CN101814111A - On-line medical health education interactive system and working method thereof - Google Patents
On-line medical health education interactive system and working method thereof Download PDFInfo
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Abstract
The invention relates to a digital type interactive system used in the medical field, in particular to an on-line medical health education interactive system mainly used for treating chronic diseases. The invention also provides a building method and a working method of the interactive system. The interactive system is a server/client system; the server/client system comprises at least one server and a plurality of clients in wired and/or wireless connection with the server. In addition, the invention also provides a method for building the interactive system and a method for operating the interactive system. The system provided by the invention has the advantages of providing overall health education knowledge, intelligently evaluating a risk level of the pathological information of diseases, providing individual health education, along with wide knowledge covering range, wide knowledge scope and high efficiency.
Description
Technical field
The present invention relates to a kind of digital interactive system that is used for medical field, specifically be meant a kind of online medical health education interactive system that is primarily aimed at chronic disease, the method for building up and the method for work of this interactive system also is provided simultaneously.
Background technology
Chronic Non-Communicable Diseases (chronic disease) mostly is the lifelong participation disease, and poor prognosis is usually with complication and deformity.Chronic disease causes the consumption of huge social burden, financial burden, aggravation medical resource for patient and society.Show that according to Ministry of Public Health's statistical information centre data over 10 years, the total financial burden of chronic disease is continuous ascendant trend, and increases with the increasing degree that is higher than GDP, its total amount has risen 337.02%, and the proportion that accounts for GDP has then risen 1.64%.Malignant tumour, cranial vascular disease, hypertension, other types heart disease, coronary heart disease are to cause chronic disease to become the main cause of financial burden, so will watch out for chronic disease to the social harmful effect that brings in the future from macroeconomy and social development.
Conversion of medical has impelled people to recognize the harm that reduces disease at present, only depends on clinical treatment both can't reduce the hazards that cause chronic disease, also is difficult to stop the ever-increasing impetus of new patient.Prevention and health service then play a part very important in the link of disease generation and chain.Conversion of medical requires the emphasis of medicine and health work to change prevention and health care into from diagnoses and treatment.
Facts have proved simultaneously by health education, the formation of healthy Lifestyle can make the hypertensive incidence of disease reduce 55%, and the hypertension that early prevention has taken place can make cerebral apoplexy, the miocardial infarction incidence of disease reduce 50%, 1/3 tumour can be prevented simultaneously, 1/3 tumour can be cured in early days, and resident's life-span is expected to increase by 10 years
But traditional health education pattern but has bigger defective, and at first, it is abundant inadequately that the knowledge of health education provides, and can not satisfy the needs of extensive patients; Secondly, health education mainly concentrates on urban inner, can not satisfy patient's from far-off regions needs; Once more, traditional health education pattern is based on different doctors' varying level, and is therefore often too biased, can not be comprehensive; At last, traditional health education can not provide systematization, the educational pattern of high efficiency.
Therefore, the present invention just is based on a kind of online medical health education interactive system of the shortcoming proposition of prior art, it not only can provide sufficient knowledge of healthcare education, has wide coverage simultaneously, have a wide range of knowlege and advantage that efficient is high, can also carry out the risk class assessment by intelligent pathological information simultaneously, personalized health education is provided simultaneously sufferer.The present invention also provides and has set up the method that above-mentioned interactive system adopts and the method for work of this interactive system in addition.
Summary of the invention
Goal of the invention of the present invention is to provide a kind of online medical health education interactive system, it not only can provide sufficient knowledge of healthcare education, has wide coverage simultaneously, the advantage that the scope of one's knowledge is complete and efficient is high, can also assess by intelligent ill risk class simultaneously, personalized health education is provided simultaneously sufferer.The present invention also provides and has set up the method that above-mentioned interactive system adopts and the method for work of this interactive system in addition.
In order to realize above-mentioned goal of the invention, the present invention adopts following technical scheme:
A kind of online medical health education interactive system, this system is the server/customer end system, this server/customer end system comprises at least one server and a plurality of clients of and/or wireless connections wired with server, it is characterized in that:
All store corresponding digitizing pathological information template in described server and client, this digitizing pathological information template is transmitted user's pathological data by user end to server;
Described server comprises the information receiving module in order to the digitizing pathological information template that receives the client transmission at least, in order to judge the risk evaluation module of this pathological information risk class, in order to analyze the personalized analysis module of different user pathological information characteristics, database module to client feedback information feedback module and storage data, wherein said information receiving module, risk evaluation module, personalized analysis module and information feedback module connect also one-way transmission data, personalized in addition analysis module and database module and database module bi-directional transfer of data in turn;
Described client comprises the receiving end that sends the transmitting terminal of this pathological information and receive described server data information in order to the input end of digitizing pathological information template input pathological information, to described server, this transmitting terminal is corresponding with the receiver module of described server, described receiving end is corresponding with described server client feedback module, this client also comprises the memory module of carrying out mutual display module and being used to store data with the user, and the handled data of described input end, transmitting terminal and receiving end all are stored in the memory module.
Described risk evaluation module is by the integrating system judge module, totalizer and output module are formed, this output module is communicated with described client's feedback module, contain default integration threshold values at described judge module internal memory, the integration that pathological information in the digitizing pathological information template is added up by totalizer compares with this threshold values and obtains corresponding risk class and export personalized analysis module to by output module in judge module.
Described personalized analysis module comprises the extraction module in order to the analysis module of analyzing described digitizing pathological information template and the result's information extraction in described database module by this analysis module, in described analysis module, be provided with fixing chained list, extract corresponding health education information and export described feedback module to by the assay value that draws in the analysis module position in the corresponding database module in chained list
Described digitizing pathological information template comprises complication information, the disease treatment principle of user's basic document information, disease category, this disease category at least.
Described database module is a relevant database, and this relevant database stored has the health education information in order to the described pathological information of correspondence.
Described client is a mobile digital equipment, and this mobile digital equipment comprises palm PC, mobile phone; Described server is a digital processing device, and this digital processing device comprises large-scale desktop computer, commercial server; Adopt GSM network and/or internet to intercom mutually between described mobile digital equipment and the described digital processing device.
A kind of method for building up of online medical health education interactive system, described method for building up comprises following key step:
One, by the defining and definite knowledge base model of classifying of knowledge of healthcare education resource, i.e. health education information and with this health education information stores in described database module;
Two, at least by disease category and complication, disease treatment principle and user's basic document information are set up demand model, promptly described digitizing pathological information template is stored in respectively in described server and the client;
Three, determine the matching technique of the health education information in described digitizing pathological information template and the described database module, comprise being stored in the methods of risk assessment in the risk evaluation module and being stored in the interior analytical approach of personalized analysis module;
Four, determine exchange method between described server and the client, comprise GSM network and/or internal connection method;
Described methods of risk assessment is the integration of digitizing pathological information template correspondence of adding up, and is preset in threshold values in the risk evaluation module by this integration and compares and obtain the risk class result; Described analytical approach is for to correspond to a string code with module digitizing pathological information, and the chained list in being stored in personalized analysis module is extracted in the health education information of correspondence position in the described database module.
A kind of method of work of online medical health education interactive system, described method of work comprises following key step:
One, client shows the pathological information template, and the user sends to this pathological information the receiver module of server simultaneously by described input end input digit pathological information template by described transmitting terminal;
Two, described receiver module is transferred to risk evaluation module with digitizing pathological information template and carries out risk assessment, if assessment result be high-risk grade directly the Control and Feedback module feed back to user's fix information; If assessment result is other risk class then determines health education information corresponding in the described database module by personalized analysis module, by described feedback module this health education information sent to client simultaneously;
Three, the receiving end of client receives the health education information that sends over by server, simultaneously this health education information is shown by display device.
Described methods of risk assessment is the integration of digitizing pathological information template correspondence of adding up, and be preset in threshold values in the risk evaluation module by this integration and compare and obtain risk evaluation result, described other risk class comprises medium risk grade and low risk level; Described analytical approach is for to correspond to a string code with module digitizing pathological information, and the chained list in being stored in personalized analysis module is extracted in the health education information of correspondence position in the described database module.
By adopting above-mentioned technical scheme, the invention provides a kind of online medical health education interactive system, it not only can provide sufficient knowledge of healthcare education, has wide coverage simultaneously, have a wide range of knowlege and advantage that efficient is high, can also intelligent ill risk assess simultaneously, personalized health education is provided simultaneously sufferer.The present invention also provides and has set up the method that above-mentioned interactive system adopts and the method for work of this interactive system in addition.
Description of drawings
What show among Fig. 1 is the connection diagram of interactive system of the present invention;
What show among Fig. 2 is the syndeton block diagram of server of the present invention;
What show among Fig. 3 is the structured flowchart of risk evaluation module of the present invention;
What show among Fig. 4 is the structured flowchart of personalized analysis module of the present invention;
What show among Fig. 5 is the synoptic diagram of digitizing pathological information template of the present invention;
What show among Fig. 6 is the syndeton block diagram of client of the present invention;
What show among Fig. 7 is the synoptic diagram of hypertension interactive system embodiment of the present invention;
What show among Fig. 8 is the schematic flow sheet of the method for building up of interactive system of the present invention;
The title of each label assembly correspondence is described as follows in the accompanying drawing:
1 mobile phone, 2 large-scale desktop computer 3GSM network 4 data items 5 databases
Embodiment
The invention reside in provides a kind of online medical health education interactive system, it not only can provide sufficient knowledge of healthcare education, has wide coverage simultaneously, the advantage that the scope of one's knowledge is complete and efficient is high, can also intelligent ill risk assess simultaneously, personalized health education is provided simultaneously sufferer.The present invention also provides and has set up the method that above-mentioned interactive system adopts and the method for work of this interactive system in addition.
What show among Fig. 1 is the synoptic diagram of an embodiment of interactive system of the present invention, interactive system of the present invention is the server/customer end system, and this server/customer end system comprises one as the large-scale desktop computer 2 of server and a plurality of mobile phones 1 as client that are connected by GSM network 3 with this server.Large-scale desktop computer 2 stored are useful on the mass data of health education, the user then can carry out communication by GSM network 3 by mobile phone 1 and large-scale desktop computer 2, send digitizing pathological information templates to large-scale desktop computer 2, the information that large-scale desktop computer 2 is sent by mobile phone 1 again by the GSM network with the information feedback of health education to the user who uses mobile phone 1.
Certainly, above-mentioned mobile phone 1 is actually a representative of client of the present invention, so long as can carry out a kind of embodiment that mutual digitizer just constitutes client of the present invention by user's use and server of the present invention, for example: palm PC; Equally, above-mentioned large-scale desktop computer 2 is also just realized a kind of embodiment of server of the present invention, as long as satisfy and to store the bulk information of health education, simultaneously can just constitute server of the present invention, for example: commercial server by the digitizer that the digitizing pathological information template that client sends can be fed back corresponding health education information; Simultaneously the interactive mode between server and client also is not limited to the GSM connected mode mentioned in the present embodiment, reach the purpose that makes that server and client are communicated with but can adopt multiple wired, wireless or wire/wireless to mix ways of connecting, wherein comprise the internet certainly.
What show among Fig. 2 is the syndeton block diagram of server of the present invention, server among the figure comprises the information receiving module in order to the digitizing pathological information template that receives the client transmission, risk evaluation module in order to the risk class of judging this pathological information, in order to the personalized analysis module of analysis different user pathological information characteristics and to the feedback module of the client feedback health education information corresponding and the database module of storage data with this pathological information, wherein said information receiving module, risk evaluation module, personalized analysis module and the information feedback module connects in turn and the one-way transmission data, personalized in addition analysis module and database module and database module bi-directional transfer of data, wherein information receiving module and feedback module all are the devices that satisfy above-mentioned wire/wireless connected mode, belong to the prior art that adopts different transmission/receptions at different connected modes, therefore here just repeated no more.
Below the composition and the course of work of main explanation risk evaluation module of the present invention and personalized analysis module.
The structured flowchart of the risk evaluation module of the present invention that shows among Fig. 3, risk evaluation module is by judge module, totalizer and output module are formed, judge module obtains digitizing pathological information template by the information receiving module of server, and the integration of this pathological information correspondence exported to totalizer, anti-phase again after totalizer place accumulation calculating goes out integral result the result is flowed to judge module, contain default threshold values at described judge module internal memory, compare by add up integral result and this threshold values of digitizing pathological information template correspondence of totalizer, in judge module, draw this as a result correspondence risk class and by the course of work of this risk class control output module to personalized analysis module.
What wherein show among Fig. 5 is the synoptic diagram of an embodiment of digitizing pathological information template of the present invention, wherein Q1, Q2 ... QN-1, QN, be the particular problem of determining according to the complication information of user's basic document information, disease category, this disease category, disease treatment principle etc., more specifically, user's basic document information comprises user's age, sex, habits and customs etc.; Disease category then mainly refers to but is not limited to the disease type of chronic disease, wherein can be subdivided into coronary heart disease, hypertension, diabetes, cerebrovascular disease again; The complication of disease category then specially refers to the disease type that is associated that above-mentioned disease is brought; The disease treatment principle then is meant the methods of treatment that adopts at this disease or medicine for treatment etc.Simultaneously after determining above-mentioned particular problem, also determined corresponding alternative answer at each particular problem, each alternative answer has then been determined a fixedly integration according to different situations, as among Fig. 5 being that the particular problem of Q2 is an example with the label, just its corresponding answer has 8 kinds of different integrations.Use after this digitizing pathological information template determines the answer of each problem as the user like this, by client this digitizing pathological information template is transferred in the risk evaluation module of server, as top explanation, the totalizer in this risk evaluation module obtains integral result with the integration addition of each problem answers correspondence and compares with the threshold values that is stored in advance in the judge module.In the ordinary course of things, the integration that increases the weight of the factor correspondence of the sufferer state of an illness should be high more, and two threshold values should be set simultaneously at least, and to be divided into the risk class of user's pathological information third-class be high-risk grade, medium risk grade and low risk level.Certainly mark off more risk class as the case may be.Different risk class is then controlled personalized analysis module and is carried out different work, also promptly controls the kind of the health education information that the user is provided.
What show among Fig. 4 is the structured flowchart of personalized analysis module of the present invention, this personalization analysis module comprises the extraction module in order to the analysis module of analyzing described digitizing pathological information template and the result's information extraction in described database module by this analysis module, in described analysis module, be provided with fixing chained list, extract health education information and export described feedback module in the position of described chained list in the corresponding data library module by the assay value that draws in the analysis module.
Described the risk evaluation module different risk class that assessment obtains according to the digital information template in the superincumbent content in detail, different risk class is then controlled personalized analysis module and is carried out different work.To describe the process that personalized analysis module is worked below in detail under different risk class conditions, still with the generalized case example, when user's pathological information risk class is divided under the third-class situation, high-risk grade is controlled above-mentioned personalized analysis module and the digitizing information model is not carried out the personalization analysis, but directly extracts corresponding information feedback to the user at the place, fixed position of database module; Be rated as under the condition of medium or low risk level and work as user's pathological information risk class, above-mentioned personalized analysis module then will correspondence problem answer corresponding sequence number be formed a string code on digitizing pathological information template, promptly from problem Q1 to QN, the code of each problem answers correspondence is arranged in order and forms a string unique code.Still be example with particular problem Q2, the code of its alternative answer correspondence can be set at Q21 successively ... Q28, just corresponding code is arranged among unique a string code with it in the process of selecting a certain concrete answer like this.In above-mentioned analysis module, also be provided with simultaneously the chained list of a sufficient length, in the chained list the unique code of corresponding each string all correspondence an address is set, this address just is the address of corresponding informance in the database module, and above-mentioned like this analysis module just can extract corresponding information and it is fed back to the user by extraction module in database module.Certainly the code of above-mentioned each problem can be that numeral also can be letter or other special symbol, just satisfies needs of the present invention as long as the answer of all problems can be formed on the whole unique a string code in order to identification.
Here said database module is a relevant database, and this relevant database stored has the health education information in order to the described pathological information of correspondence, and the address correspondence in this health education information and date storehouse.
Be that a specific embodiment illustrates interactive system of the present invention with the hypertensive health education interactive system that shows among Fig. 7 below.Digitizing pathological information template in hypertension health education interactive system at first comprises the problem information that proposes according to user's basic document, comprises sex, age, occupation, blood pressure level, heart rate level, smoking, drinks, family history, habits and customs, body mass index, exercise habit; Next is the disease type and the complication thereof of hypertensive patients, comprises diabetes, hyperlipidemia, coronary heart disease, cerebral apoplexy; Be the up-to-date principle of reatment of hypertension at last, comprise the medication type, the course of treatment length.This hypertension digitizing pathological information template stores makes mobile phone 1 and large-scale desktop computer 2 produce the information interface that corresponds to each other in mobile phone 1 and large-scale desktop computer 2.
The user fills in above-mentioned digitizing pathological information template and this template is offered large-scale desktop computer 2 by the GSM network by mobile phone 1, large-scale desktop computer 2 adds up the integration of variety of issue answer correspondence in the template in the above-mentioned hypertension digitizing pathological information, obtain the high blood pressure disease risk class of corresponding sufferer, according to the information in different high blood pressure disease risk class and the hypertension digitizing pathological information template, large-scale desktop computer 2 offers mobile phone 1 with the health education information of correspondence.
In the digital information field, mobile phone 1 comprises data items 4 among Fig. 7, and what comprise in the large-scale desktop computer 2 is to store hypertension health education database of information 5, when data items 4 after database 5 sends hypertension digitizing pathological information templates, obtain the response of database 5, thereby the health education information feedback that obtains database 5 correspondences is given data items 4.
What need specify is, hypertension digitizing pathological information Template Information employing resource description framework in the data items 4 in the present embodiment and the mapping relations between the health education information in ontology foundation and the database 5, and integrated by expertise, finally will find health education information corresponding in above-mentioned mapping relations, will and feed back to the user to the health education information extraction simultaneously by the personalized analysis module of hypertension.
Then shown the method for building up of setting up interactive information of the present invention among Fig. 8, it mainly comprises following key step:
One, by the defining and definite knowledge base model of classifying of knowledge of healthcare education resource, i.e. health education information and with this health education information stores in described database module;
Two, at least by disease category and complication, disease treatment principle and user's basic document information are set up demand model, promptly described digitizing pathological information template is stored in respectively in described server and the client;
Three, determine the matching technique of the health education information in described digitizing pathological information template and the described database module, comprise being stored in the methods of risk assessment in the risk evaluation module and being stored in the interior analytical approach of personalized analysis module;
Four, determine exchange method between described server and the client, comprise GSM network and/or internal connection method;
And be the integration of digitizing pathological information template correspondence of adding up, and be preset in threshold values in the risk evaluation module by this integration and compare and obtain risk evaluation result at above-mentioned methods of risk assessment; Described analytical approach is for to correspond to the string number code with module digitizing pathological information, and be stored in personalized analysis module in the described database module of the corresponding extraction of chained list in health education information.This is in to the declarative procedure of Fig. 2-5 and recorded and narrated in detail.
The invention also discloses the method for work of interactive system in addition, in fact this method of work is illustrated in above-mentioned record, existing overall description is as follows once more, and this method of work comprises following groundwork step:
One, client shows the pathological information template, and the user sends to this pathological information the receiver module of server simultaneously by described input end input digit pathological information template by described transmitting terminal;
Two, described receiver module is transferred to risk evaluation module with digitizing pathological information template and carries out risk assessment, if assessment result be high-risk grade directly the Control and Feedback module feed back to user's fix information; If assessment result is other risk class then determines health education information corresponding in the described database module by personalized analysis module, by described feedback module this health education information sent to client simultaneously;
Three, the receiving end of client receives the health education information that sends over by server, simultaneously this health education information is shown by display device.
At above-mentioned methods of risk assessment is the integration of digitizing pathological information template correspondence of adding up, and be preset in threshold values in the risk evaluation module by this integration and compare and obtain risk evaluation result, described other risk class comprises medium risk grade and low risk level; Described analytical approach is for to correspond to the string number code with module digitizing pathological information, and be stored in personalized analysis module in the described database module of the corresponding extraction of chained list in health education information.
By adopting above-mentioned technical scheme, the invention provides a kind of online medical health education interactive system, it not only can provide sufficient knowledge of healthcare education, has wide coverage simultaneously, the advantage that the scope of one's knowledge is complete and efficient is high, can also intelligent ill risk assess simultaneously, personalized health education is provided simultaneously sufferer.The present invention also provides and has set up the method that above-mentioned interactive system adopts and the method for work of this interactive system in addition.
Protection domain of the present invention is not limited to the explanation of the specific embodiment of above-mentioned instructions, as long as but the combination of satisfying the technical characterictic of claims of the present invention just fallen within protection scope of the present invention.
Claims (10)
1. online medical health education interactive system, this system is the server/customer end system, this server/customer end system comprises at least one server and a plurality of clients of and/or wireless connections wired with server, it is characterized in that:
All store corresponding digitizing pathological information template in described server and client, this digitizing pathological information template is transmitted user's pathological data by user end to server;
Described server comprises the information receiving module in order to the digitizing pathological information template that receives the client transmission at least, in order to judge the risk evaluation module of this pathological information risk class, in order to analyze the personalized analysis module of different user pathological information characteristics, database module to client feedback information feedback module and storage data, wherein said information receiving module, risk evaluation module, personalized analysis module and information feedback module connect also one-way transmission data, personalized in addition analysis module and database module and database module bi-directional transfer of data in turn;
Described client comprises the receiving end that sends the transmitting terminal of this pathological information and receive described server data information in order to the input end of digitizing pathological information template input pathological information, to described server, this transmitting terminal is corresponding with the receiver module of described server, described receiving end is corresponding with described server client feedback module, this client also comprises the memory module of carrying out mutual display module and being used to store data with the user, and the handled data of described input end, transmitting terminal and receiving end all are stored in the memory module.
2. a kind of online medical health education interactive system according to claim 1, it is characterized in that, described risk evaluation module is by the judge module of integrating system, totalizer and output module are formed, this output module is communicated with described client's feedback module, contain default integration threshold values at described judge module internal memory, the integration that pathological information in the digitizing pathological information template is added up by totalizer compares and obtains corresponding risk class and exports personalized analysis module to by output module in judge module with this threshold values.
3. a kind of online medical health education interactive system according to claim 1 and 2, it is characterized in that, described personalized analysis module comprises the extraction module in order to the analysis module of analyzing described digitizing pathological information template and the result's information extraction in described database module by this analysis module, in described analysis module, be provided with fixing chained list, extract corresponding health education information and export described feedback module to by the assay value that draws in the analysis module position in the corresponding database module in chained list.
4. a kind of online medical health education interactive system according to claim 3, it is characterized in that, described digitizing pathological information template comprises the problem of complication information at user's basic document information, disease category information, this disease category, disease treatment principle information and at least to answer that should problem, the corresponding integration of each answer simultaneously and unique identifier.
5. a kind of online medical health education interactive system according to claim 1 is characterized in that described database module is a relevant database, and this relevant database stored has the health education information in order to the described pathological information of correspondence.
6. a kind of online medical health education interactive system according to claim 1 is characterized in that described client is a mobile digital equipment, and this mobile digital equipment comprises palm PC, mobile phone; Described server is a digital processing device, and this digital processing device comprises large-scale desktop computer, commercial server; Adopt GSM network and/or internet to intercom mutually between described client and the server.
7. adopt the method for building up of the described a kind of online medical health education interactive system of claim 1, it is characterized in that described method for building up comprises:
One, by the defining and definite knowledge base model of classifying of knowledge of healthcare education resource, i.e. health education information and with this health education information stores in described database module;
Two, at least by disease category and complication, disease treatment principle and user's basic document information are set up demand model, promptly described digitizing pathological information template is stored in respectively in described server and the client;
Three, determine the matching technique of the health education information in described digitizing pathological information template and the described database module, comprise being stored in the methods of risk assessment in the risk evaluation module and being stored in the interior analytical approach of personalized analysis module;
Four, determine exchange method between described server and the client, comprise GSM network and/or internal connection method.
8. method for building up according to claim 7 is characterized in that, described methods of risk assessment is the integration of digitizing pathological information template correspondence of adding up, and is preset in threshold values in the risk evaluation module by this integration and compares and obtain the risk class result; Described analytical approach is for to correspond to a string code with module digitizing pathological information, and the chained list in being stored in personalized analysis module is extracted in the health education information of correspondence position in the described database module.
9. adopt the method for work of the described a kind of online medical health education interactive system of claim 1, it is characterized in that described method of work comprises:
One, client shows the pathological information template, and the user sends to this pathological information the receiver module of server simultaneously by described input end input digit pathological information template by described transmitting terminal;
Two, described receiver module is transferred to risk evaluation module with digitizing pathological information template and carries out risk assessment, if assessment result be high-risk grade directly the Control and Feedback module feed back to user's fix information; If assessment result is other risk class then determines health education information corresponding in the described database module by personalized analysis module, by described feedback module this health education information sent to client simultaneously;
Three, the receiving end of client receives the health education information that sends over by server, simultaneously this health education information is shown by display device.
10. method of work according to claim 9, it is characterized in that, described methods of risk assessment is the integration of digitizing pathological information template correspondence of adding up, and be preset in threshold values in the risk evaluation module by this integration and compare and obtain risk evaluation result, described other risk class comprises medium risk grade and low risk level; Described analytical approach is for to correspond to a string code with module digitizing pathological information, and the chained list in being stored in personalized analysis module is extracted in the health education information of correspondence position in the described database module.
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