CN106997421B - Intelligent system and method for personalized medical information acquisition and health monitoring - Google Patents

Abstract

The invention provides an intelligent system for personalized medical information acquisition and health monitoring, which is characterized by comprising the following components: the unified data processing platform is used for being responsible for unified analysis and scheduling of data; the system comprises a plurality of common user ends, wherein the common user ends transmit information of external health monitoring hardware through interfaces of the common user ends, and the personalized medical information acquisition and health monitoring system performs data sharing with a hospital information management system through the common user ends and information sharing interfaces in a data processing platform. An intelligent method for personalized medical information acquisition and health monitoring based on the system is also provided.

Description

Intelligent system and method for personalized medical information acquisition and health monitoring

Technical Field

The invention relates to an intelligent system and method for personalized medical information acquisition and health monitoring.

Background

With the rapid development of medical science, life science and information technology, personalized medical treatment is increasingly paid attention to people, and concepts such as precise medicine are generated. People hope to adopt a more targeted diagnosis and treatment scheme for patients through more targeted personalized medical treatment, so that a better treatment effect is achieved. Personalized medical treatment needs personalized information as a basis, and only when the personalized information of a patient is mastered, a personalized diagnosis and treatment scheme can be designed for the patient through analysis.

Medical information technology is a rapidly developing field. However, the development of the medical information technology at present mainly focuses on the aspects of the medical information acquisition technology, the data acquisition process, the information storage platform, the information management technology, and the like, and the efficiency and the mode of the medical data acquisition, storage, analysis, and management are concerned, and the technology has great defects in the information technology oriented to the personalized medicine. The core of the information technology oriented to the personalized medical treatment is an intelligent information acquisition system which can be customized for each individual. Specifically, the "personalized medical information collection system" should have several characteristics: the method has the advantages that the method is autonomous, and a person to be acquired autonomously acquires medical information, so that the universality of information acquisition work is ensured; customization, a more targeted acquisition scheme is provided according to different objects, so that the efficiency of data acquisition work is ensured; the comprehensiveness and the continuity enable the data acquisition content to be more complete, and meanwhile, the continuity ensures that the acquisition work is continuously carried out. The purpose of developing the personalized medical information acquisition system is to pertinently acquire personalized high-quality data and further provide key technical support for practically promoting research, development and application of personalized medical treatment, which is essentially different from the technology focusing on improving the work efficiency of information acquisition. At present, a personalized medical information acquisition system which meets the characteristics of 'customized' is not available.

Disclosure of Invention

In view of the above-mentioned situation in the prior art, the present inventors have recognized that there is a need for a medical information collecting system that can personalized collect medical information of a user, including clinical phenotype information, biological information, and other clinical indicators. The acquisition of sufficient personalized information can lay a solid foundation for the next step of personalized diagnosis and medication. It has the characteristics of autonomy, customization, comprehensiveness and persistence; the autonomy refers to that the patient autonomously carries out information acquisition, and related professionals only need to consume little workload in the acquisition work, so that the contribution of the patient is fully exerted; the customization refers to that the system customizes a targeted acquisition scheme for the patient according to the personalized information of the patient; comprehensiveness means that the information collected by the system can cover all relevant information as much as possible; persistence refers to the fact that the system will maintain a constant collection of information over a period of time, thereby achieving temporal integrity of the data.

Based on the above knowledge, the present inventors provide a personalized medical information collection and health monitoring system, wherein medical collection work is designed by taking follow-up as a prototype, data collection is performed in a specific manner (users reply to questionnaires sent by the system and/or users actively upload related data, etc.), and customized intelligent questionnaires are pushed to the system according to personalized information provided by patients and information considered to be needed by the system, so as to meet the requirements of information collection integrity and customizability; the customized acquisition scheme can greatly reduce the number of questions, and the questionnaire is more targeted, so that the acquisition work is more successful. In addition, the health monitoring part is in order to satisfy the requirement of autonomy and persistence, fuses information acquisition work into health monitoring work, lets the patient can observe the condition that own index changes along with time after the record information and can improve patient's record enthusiasm, has also guaranteed the time integrality of data simultaneously, has obtained the effect of killing two birds with one stone.

According to one aspect of the present invention, there is provided a personalized medical information collection and health monitoring system, characterized by comprising: a unified data processing platform for unified analysis and scheduling of data,

a plurality of common user terminals are arranged on the network,

wherein the content of the first and second substances,

the common user end transmits the information of the external health monitoring hardware through the interface,

the personalized medical information acquisition and health monitoring system shares data with a hospital information management system through information sharing interfaces in a common user side and a data processing platform.

According to a further aspect of the present invention, there is provided a personalized medical information collecting and health monitoring method based on a personalized medical information collecting and health monitoring system, wherein the personalized medical information collecting and health monitoring system comprises:

a unified data processing platform for unified analysis and scheduling of data,

a plurality of common user terminals,

The personalized medical information acquisition and health monitoring method is characterized in that:

the data is uniformly analyzed and scheduled by using a data processing platform,

the interface of the common user terminal is used to transmit the information of the external health monitoring hardware,

and data sharing is carried out with a hospital information management system by using the information sharing interfaces of the common user side and the data processing platform.

Drawings

Fig. 1 is an overall configuration diagram of a system according to an embodiment of the present invention.

FIG. 2 is a block diagram of a data analysis platform according to one embodiment of the present invention.

Fig. 3 is a structural diagram of a general user terminal according to an embodiment of the present invention.

Fig. 4 is a block diagram of a doctor's end according to an embodiment of the present invention.

FIG. 5 is a block diagram of a researcher side according to one embodiment of the present invention.

FIG. 6 is a block diagram of health monitoring hardware according to one embodiment of the present invention.

FIG. 7 is a workflow diagram of the intelligent questionnaire generation module according to one embodiment of the invention.

Fig. 8 is a diagram of a user information database structure according to an embodiment of the present invention.

FIG. 9 is a block diagram of a knowledge database in accordance with one embodiment of the present invention.

Detailed Description

According to the system structure diagram of fig. 1, the common user terminal and the doctor terminal can be realized in the form of a mobile phone APP and complete corresponding functions. The scientific research personnel side involves some background operations, so the method can be realized by a PC side program or a webpage APP.

The data processing platform may be built as a server for APPs. The user can complete corresponding operation through the APP, then the APP makes a request to the server, and the server processes the request and returns a result.

As shown in fig. 1, a system architecture of a personalized medical information collection and health monitoring system according to an embodiment of the present invention includes a unified data processing platform 101, and a plurality of general user terminals 102, at least one doctor terminal 103, and at least one researcher terminal 104 as client terminals.

In a basic embodiment of the present invention, the personalized medical information collection and health monitoring system of the present invention does not include a doctor side and a researcher side, which corresponds to the case where the doctor side 103 and the researcher side 104 are not present in fig. 1 (so the doctor side and the researcher side are indicated by dashed lines in fig. 1). In the case that the system does not include the doctor end 103, the user (patient and/or doctor and/or scientific research personnel) can still perform the body index detection and uploading through the health monitoring hardware 105 as usual, and can select the data acquisition scheme (such as questionnaire template) by himself, thereby obtaining the data acquisition scheme comprehensively recommended by the system.

According to another embodiment of the invention, under the condition that no scientific research personnel end exists, the scientific research personnel can apply for directly asking for the relevant data from a system manager under the permission of authority.

The data processing platform 101 is mainly responsible for uniform analysis and scheduling of data, and the three clients 102, 103, and 104 respectively have specific functions (as described in detail below), and need to interact with the data processing platform when performing the functions. Also included are two external systems, respectively external health monitoring hardware 105 and hospital information management system 106. The health monitoring hardware 105 transmits information through the interface of the general user terminal 102, and the information of the hospital information management system 106 shares data with the system through the information sharing interfaces 202 (see fig. 2) in the general user terminal 102, the doctor terminal 103 and the data processing platform. The common user side and the doctor side are uploaded by the user through forms of form filling, photographing and the like, and the information sharing interface 202 in the data processing platform directly performs data sharing work through a special technology.

The data processing platform 101 comprises 4 parts as shown in fig. 2. A communication layer 241, a permission control layer 242, an information processing layer 243, and a database layer 244.

The communication layer 241 is responsible for data communication with systems outside the platform, and includes the request processing module 201 and the information sharing interface 202. The request processing module 201 sends a request to a specific module in the following for processing according to a request sent from an external system. The information sharing interface is mainly responsible for data docking work with the hospital information management system.

The authority control layer 242 is mainly responsible for verification and setting of authorities. It includes a rights check module 211 and a rights setting module 212. The permission checking module 211 mainly analyzes the request sent from the communication layer 241 by querying the user relationship and permission table 812 (see fig. 8) in the user information database 231, and if the user has the corresponding operation permission, the request is transmitted to the corresponding module for processing, otherwise, the request is rejected. The privilege setting module 212 changes the corresponding values in the user relationship and privilege table 812 according to the privilege setting operation of the user.

The information processing layer 243 is the most core part of the system, and is mainly responsible for processing and analyzing the information. The recommendation system comprises an information recommendation module 251 which is responsible for recommending personalized acquisition schemes and realizes personalized recommendation through a specific algorithm according to personalized information of a user. The collection scheme can be recommended, and further the collection of the medication scheme can be expanded. Which may be embodied as an intelligent questionnaire generation module 251; and the information conversion module is responsible for the conversion function of the information, such as the standardized integration of different data. Which may be embodied as an information normalization module 222; and the data analysis module is responsible for calculating and analyzing the data and obtaining related conclusions. Which may be embodied as gauge calculation module 223. And is not limited to these modules.

The intelligent questionnaire generating module 221 is mainly responsible for generating the user intelligent questionnaire. The questionnaire is generated through a specific algorithm according to the existing data of the user and the relevant prior knowledge. Referring to fig. 7, the system first reads the follow-up schedule of the user, the information is stored in the corresponding follow-up plan table 813 in the user information database 231, and obtains the questionnaire customized by the doctor, if the follow-up schedule exists, the questionnaire customized by the doctor is added, otherwise, the next step is directly performed. The personalized information of the patient stored in the user information database 231, including historical health data, genetic data, etc., is read next. And then, calculating through a specific questionnaire generating algorithm, screening out suitable topics, and adding questionnaire skipping logic. And finally, generating a questionnaire and returning.

The information normalization module 222 is a module for normalizing data from non-normalized data sources. These non-standardized data may be from the information management system of the hospital, and the data record form, data unit, etc. of different hospitals may be different, so that it must be stored and used by the processing party.

The scale calculation module 223 calculates according to the related scales contained in the questionnaire and the calculation method corresponding to the scales, and determines the scale score for the user to refer to. There are different algorithms to implement depending on the scale.

The database layer 244 includes a user information database 231 and a knowledge database 232. Wherein:

the user information database 231 mainly includes several data tables, as shown in fig. 8. It can be seen that the data tables can be roughly divided into two types, namely a system function type data table 801 and a record type data table 802. The system function data table 801 mainly stores information of some system function types, and supports normal operation of system functions, including a user basic information table 811, a user relationship (authority) table 812, a user follow-up scheme table 813, and the like. The global class of information is primarily the data tables used for system-level scheduling and management. Wherein the user basic information table 811 stores basic information of the user. The user relationship (authority) table 812 records information such as doctor-patient relationship and stores settings of data viewing authority between users. The record class data table 802 is responsible for storing some data records, and is convenient for reference and utilization. The 3 classes may be included by source category, which are the autonomous upload class data table 821, the hospital source class data table 822, and the other professional institution source class data table 823, respectively. The self-uploading data table 821 is mainly information that is uploaded by the user, wherein the daily health monitoring data table 831 is used for storing daily health data, such as data generated by the health monitoring hardware 105, or filling results of an intelligent questionnaire generated by the intelligent questionnaire generation module 221. The daily medication record table 832 stores daily medication information uploaded by the patient. The hospital source class data table 822 stores all data generated at the hospital side. An order and diagnosis data table 841 (storing order and diagnosis information) and a laboratory examination data table 842 (storing index data of laboratory examination, such as liver function test, X-ray film, etc.) may be included. The other professional organization source class data table 823 stores data generated by other organizations, such as professional gene sequencing organizations, which may detect the bioinformatic data of the user, including genomic, proteomic, and metabonomic data, which are stored in the bioinformatic data table 851.

The knowledge database 232 mainly includes a term comparison table 901, an information collection question bank 902, a question relation table 903, and the like, as shown in fig. 9. Where the term look-up table 901 collects a mapping between standard medical data and some other name for normalizing the data. The information collection question library 902 corresponds to all questions available for generating questionnaires, each of which may relate to symptoms, medications, etc. The topic relation table 903 records the relation between topics, which may include similarity, association degree under a certain condition, and the like; for example, after taking a certain drug, some side effects may appear, which are recorded in the sheet. This information may be used in an intelligent questionnaire generation algorithm.

The common user terminal 102 includes 5 functional modules: a health monitoring hardware data reading module 301, a daily health self-testing entry module 302, a laboratory examination data and gene data entry module 305, a historical data display module 303, and a personnel management and authority setting module 304, as shown in fig. 3. The health monitoring hardware data reading module 301 is mainly responsible for interacting with the health monitoring hardware (105), reading intelligent hardware information, and storing and uploading the intelligent hardware information. The daily health self-test entry module 302 is responsible for the filling and feedback functions of the daily health self-test questionnaire and follow-up questionnaire of the user. The module 302 obtains the questionnaire to be filled by sending a request to the data processing platform 101, and after the user fills in the questionnaire, the module uploads the data to the data processing platform 101 and obtains the relevant processing and analysis results. The laboratory examination data and gene data entry module 305 is mainly responsible for data generated in the hospital, such as various examination indexes performed in the hospital, gene detection results, and the like, which are the basis for the data processing platform 101 to design an intelligent questionnaire. The historical data presentation module 303 may count and present data uploaded by the user in the past, where dynamic changes in the physical indicators may be observed. The personnel management and permission setting module 304 can allow the user to perform personnel management such as adding and deleting of doctors on one hand. On the other hand, the authority can be set for other users, such as the current doctor can be set to view certain information of the current doctor.

The doctor end 103 includes 4 functional modules: a patient follow-up visit schedule design module 401, a patient information entry module 402, a patient daily health information display module 403, and a personnel management and permission setting module 404, as shown in fig. 4. The patient follow-up visit schedule design module 401 can set the follow-up visit of the patient, including the date setting and the design of the questionnaire questions to be filled in on a certain date, and the doctor can design a follow-up visit scheme for the patient through the module. The patient information entry module 402 provides a way for doctors to help patients to enter information, and doctors can conveniently check certain information entry systems which cannot be taken by patients or patients through the module 402. The patient daily health information presentation module 403 may present the questionnaire results filled in by the patient, the variation of the relevant indexes, and other data to the doctor for reference. The staff management and permission setting module 404 may add, delete patients, and set related information viewing permissions.

The researcher terminal 104 mainly includes 1 functional module, i.e., an information retrieval module 501, as shown in fig. 5. The information retrieval module 501 provides information retrieval and screening functions, so that scientific research personnel can inquire case data conforming to own scientific research requirements, and can check and download the data for use after acquiring data checking authority.

The health monitoring hardware 105 primarily includes several types of intelligent health monitoring devices, which may include an intelligent scale 601, an intelligent sphygmomanometer 602, an intelligent blood glucose meter 603, an intelligent heart rate meter 604 and/or other intelligent hardware 605, such as a smart phone with health monitoring capabilities, as shown in fig. 6. The intelligent hardware may interact with the health monitoring hardware data reading module 301 of the general user terminal 102 through a relevant protocol, and upload the measured data to the general user terminal 102 and then to the data processing platform 101.

The advantages and beneficial effects of the invention include:

1. the personalized medical information acquisition system fully considers the unified information acquisition and processing platform required by three roles, namely a patient, a doctor and a researcher, and the three roles can work cooperatively under the unified processing platform, play the roles of the three roles and respectively obtain the needs. It has the characteristics of autonomy, customization, comprehensiveness and persistence, wherein: the autonomy can lead the patient to carry out information acquisition autonomously, thus reducing the workload of medical workers; the customization fully considers individual factors of the patient, and a personalized follow-up visit and information acquisition scheme is formulated for the patient through professional analysis, so that the information acquisition work is more efficient; the requirements of scientific researchers and doctors on the uniformity and completeness of information acquisition sample data are comprehensively met, so that the acquired data is higher in usability; the persistence ensures the time integrity of the user data and improves the utilization quality of the data.

2. The three different roles of patient, doctor and scientific research worker can obtain respective benefits when using the invention. The patient can record the real-time information of the patient through the system, on one hand, the change trend of the patient can be monitored by the patient, and on the other hand, the change condition of the index of the patient can be informed to a doctor in time. The customized information acquisition scheme provided by the system ensures that a patient does not need to fill in too much unnecessary information, which wastes time, and meanwhile, some information which is important for the patient and a doctor is added. The doctor can monitor the index change condition of the patient in real time through the system, and important help is provided for diagnosis and treatment work. The system also provides a follow-up visit scheme customized entrance for the doctor, and the doctor can influence the information acquisition scheme of the patient according to the own requirements, thereby fully meeting the requirements of the doctor. Scientific researchers can extract medical data through a special information searching and extracting module, screen the data according to the requirements of the scientific researchers, and finally obtain the data meeting the requirements of the scientific researchers. The data provided by the system is the first-hand data provided by the patient, and the information is more real and reliable.

3. The multiple data interfaces of the system make the data source richer. All data are managed in a unified mode, and various roles are convenient and fast to upload and look up. The system is also internally provided with a privacy protection and authority mechanism, and a patient can set related authorities when inputting information, so that the safety of personal information is protected to a great extent.

Claims (10)

1. An intelligent system for personalized medical information collection and health monitoring, comprising:

a unified data processing platform (101) for taking care of unified analysis and scheduling of data,

a plurality of common user terminals (102),

wherein:

the common user end (102) transmits the information of the external health monitoring hardware (105) through the interface,

the personalized medical information acquisition and health monitoring system shares data with a hospital information management system (106) through an information sharing interface (202) in a common user terminal (102) and a data processing platform (101),

the data processing platform (101) comprises:

a communication layer (241) for communicating data with a portion external to the data processing platform (101), and comprising:

a request processing module (201) for sending the request to the corresponding module for processing according to the request sent by the external system,

an information sharing interface (202) for interfacing data with the hospital information management system (106),

a privilege control layer (242) responsible for verification and setting of privileges,

an information processing layer (243) responsible for processing and analyzing operations of information,

a database layer (244) including a user information database (231), a knowledge database (232), the general user terminal (102) including:

a health monitoring hardware data reading module (301) which is responsible for interacting with the health monitoring hardware (105), reading the information of the health monitoring hardware (105), storing and uploading the information,

a daily health self-test recording module (302) which is responsible for the filling and feedback functions of the daily health self-test questionnaire and follow-up questionnaire of the user, obtains the questionnaire required to be filled by sending a request to the data processing platform (101), uploads the data filled by the user to the data processing platform (101) and obtains the related processing and analysis results,

a laboratory examination data and gene data entry module (305) which is responsible for data generated in the aspect of hospitals, including various examination indexes and gene detection result data performed in the hospitals and used as a basis for designing an intelligent questionnaire by a data processing platform (101),

a historical data display module (303) for counting and displaying the data uploaded by the user in the past so as to observe the dynamic change of the body index,

a personnel management and authority setting module (304) which is used for the user to carry out personnel management including addition and deletion of doctors on one hand and setting authority aiming at other users including setting the current doctors to view certain information of the current doctors on the other hand,

the information processing layer (243) includes:

the information recommendation module (251) is responsible for recommending the personalized acquisition scheme and carrying out personalized recommendation according to the personalized information of the user, including the acquisition of the recommended acquisition scheme and/or the medication scheme,

the information conversion module is used for realizing the conversion function of information and comprises the standardized integration of different data;

a data analysis module for calculating and analyzing the data,

the information recommendation module (251) comprises an intelligent questionnaire generation module (221) which is used for generating a user questionnaire to be sent to a user according to the existing data of the user and the prior knowledge,

the intelligent questionnaire generation module (221) comprises parts for performing the following operations:

reading a follow-up schedule (702) of the user, the follow-up schedule being stored in a follow-up scenario table (813) included in a user information database (231), thereby obtaining a questionnaire customized for the user by a doctor,

judging (703) whether there is a questionnaire template customized by a doctor, generating (704) a questionnaire based on the customized questionnaire template when there is a customized questionnaire template, reading (705) personalized information of a user stored in a user information database (231) when there is no customized questionnaire template,

subject screening and/or questionnaire hopping logic addition (706) is performed according to an intelligent questionnaire generation algorithm,

a questionnaire is generated (707).

2. The intelligent system for personalized medical information collection and health monitoring of claim 1, wherein the data analysis module comprises a scale calculation module (223).

3. The intelligent system for personalized medical information collection and health monitoring as claimed in claim 1, wherein the health monitoring hardware (105) comprises:

an intelligent weighing machine (601),

an intelligent blood pressure meter (602),

an intelligent blood glucose meter (603),

an intelligent heart rate meter (604), and/or

A smart phone with a health monitoring function,

the health monitoring hardware (105) interacts with the health monitoring hardware data reading module (301) through a relevant protocol, and uploads the measured data to a common user terminal (102) and further to a data processing platform (101).

4. The intelligent system for personalized medical information collection and health monitoring of claims 1-3, further comprising:

at least one doctor end (103).

5. The intelligent system for personalized medical information collection and health monitoring according to claim 4, wherein the doctor end (103) comprises:

a patient follow-up visit schedule design module (401) for setting the follow-up visit of the patient, including the date setting and the design of the questionnaire questions to be filled in corresponding dates, so that the doctor can design a follow-up visit scheme for the patient through the module,

a patient information entry module (402) for providing a doctor with a way to assist the patient in entering information,

a patient daily health information display module (403) for displaying the questionnaire results filled in by the patient, the change condition of the related indexes and other data to the doctor,

and the personnel management and permission setting module (404) is used for adding and deleting the information viewing permission related to the patient and the setting.

6. The intelligent system for personalized medical information collection and health monitoring of claims 1-3, further comprising:

at least one scientific research personnel end (104) is in medical treatment and comprises an information retrieval module (501) which is used for providing information retrieval and screening functions and inquiring case data which are in accordance with relevant scientific research requirements.

7. Intelligent method for personalized medical information collection and health monitoring based on an intelligent system for personalized medical information collection and health monitoring according to one of claims 1 to 6, characterized in that it comprises:

the data is uniformly analyzed and scheduled by using a data processing platform (101),

the interface of the common user terminal (102) is used to transmit the information of the external health monitoring hardware (105),

uses the information sharing interface (202) of the common user terminal (102) and the data processing platform (101) to share data with a hospital information management system (106),

the data communication is carried out by utilizing a communication layer (241) included in the data processing platform (101) and a part outside the data processing platform (101), and the data communication comprises

The request processing module (201) of the communication layer (241) is used for sending the request to the following module for processing according to the request sent by the external system,

the information sharing interface (202) of the communication layer (241) is utilized to carry out data docking work with the hospital information management system (106),

the method for verifying and setting the authority by utilizing the authority control layer (242) included in the data processing platform (101) comprises the following steps:

the authority checking module (211) of the authority control layer (242) is utilized to analyze the request sent by the communication layer 241 by inquiring the user relationship and the authority table (802) in the user information database (231), if the user has the corresponding operation authority, the request is transmitted to the corresponding module for processing, otherwise, the request is rejected,

utilizing the authority setting module (212) of the authority control layer (242) to change the corresponding values in the user relationship and the authority table (802) according to the authority setting operation of the user,

performing a processing analysis operation of the information using an information processing layer (243) included in the data processing platform (101),

the health monitoring hardware data reading module (301) of the common user terminal (102) is used for interacting with the health monitoring hardware (105), the information of the health monitoring hardware (105) is read, stored and uploaded,

the daily health self-testing questionnaire and the follow-up questionnaire of the user are filled and fed back by a daily health self-testing entry module (302) of a common user end (102), the questionnaire required to be filled is obtained by sending a request to a data processing platform (101), the data filled by the user is uploaded to the data processing platform (101) to obtain related processing and analysis results,

the laboratory examination data and the gene data entry module (305) of the common user terminal (102) are used for generating hospital data, including various examination indexes and gene detection result data performed in the hospital, as the basis for designing an intelligent questionnaire by the data processing platform (101),

the historical data display module (303) of the common user terminal (102) is used for counting and displaying the data uploaded by the user in the previous period so as to observe the dynamic change of the body index,

the personnel management and authority setting module (304) of the common user end (102) is used for leading the user to carry out personnel management, including addition and deletion of doctors, and setting authority aiming at other users, including setting the current doctors to check certain information,

and the number of the first and second groups,

recommending personalized collection schemes with an information recommendation module (251) of an information processing layer (243), performing personalized recommendations including collection of recommended collection schemes and/or medication schemes according to personalized information of a user,

the information conversion module of the information processing layer (243) is used for realizing the conversion of the information, including the standardized integration of different data,

calculating and analyzing the data by a data analysis module of the information processing layer (243),

the method for generating the user questionnaire to be sent to the user by using the intelligent questionnaire generating module (221) included by the information recommending module (251) and combining the prior knowledge according to the existing data of the user comprises the following steps:

reading a follow-up schedule (702) of the user, the follow-up schedule being stored in a follow-up scenario table (813) included in a user information database (231), thereby obtaining a questionnaire customized for the user by a doctor,

judging (703) whether there is a questionnaire template customized by a doctor, generating (704) a questionnaire based on the customized questionnaire template when there is a customized questionnaire template, reading (705) personalized information of a user stored in a user information database (231) when there is no customized questionnaire template,

and (4) performing topic screening and/or addition of questionnaire jumping logic according to an intelligent questionnaire generation algorithm (706), and generating a questionnaire (707).

8. The method of claim 7, further comprising:

the intelligent weighing machine (601), the intelligent sphygmomanometer (602), the intelligent blood glucose meter (603), the intelligent heart rate meter (604) and/or the intelligent mobile phone with the health monitoring function, which are/is included in the health monitoring hardware (105), interact with the health monitoring hardware data reading module (301) through related protocols, and upload the measured data to a common user terminal (102) and further upload the data to a data processing platform (101).

9. The method of claim 7 or 8, wherein the personalized medical information collection and health monitoring system further comprises at least one physician end (103), and the method is characterized by further comprising:

setting follow-up visits of patients by using a patient follow-up visit schedule design module (401) of a doctor end (103), wherein the follow-up visits comprise date settings and the design of questionnaire questions to be filled in corresponding dates, so that doctors can design follow-up visit schemes for patients through the module,

a patient information input module (402) of the doctor end (103) is used for providing a way for assisting a doctor to input information for a patient,

the daily health information display module (403) of the patient at the doctor end (103) is used for displaying the questionnaire results filled in by the patient, the change condition of the related indexes and other data to the doctor,

and a personnel management and permission setting module (404) of the doctor end (103) is used for adding and deleting the information viewing permission related to the patient and the setting.

10. The method of claim 7 or 8, wherein the personalized medical information collection and health monitoring system further comprises at least one researcher terminal (104), and the method is characterized by further comprising:

an information retrieval module (501) of a scientific research personnel terminal (104) is used for providing information retrieval and screening functions and inquiring case data which are in accordance with related scientific research requirements.

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