.e. view data) number that step (1) is collected into very little, adopt by convolutional neural networks model With elder generation fine-tune (fine setting) is used in conventional open pathological image data set pre-training, then by the view data being collected into Method carry out training convolutional neural networks model；

(e) such as trained on existing convolutional neural networks model, the accuracy rate of classification can not rise, and can be rolled up by increasing The depth of product neutral net network model increases the capability of fitting of convolutional neural networks model.

3. design quick detection model (as shown in Figure 4)

1. in order to improve detection efficiency, Adaptive Thresholding is used in pretreatment stage, is selected in advance from full slice image Biological tissue region, the detection object (as shown in Fig. 4 arrows 101, representing preprocessing process) as convolutional neural networks.

2. in order to improve the degree of accuracy of detection and flexibility, based on step (3), the convolutional Neural net that will can be trained Network is modeled as the CNN disaggregated models of variable step size again, for the detection method in practical operation；The model is by huge Full slice image carries out blocking processing, by the biological tissue region segmentation selected in advance into size identical ROI piecemeals；Due to dividing Detection between block can be with highly-parallel so that the speed of detection is effectively lifted (such as Fig. 4 arrows in the case of more GPU Shown in first 102, representative model quick detection process).By the detection of convolutional neural networks model, prediction probability distribution map is generated Picture.

3. based on the prediction probability distributed image of the 2nd step, in post processing, after screening out scattered point, analysis prediction probability divides Butut, to obtain the prediction result of final full slice image (as shown in Fig. 4 arrows 103, representing last handling process).

(4) test set is verified

(a) the disaggregated model structure of the variable step size based on step 3., the convolutional Neural net trained in step (3) is used Network model tests test set, accuracy rate of the observing and nursing on test set.

(b) if the convolutional neural networks model trained in step (3) is in the upper accuracy rate and training of test set The accuracy rate difference of checksum set is larger, then illustrates model over-fitting；Now, it can return in step (3), adjust convolutional neural networks Prototype network structure or parameter, obtain more preferable network model.

If (c) in accuracy rate and training of the convolutional neural networks model trained in step (3) on test set The accuracy rate of checksum set is sufficiently close to, then illustrates the convolutional neural networks model more robust obtained by the training, and it is suitable to be used as Detection sufferer pathological image network model.

Embodiment 3

A kind of application examples of system is supported in the benign gastritis pathological diagnosis of the present invention, pathological image to be detected is passed through defeated Enter the pathological image data pre-processing unit 8 that terminal 9 is inputted in the benign gastritis diagnosis support device of the present invention, operation afterwards Flow referring to Fig. 5, wherein,

(a) in order to ensure the validity of detection, Adaptive Thresholding is used in the incipient stage, is preselected from full slice image Go out biological tissue region, be then based on threshold value results area Main subrack and select region to be detected (i.e. patient pathologic tissue areas)；

(b) after, patient pathologic tissue areas picture is pre-processed, pretreatment includes denoising, histogram equalization, returned The steps such as one change；

(c) it is right with the convolutional neural networks model (i.e. the second convolution neural network model in embodiment 1) previously trained Region to be detected carries out classification and Detection in pretreated picture, so as to draw the prediction result of benign gastritis, including the pathology Benign gastritis classification and corresponding probability belonging to section.

The comparison of method and existing method is supported in the benign gastritis pathological diagnosis of the present invention of embodiment 4

Clinically pathological diagnosis work is by being cut by pathologist manual read's pathological tissue of standardized training at present Piece, analysis and diagnosis are made with reference to the clinical diagnosis experience of itself long term accumulation.Due to this artificial naked eyes diagosis method with The factors such as pathologist experience, working condition, subjective emotion are closely related, therefore accuracy rate is not high, but time-consuming, and work is held Continuous limited time, easily produce fail to pinpoint a disease in diagnosis, situations such as mistaken diagnosis and diagnosis are inconsistent.It is of the invention then using computer to the big of standardization Measure the deep learning of benign gastritis pathological image, to convolutional neural networks carry out parameter regulation and fitting train, so as to obtain compared with For the network model of robust.This neutral net based on big data and deep learning can simulate artificial diagosis, according to input New pathological image draws corresponding output valve i.e. pathological diagnosis conclusion.Furthermore by Model Reconstruction, do not influenceing accuracy in detection In the case of, greatly improve detection speed.30 doctors with more than 3 years gastritis Clinics and Practices experiences are chosen, respectively Everyone judges its type by the pathological image for providing 50 doubtful benign gastritis, accuracy rate and average time is then calculated, with this hair Bright diagnosis supports method to compare, and its result is as shown in table 2 below.

The comparison of the benign gastritis diagnostic result of table 2

	Pathology Doctors ' diagosis	Artificial intelligence diagosis
			Accuracy rate of diagnosis	Higher (80~90%)	High (90~98%)
Diagnose average time/speed	Long/slow (15-30min)	Short/fast (3-5min)
			Diagnose stability	It is unstable, easily by subjective impact	It is stable
Operation duration state	It is limited, easily by subjective impact	Infinitely

It was found from upper table 2, histopathologic slide is read using the method for the present invention, its accuracy rate is than professional pathologist Higher level, and time-consuming shorter, run duration length.

Finally, it should be noted that the above embodiments are merely illustrative of the technical solutions of the present invention rather than the present invention is protected The limitation of scope is protected, although being explained in detail with reference to preferred embodiment to the present invention, one of ordinary skill in the art should Understand, technical scheme can be modified or equivalent substitution, without departing from the essence of technical solution of the present invention And scope.

Claims (10)

1. system is supported in benign gastritis pathological diagnosis, it is characterised in that the support system includes：

View data obtaining unit, for the disease for the benign gastritis cases for obtaining normal mucosa tissues sectioning image and having made a definite diagnosis Sectioning image is managed as input image data；

View data marks unit, for being labeled to the input image data, and ensures the label and figure of image The true pathological diagnosis result of picture is consistent；

Image data base construction unit, the view data of mark for providing described image data mark unit are classified, are whole Reason, build pathological image database；

Convolutional neural networks structural unit, for constructing the first convolution neural network model；And

Convolutional neural networks model training unit, using the view data of the pathological image database to first convolution god Parameter through network model is adjusted, and training the first convolution neural network model, obtains and can be used for detecting patient Second convolution neural network model of pathological image data.

2. support system according to claim 1, it is characterised in that the support system also includes convolutional neural networks mould Type verification unit, for obtaining preferable convolutional neural networks model.

3. support system according to claim 2, it is characterised in that the convolutional neural networks model testing unit includes Convolutional neural networks model checking unit and convolutional neural networks model measurement unit, the convolutional neural networks model checking list Member is used for the accuracy rate for detecting the second convolution neural network model；The convolutional neural networks model measurement unit, is used for Detect the second convolution neural network model whether over-fitting, to filter out the 3rd convolutional neural networks model of robust.

4. support system according to claim 1, it is characterised in that the support system also includes convolutional neural networks mould Type pre-training unit, for be collected into when described image data acquiring unit the deficiency of input image data when, to described One convolution neural network model carries out pre-training.

5. support system according to claim 1, it is characterised in that it is pre- that the support system also includes pathological image data Processing unit, for screening and showing the region to be detected in patient's pathological image.

6. support system according to claim 5, it is characterised in that the pretreatment unit is sieved using Adaptive Thresholding Select the region to be detected.

7. support system according to claim 1, it is characterised in that the convolutional neural networks training unit is using fine setting Method trains the first convolution neural network model.

A kind of 8. support method of benign gastritis pathological diagnosis, it is characterised in that the support method comprises the following steps：

View data obtains：Obtain the pathological section figure of normal mucosa tissues sectioning image and the benign gastritis cases made a definite diagnosis As input image data；

View data marks：The input image data is labeled, and ensure image label and image it is true Pathological diagnosis result is consistent；

Image data base is built：The classification of the view data of mark, the arrangement provided described image data mark unit, structure disease Manage image data base；

Convolutional neural networks construct：Construct the first convolution neural network model；And

Convolutional neural networks model training:Using the view data of the pathological image database to the first convolution nerve net The parameter of network model is adjusted, and training the first convolution neural network model, obtains and can be used for detection patient's pathology Second convolution neural network model of view data.

9. support method according to claim 8, it is characterised in that the support method also includes convolutional neural networks mould Type checking procedure：Obtain preferable convolutional neural networks model；The convolutional neural networks model testing step includes convolution god Through network model verification and convolutional neural networks model measurement, the convolutional neural networks model checking is used to detect described second The accuracy rate of convolutional neural networks model；The convolutional neural networks model measurement, for detecting the second convolution nerve net Network model whether over-fitting, to filter out the 3rd convolutional neural networks model of robust.

10. according to application of any described holding equipments of claim 1-6 in diagnosis of benign gastritis.