CN107993727A

CN107993727A - A kind of data processing method, apparatus and system

Info

Publication number: CN107993727A
Application number: CN201711338560.8A
Authority: CN
Inventors: 李小军; 杨波; 雷晓晨; 赵雪松; 康健伟; 王翼翮; 周维; 宋德华
Original assignee: NEUSOFT XIKANG HEALTH TECHNOLOGY Co Ltd
Current assignee: NEUSOFT XIKANG HEALTH TECHNOLOGY Co Ltd
Priority date: 2017-12-07
Filing date: 2017-12-14
Publication date: 2018-05-04

Abstract

This application provides a kind of data processing method, apparatus and system, wherein, method includes：Server receives the measurement data for measuring user's body by intelligent detection equipment and obtaining, and the measurement data includes the device identification of the intelligent detection equipment, the user identifier and user's sign data of tested user；Business rule corresponding with the intelligent detection equipment is searched according to the device identification, generates measurement report according to the business rule and user's sign data, and the user identifier is subjected to data binding with the measurement report and is stored；Wherein, the business rule is previously generated according to the safety index parameter of human body physical sign.The application is connected, there is provided telemedicine environment by being in communication with each other between server and intelligent detection equipment for patient with the teledata that medical staff establishes, it is possible to increase patient medical physical examination, and effectively save medical resource.

Description

Data processing method, device and system

The present application claims priority of chinese patent application having application number 201711284905.6 and application name "a data processing method, apparatus and system" filed in 2017 on 7/12/7, which is incorporated herein by reference in its entirety.

Technical Field

The present application relates to the field of medical technology, and in particular, to a data processing method, apparatus, and system.

Background

Chronic diseases refer to diseases with hidden onset, long course and persistent state of illness, such as hypertension, diabetes, heart disease, insomnia, cardiovascular and cerebrovascular diseases, chronic respiratory system diseases, etc.; according to statistics, the death number caused by chronic diseases in China accounts for about 86% of the total death number, and the disease burden caused by the chronic diseases accounts for about 70% of the total disease burden. Since chronic diseases are generally difficult to cure, the emphasis is on prevention and control, and medical resources consumed for the prevention and control of chronic diseases occupy a large proportion of medical resource investment, so how to effectively implement the prevention and control of chronic diseases in an intelligent manner to save medical resources and improve medical service efficiency is a key point of current research in the medical field.

Disclosure of Invention

In order to solve the above technical problem, an embodiment of the present application provides a data processing method, where a server receives measurement data obtained by measuring a user sign through an intelligent detection device, where the measurement data includes a device identifier of the intelligent detection device, a user identifier of a user to be measured, and user sign data; this intellectual detection system equipment can provide intelligent measurement service for a plurality of users, makes things convenient for a plurality of users to share a equipment, and the information that carries in the server according to this measured data can provide the measurement report and generate the service for a plurality of users, provides valuable data for medical personnel based on the measurement report of automatic generation for even if chronic disease patient is not to the hospital, also can obtain medical personnel in time and provide good prevention and control service, effectively saves medical resources, improves disease prevention and control quality.

The embodiment of the application also provides a data processing device, a server, intelligent detection equipment and a data processing system, so as to ensure the application and implementation of the method in practice.

A first aspect of an embodiment of the present application provides a data processing method, including:

the method comprises the steps that a server receives measurement data obtained by measuring user signs through intelligent detection equipment, wherein the measurement data comprise equipment identification of the intelligent detection equipment, user identification of a user to be detected and user sign data;

searching a service rule corresponding to the intelligent detection equipment according to the equipment identifier, generating a measurement report according to the service rule and the user sign data, and performing data binding and storage on the user identifier and the measurement report; the business rules are generated in advance according to the safety index parameters of the human body physical signs.

Optionally, the server receives measurement data of at least two different users to be tested measured by the intelligent detection device.

Optionally, the method further comprises:

and the server pushes the measurement report to a client side having a binding relation with the intelligent detection equipment.

Optionally, the method further comprises:

and the server pushes health information to a client side having a binding relationship with the intelligent detection equipment.

Optionally, the binding relationship is specifically a concern relationship between a wechat public number of the intelligent detection device and a client wechat micro signal concerning the wechat public number; or,

the binding relationship is specifically a corresponding relationship between the device number of the intelligent detection device and the client communication account.

Optionally, the method further comprises:

the server analyzes the measurement data according to an alarm rule corresponding to the intelligent detection equipment to judge whether the user sign state is in an alarm state;

and if so, the server generates a task to be handled, wherein the task to be handled refers to a task needing to be handled by medical staff.

Optionally, the method further comprises:

the server establishes a user health record database, and stores a user health record through the user health record database, wherein the user health record is used for recording the record of behaviors and events related to the health of a patient.

Optionally, the method further comprises:

the server sends the user health profile to another server.

A second aspect of the embodiments of the present application provides a data processing apparatus, including:

the measurement data receiving module is used for receiving measurement data which are measured by the intelligent detection equipment and represent physical sign indexes of the user;

the measurement report generating module is used for searching a service rule corresponding to the intelligent detection equipment and generating a measurement report according to the service rule and the measurement data; the business rules are generated in advance according to the safety index parameters of the human body physical signs.

A third aspect of the embodiments of the present application provides a server, including:

a processor, a memory, a network interface, and a bus system.

The bus system for coupling the various hardware components of the server together;

the network interface is used for realizing communication connection between the server and at least one other device;

the memory to store program instructions;

the processor is used for reading the instructions stored in the memory and executing the following operations:

receiving measurement data representing user physical sign indexes measured by intelligent detection equipment;

searching a service rule corresponding to the intelligent detection equipment, and generating a measurement report according to the service rule and the measurement data; the business rules are generated in advance according to the safety index parameters of the human body physical signs.

In a fourth aspect of the embodiments of the present application, a data processing method is characterized in that the method includes:

the intelligent detection equipment determines the user identification of the detected user according to the identity confirmation operation triggered by the detected user;

and generating measurement data according to the user sign data obtained by measurement, and sending the measurement data to a server, wherein the measurement data comprises the equipment identifier of the intelligent detection equipment, the user identifier of the user to be measured and the user sign data, so that the server generates and stores a measurement report of the user to be measured according to the measurement data.

Optionally, a plurality of identity confirmation controls are configured in the intelligent detection device; the intelligent detection equipment receives and stores the pre-configured configuration relationship between the user identification and the identity confirmation control of a plurality of detected users;

the method further comprises:

and determining the user identification of the tested user according to the touched identity confirmation control and the configuration relation.

Optionally, if the intelligent detection device is configured with an input interface, the method further includes:

and the intelligent detection equipment responds to the user identification input operation triggered by the detected user on the input interface, and determines the user identification of the detected user according to the content input by the detected user.

Optionally, the method further includes:

and the intelligent detection equipment sends the measurement data to other clients according to the pre-stored binding relationship between the user identification and the communication account numbers of other clients.

In a fifth aspect of embodiments of the present application, there is provided a data processing apparatus, including:

the determining module is used for determining the user identification of the tested user according to the identity confirmation operation triggered by the tested user;

and the sending module is used for generating measurement data according to the user sign data obtained by measurement and sending the measurement data to a server, wherein the measurement data comprises the equipment identifier of the intelligent detection equipment, the user identifier of the user to be measured and the user sign data, so that the server generates and stores the measurement report of the user to be measured according to the measurement data.

In a sixth aspect of the embodiments of the present application, there is provided an intelligent detection device, including:

a processor, a memory, a network interface, and a bus system.

The bus system is used for coupling the hardware components of the intelligent detection equipment together;

the network interface is used for realizing communication connection between the intelligent detection equipment and at least one other equipment;

the memory to store program instructions;

determining the user identification of the tested user according to the identity confirmation operation triggered by the tested user;

A seventh aspect of the present embodiment provides a data processing system, including:

the smart detection device provided by the sixth aspect and the server provided by the third aspect, wherein the smart detection device interacts with the server.

Compared with the prior art, the technical scheme provided by the embodiment of the application has the following advantages:

by utilizing the technical scheme provided by the embodiment of the application, the remote medical environment is provided for the remote data connection established between the patient and the medical personnel through the remote communication between the server and the intelligent detection equipment; the chronic patient does not need to frequently go to a hospital for a diagnosis, but the intelligent detection equipment is used for measuring the physical sign indexes, the intelligent detection equipment reports the measured measurement data to the server, and the server automatically generates a measurement report according to the measurement data and the service rule corresponding to the intelligent detection equipment. Therefore, the method is convenient for the patient to enjoy the medical service at any time and any place without going to the hospital; on the other hand, medical care personnel can conveniently provide medical service remotely, so that the medical service efficiency is improved; particularly, for some chronic disease prevention and control services, the medical examination of the patient can be improved, and medical resources can be effectively saved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive labor.

FIG. 1 is a schematic diagram of an application scenario of the present application in practice;

FIG. 2 is a flow chart of a data processing method of an embodiment of the present application;

fig. 3 is a block diagram of a data processing apparatus according to an embodiment of the present application;

fig. 4 is a hardware configuration diagram of a server according to an embodiment of the present application;

FIG. 5 is a flow chart of another data processing method of an embodiment of the present application;

fig. 6 is a block diagram of another data processing apparatus according to an embodiment of the present application;

FIG. 7 is a block diagram of an intelligent detection device according to an embodiment of the present application;

fig. 8 is a block diagram of a data processing system according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

To facilitate those skilled in the art to understand the technical solution of the present application, a scenario example of the technical solution provided in the present application is described below with reference to a scenario diagram shown in fig. 1.

As shown in fig. 1, a data processing method provided in the embodiment of the present application may be applied to a server 100, where the server 100 may be an application server, a web server, or the like. The server 100 may be a stand-alone hardware device, such as a computer, a supercomputer, or the like; the cluster server can also be adopted for deployment and implementation; in addition, when storing data, the server 100 may store the data in a local storage, such as a memory, a cache, or the like, or may store the data in a cloud.

The server 100 communicates with the intelligent detection device 200, the server 100 is configured to receive measurement data obtained by measuring a user sign by the intelligent detection device 200, and the intelligent detection device 200 can distinguish users, where the measurement data includes a device identifier of the intelligent detection device, a user identifier of a user to be detected, and user sign data; specifically, from the perspective of hardware, the intelligent detection device 200 is a device capable of measuring physical sign indexes of a user, and in practical application, the intelligent detection device 200 may be a blood pressure meter, a blood glucose meter, an electrocardiograph, a sleep monitor, or the like.

The server 100 and the intelligent detection device 200 may communicate directly or indirectly; for example, after the intelligent detection device 200 measures the physical sign of the user to obtain measurement data, the measurement data is uploaded to the server 100, and the intelligent detection device 200 may directly communicate with the server 100 and send the measurement data to the server 100; the smart sensor device 200 may also send the measurement data to a device server for managing itself, and then the device server uploads the measurement data to the server 100. In practical applications, the smart detection device 200 may transmit data through a wireless network, or upload measurement data through a GPRS method by using a built-in SIM card. In practical application, one intelligent detection device can detect one user sign index and can also detect multiple user sign indexes.

The server 100 receives the measurement data and generates a measurement report according to the measurement data and a preset business rule corresponding to the intelligent detection device 200, wherein the measurement report is used for providing intermediate data required by medical diagnosis for medical staff; according to the medical service system, the server 100 and the intelligent detection device 200 are communicated with each other, and the remote data connection is established for the patient and the medical staff, so that a mode that the patient does not need to frequently run for a hospital to visit and enjoy the medical service anytime and anywhere is provided for the patient, the medical process is simplified, and the medical service efficiency is improved.

For ease of understanding, the following example is described in conjunction with the above scenarios.

For example, a diabetic a purchases an intelligent detection device, namely a blood glucose meter 001, the patient a only needs to use the blood glucose meter to measure the blood glucose of the patient a on time, and the blood glucose meter generates first measurement data according to the measured blood glucose data, the device identifier 001 and a user identifier a of the patient a and reports the first measurement data to the server; meanwhile, the family member B of the patient a can share the same blood glucose meter with the patient a, that is, the family member B measures the blood glucose of the patient by using the blood glucose meter, and then the blood glucose meter generates second measurement data according to the measured blood glucose data, the device identifier 001 and the user identifier B of the family member B and reports the second measurement data to the server. For the server 100, after receiving each measurement data, extracting the user identifier, the device identifier, and the blood glucose data, searching for a corresponding business rule based on the device identifier, generating a blood glucose measurement report based on the business rule and the blood glucose data measured by the user, and storing the blood glucose measurement report and the user identifier by data binding. Based on this, medical personnel can correspond the measurement condition of looking over different patients through the binding relation between user identification and the blood sugar measurement report, for example, look for patient A's measurement report through user identification A, know patient A's health condition, and then pertinence provides medical service for patient A, to patient A, need not to go to hospital periodic inspection health again and seek medical service, to medical personnel, also need not to visit patient A, greatly improved medical service efficiency.

In practical application, a tested user or a relative thereof can establish a binding relationship between a client communication account and the intelligent detection device 200 through a personal terminal, the binding relationship can be stored in the intelligent detection device or the server 100, and the server 100 feeds back a measurement report or measurement data for the patient or the relative thereof according to the stored binding relationship related to the intelligent detection device 200, so that the patient or the relative thereof can know the physical condition of the patient in time, and the relative can provide more help and care for the patient.

For example, the diabetes patient a or the relative thereof establishes a binding relationship between the client and the intelligent detection device 200 by using the personal terminal, for example, a short message binding relationship, a micro-message gateway binding relationship, a mailbox binding relationship, and the like; in a specific implementation, a user uses a personal terminal to communicate with the intelligent detection device to establish the binding relationship, the intelligent detection device stores the binding relationship, or the intelligent detection device sends the binding relationship to the server 100, and the server 100 stores the binding relationship; alternatively, the personal terminal directly communicates with the server 100 to establish such a binding relationship, and the server 100 directly stores such a binding relationship.

For example, if the wechat public number of the intelligent detection device is displayed on the intelligent detection device, the patient a and the relative thereof establish a wechat binding relationship in a manner that the personal terminal pays attention to the wechat public number of the blood glucose meter by a personal wechat, and send the relevant information of the binding relationship to the server 100, and the server 100 stores the binding relationship and pushes the measurement report to the patient a and the relative thereof according to the binding relationship after a subsequent measurement report is generated, so that the patient a and the relative thereof can conveniently and timely know the physical condition of the patient a in a remote manner.

In practical application, the server 100 can also establish health records for the patient, keep the records of behaviors and events related to the health of the patient through the health records, specific contents mainly comprise personal living habits of the patient, disease history of the patient, diagnosis and treatment conditions, family medical history, current medical history, physical examination results, medical history, name, age, gender and the like, the server 100 stores the health records so as to facilitate medical staff to check, the physical condition of the patient is comprehensively known, and medical services are pertinently given.

In practical application, the server 100 may also remind medical staff to provide medical services to patients in time in the form of a task to be handled for the emergency condition of the patients according to practical medical needs. Specifically, the server 100 sets a corresponding alarm rule for the intelligent detection device 200, and when the measurement data of the patient is abnormal, the server 100 determines that the patient sign is in an alarm state according to the preset alarm rule corresponding to the intelligent detection device 200, and generates a task to be handled.

For example, if the server 100 determines that the blood glucose measurement value of the patient a satisfies the alarm rule corresponding to the blood glucose meter, indicating that the physical state of the patient a is in the alarm state, the server 100 generates a task to be handled, and the medical staff remotely checks the task to be handled through the server 100, and timely provides medical services to the patient a according to information such as a measurement report and a health file, for example, gives guidance suggestions to the patient a in terms of medication, diet, and the like, and for example, when the patient a is in an emergency state, the medical staff timely notifies the patient a and relatives thereof to arrange medical care in an emergency, thereby avoiding delay of the state of the patient.

Through the above description of the scene example, it can be seen that the remote medical environment is provided for the remote data connection established between the patient and the medical staff through the server 100 and the intelligent detection device 200, so that on one hand, the patient can enjoy the medical service anytime and anywhere without going to a hospital, on the other hand, the medical staff can remotely implement the medical service conveniently, and the medical service efficiency is improved; particularly, for some chronic disease prevention and control services, the medical examination of the patient can be improved, and medical resources can be effectively saved.

The following describes a data processing method provided in an embodiment of the present application.

Referring to fig. 2, fig. 2 is a flowchart of a data processing method according to an embodiment of the present application, the method is applied to a server, where the server may be a computer, a super computer, or a device with data processing and data storage functions in practical application, and the method includes the following steps:

s201, a server receives measurement data obtained by measuring user signs through intelligent detection equipment, wherein the measurement data comprises an equipment identifier of the intelligent detection equipment, a user identifier of a user to be detected and user sign data; in the embodiment of the application, the intelligent detection device is a device for detecting human body sign indexes; a commonly used smart detection device includes: blood pressure, blood glucose, electrocardiograph, sleep monitor, and the like; the blood pressure meter is used for measuring the blood pressure of a user, and the measured user sign data comprises measuring time and a corresponding blood pressure value; the blood glucose meter is used for measuring blood glucose of a user, and the measured user sign data comprises: measuring time and corresponding blood glucose values; the electrocardiograph is used for measuring the electrocardiowaves of a user, and the measured physical sign data of the user comprise measuring time and the electrocardiowaves; the sleep monitor is used for monitoring the sleep condition of a user, and the measured user sign data comprises: sleep time and sleep level. Certainly, some intelligent detection devices can also measure the two or more physical sign indexes simultaneously; for example, there is an intelligent detection device that can measure not only the blood glucose but also the blood pressure of a user. When the intelligent detection device is realized, the specific functions of the intelligent detection device are not limited. The intelligent detection equipment sends the measured data representing the physical sign indexes of the patient to the server so that the server can store the measured data.

In practical application, the intelligent detection device is internally provided with a wireless communication module, and the intelligent detection device can upload the measurement data to the server through the wireless communication module. The smart detection device may also have a built-in SIM card, and the smart detection device may also upload measurement data to the server in a General Packet Radio Service (GPRS) communication manner. Of course, some smart detection devices are managed by a dedicated device server, and the smart detection devices upload measurement data directly to the device server, and then the device server uploads the measurement data to the server.

In practical applications, the intelligent detection device may upload the measurement data to the server in real time after obtaining the measurement data each time, or may upload all the measurement data measured in the period to the server together according to a preset upload period, where the preset upload period may be related to an actual measurement service, for example, the upload period of blood glucose is one day, the upload period of blood pressure is one week, and the like.

Based on this, the server can directly receive the measurement data sent by the intelligent detection equipment through a wireless communication mode. The server can also receive the measurement data sent by the device server of the intelligent detection device in a wireless communication mode.

S202, searching a service rule corresponding to the intelligent detection device according to the device identifier, generating a measurement report according to the service rule and the user sign data, and performing data binding and storage on the user identifier and the measurement report.

In the embodiment of the application, the measurement data received by the server includes a user identifier, a device identifier, and user sign data, and after receiving the measurement data, the server may establish an index according to the device identifier (for example, a device hardware number) of the intelligent detection device, and store the measurement data reported by the intelligent detection device based on the index. And then, on the basis of the index, establishing a sub-index based on the user identification to store the user physical sign data of the user. The user identifier may be a user name, a user identification card, a user-defined account name, or the like. Of course, the server may store the measurement data in other manners, which is not specifically limited in this application.

For example, when the diabetic a measures blood glucose before and after three meals in a day by using the intelligent detection device, i.e., the blood glucose meter 001 generates measurement data from the blood glucose value measured in the day, and sends the measurement data to the server according to a preset uploading period, where the measurement data carries the device identifier 001 of the blood glucose meter, the user identifier a of the diabetic a, and the blood glucose data. When receiving the measurement data sent by the blood glucose meter 001, the server stores the received blood glucose data of the patient a with the device identifier 001 of the blood glucose meter as an index. Further, the blood glucose data of patient a may be stored by using the user label a of patient a as an index. Actually, in actual life, diabetes can cause many complications, such as heart disease, in order to prevent and control the complications in time, diabetic patient a can also utilize intelligent detection device — electrocardiograph 002 to measure electrocardiographic data, electrocardiograph 002 generates measured electrocardiographic data, device identification, and user identification a of patient a to generate measured data and sends the measured data to the server, and when the server receives the measured data sent by electrocardiograph 002, the received electrocardiographic data of patient B is stored with device identification 002 of the electrocardiograph as a reference, and of course, electrocardiographic data of patient B can be independently stored with user identification B of patient B as an index. That is, in the server, an index of two dimensions is established, where the first dimension is established based on the device identifier, and the second dimension is established based on the user identifier on the basis of the first dimension, for example, measurement data of all users using the smart detection device is stored based on the device identifier 001, and then the own measurement data of the user is further stored and managed based on the user identifier.

The server generates a measurement report, performs data binding on the user identification and the measurement report of the user, and stores the data binding according to the binding relationship; of course, the server may also perform data binding between the measurement report of the user and the intelligent measurement device and the user identifier, and then store the data according to the binding relationship. Therefore, the server can manage the measurement data of different users conveniently, and medical staff can check the measurement data of different users conveniently.

In the embodiment of the application, after receiving the measurement data, the server calls the service rule corresponding to the intelligent detection device from the preset service rule, and generates a measurement report by using the called service rule and the user sign data; the business rules are preset according to the safety index parameters of human body physical signs; different intelligent detection devices are used for measuring different human body sign indexes, and different intelligent detection devices correspond to different business rules; for example, a blood pressure meter corresponds to a blood pressure measurement business rule; the blood glucose meter corresponds to a blood glucose test business rule; the electrocardiograph corresponds to an electrocardiograph measurement business rule; the sleep monitor corresponds to a sleep measurement business rule;

when one intelligent detection device can measure various human body sign indexes of different types, the server stores various corresponding business rules aiming at the intelligent detection device; for example, an intelligent detection device can measure both blood pressure and blood glucose, the intelligent detection device corresponds to two business rules, namely a blood pressure measurement business rule and a blood glucose measurement business rule, and the server selects the corresponding business rule to generate a measurement report according to specific measurement data uploaded by the intelligent detection device.

The business rules are generated according to safety index parameters of human body physical signs, for example, the blood glucose measurement business rules are generated according to blood glucose safety index parameters of a human body, the normal fasting blood glucose is 3.9-6.7 mmol/l, the blood glucose 1 hour after meal is 6.7-9.4 mmol/l, the server can generate blood glucose measurement business rules in advance according to a normal fasting blood glucose threshold and a blood glucose threshold 1 hour after meal, so that when a blood glucose meter uploads the measured blood glucose value to the server, the server can generate a blood glucose measurement report according to the preset blood glucose measurement business rules and the blood glucose value; the blood pressure measurement business rule is generated according to the blood pressure safety index parameter of the human body, and the normal value of the blood pressure of the adult is as follows: systolic blood pressure (high pressure): 90-140 mmHg; diastolic pressure (low pressure): 60-90mmHg, the server generates a blood pressure measurement business rule in advance according to the normal blood pressure threshold of the adult, so that when the sphygmomanometer uploads the measured blood pressure value to the server, the server can generate a blood pressure measurement report according to the preset blood pressure measurement business rule and the blood pressure value.

In the embodiment of the application, the server can provide different versions of measurement reports for different intelligent detection devices; for example, for a blood pressure meter, the measurement reports provided by the server include: blood pressure measurement time, blood pressure value, blood pressure fluctuation graph, and whether blood pressure is higher than a threshold value; for a blood glucose meter, the measurement report provided by the server includes: blood glucose measurement time (before or after a meal), measurement results, results instructions, insulin levels, and the like.

In practical application, the server may process the measurement data belonging to the same user received within a preset time period to generate a measurement report of the user; the preset time period can be set by medical staff according to the specific condition of a patient, can also be set by the patient, and can also be set by a server according to the specific type of disease, for example, for diabetes, the time period set by the server is one day; the server sets a time period of seven days for hypertension. Among other things, the measurement report may exist in various forms, such as Word, picture, PDF, web page, and so on.

In practical applications, the server may provide a measurement report query service to the medical staff, for example, the server provides a query website of the measurement report, the medical staff logs in the query website through a browser, the server provides a query interface for the medical staff, a query factor selection control and a query control are displayed on the query interface, the medical staff selects a specified query factor through the query factor selection control, and the query factor may include: the intelligent detection device detects the device identification, the patient name, the measurement report date, the disease type and the like, the medical staff triggers the query control, and the server queries the measurement report matched with the query factor specified by the medical staff.

Based on this, on the basis of the above method, the method may further include: and the server receives the query request and feeds back a corresponding measurement report according to the query request. Of course, the server may also feed back related measurement data at the same time. In practical application, the user may not select the query factor, and the server may feed back the measurement report of the relevant disease category for the medical staff according to the department of the medical staff.

By utilizing the technical scheme provided by the embodiment of the application, the remote medical environment is provided for the remote data connection established between the patient and the medical personnel through the remote communication between the server and the intelligent detection equipment; moreover, the intelligent detection equipment can provide shared service for a plurality of users, and the server can provide automatic generation service of measurement reports for the plurality of users conveniently by carrying the equipment identification and the user identification in the measurement data; the intelligent detection device is particularly suitable for chronic patients, the chronic patients do not need to frequently go to a hospital to see a doctor, the intelligent detection device is used for measuring physical sign indexes, the intelligent detection device reports measured measurement data to the server, the server automatically generates a measurement report belonging to a certain user according to the measurement data and a service rule corresponding to the intelligent detection device, and accordingly, medical staff can check the measurement report of the chronic patients through the server without visiting the chronic patients, and remote medical service is provided for the patients according to the measurement report. Therefore, the method is convenient for the patient to enjoy the medical service at any time and any place without going to the hospital; on the other hand, medical care personnel can conveniently provide medical service remotely, so that the medical service efficiency is improved; particularly, for some chronic disease prevention and control services, the medical examination of the patient can be improved, and medical resources can be effectively saved.

In addition, in order to improve the quality of the chronic disease prevention and control service, the embodiment of the present application further provides a service of providing personal care for the chronic patient based on the communication of the device, specifically, the method provided by the embodiment of the present application may further provide a service of pushing a measurement report for the patient or the patient relative, so that the patient or the patient relative can know the physical condition of the patient in time and can give attention and care to the patient in time, and the method may further include the following steps specifically based on the method shown in fig. 2:

In this embodiment, the server further stores the binding relationship of the smart detection device, and after generating the measurement report related to the smart detection device, pushes the measurement report to the user according to the binding relationship. In practical application, the user can be a patient himself or a patient relative, a friend or the like, and the server not only sends a measurement report to the patient himself, but also sends the measurement report to the patient relative, so that the patient relative can know the physical condition of the patient in time conveniently, the patient can be arranged for medical treatment in an emergency, and accidents caused by improper monitoring are avoided; in addition, the relatives of the patients give some living help and attentive care to the patients according to the measurement reports; particularly, for some old patients, the relatives remind the patients to take medicines on time according to the measurement report, and exercise actively, so that the aims of reducing the medical service cost and improving the health management effect can be fulfilled.

In the embodiment of the application, several optional implementation manners are provided for the binding relationship of the intelligent detection device, specifically, the binding relationship is a concern relationship between a wechat public number of the intelligent detection device and a client side wechat micro signal concerning the wechat public number; or,

The binding relationship is exemplarily described below by a specific example.

A first possible implementation manner is that the binding relationship is a concern relationship between the wechat public number of the intelligent detection device and a client wechat signal concerning the wechat public number.

During specific implementation, a two-dimensional code is displayed on the intelligent detection equipment, for example, a paper two-dimensional code is pasted on the intelligent detection equipment, or a metal two-dimensional code is embedded in the intelligent detection equipment, or the two-dimensional code is displayed on the intelligent detection equipment through a display screen after the intelligent detection equipment is started; this intellectual detection system equipment's two-dimensional code includes at least: the device identification of the intelligent detection device, the WeChat public number of the intelligent detection device and the communication address of the server, such as an IP address; before the patient uses the intelligent detection device, the two-dimensional code is scanned through the personal terminal, and specifically, the personal terminal can be a terminal such as a smart phone and a tablet computer. When a patient pays attention to the intelligent detection device micro-signal public number by using the personal micro-signal through the personal terminal, the personal terminal sends the device number of the intelligent detection device and the micro-signal of the patient to the server according to the IP address of the server in the two-dimensional code, and when the server receives the information, the information can be stored in the memory, so that the server can send contents such as a measurement report to the micro-signal of the patient according to the binding relationship. Of course, the patient's relatives may also be bound in the manner described above.

A second possible implementation manner is that the binding relationship is a corresponding relationship between a device number of the smart detection device and a client communication account.

In an alternative implementation, each smart detection device has its specific device number when it leaves the factory, the patient logs in a user interface provided by the server by using the personal terminal, and the patient perfects personal information, such as mobile phone number, address, age, and the like, in the interface based on the device number of the purchased smart detection device. After the personal information of the patient is complete, the personal terminal sends the personal information of the patient to the server, and after the server receives the information, the personal information of the patient can be stored in a local memory. When the server receives the measurement data sent by the intelligent detection equipment, a measurement report is generated according to the preset service rule and the measurement data, and the server can send the measurement report to the patient and relatives thereof in a short message mode, so that the patient can know the health condition of the patient in time, and meanwhile, the relatives can master the health condition of the patient at the first time.

In another alternative, in a specific implementation, each smart detection device has its specific device number when it leaves the factory, and the patient logs in a user interface provided by the server by using the personal terminal, and completes personal information, such as mailbox address, age, and the like, in the interface based on the device number of the purchased smart detection device. After the personal information of the patient is complete, the personal terminal sends the personal information of the patient to the server, and after the server receives the information, the personal information of the patient can be stored in the local memory. When the server receives the measurement data sent by the intelligent detection device, a measurement report can be generated according to the preset measurement business rule and the measurement data, and the measurement report is sent to the patient and the relative in the form of an email.

In another alternative, during specific implementation, the patient may use a personal terminal to download a corresponding client, and fill in personal information in the user interface by using the device number of the smart detection device as the registered account and store the personal information. The client may send the stored personal information of the patient to the server so that the server may store the personal information of the patient. Of course, the relatives of the patients can upload the personal information of the relatives to the server in the above mode. When the server receives the measurement data sent by the intelligent detection equipment, a measurement report is generated according to the preset measurement business rule and the measurement data, the server can send a reminding message to the patient and the relative thereof through the client, so that the patient or the relative can check the measurement report in time through the client, wherein the patient can download the measurement report to the personal terminal through the client for checking, and can also check through a website provided by the client directly.

In the embodiment of the application, the user client can provide appointment service for the patient, and when the patient or relatives need to consult medical staff, the consultation time can be appointed through the appointment control on the user client; when the patient needs medical treatment, the patient or the relative can also make an appointment through the appointment control of the user client, so that the time for queuing and registering the patient is saved.

In the embodiment of the application, the server can push the measurement report to the patient or the relatives according to the stored binding relationship of the intelligent detection device, so that the patient or the relatives can know the health condition of the patient or the family in time, and the patient or the relatives can take effective measures according to different conditions to avoid delay of the illness.

In real life, many chronic patients care about their bodies and often inquire health information related to illness state from a network, but the authenticity of the information and the adaptability to the illness state of the patients are difficult to distinguish; based on this, the method provided in the embodiment of the present application may further provide a service of pushing health information for the patient or the relative, so that the patient or the relative of the patient may timely provide some health information, and on the basis of the method shown in fig. 2, the method may further include:

and the server pushes health information to a client side having a binding relationship with the intelligent detection equipment. The binding relationship may refer to the above description, and is not described herein again.

In the embodiment of the application, the server creates a health information database, health information is stored in the health information database, the database can be oriented to medical care personnel, and the medical care personnel can screen real and credible health information and store the health information in the database; during specific implementation, the server can push relevant health information to the client side having the binding relation with the intelligent detection equipment of the patient according to the disease type and the illness state of the patient, so that the patient or family members of the patient can obtain real and valuable health information, and the health information and the illness state of the patient have high adaptability. Specifically, the server may establish and maintain the health information database in the following manner, and several alternative implementations are described below.

An optional mode is that the server can provide an open data uploading interface for qualified medical care personnel, the medical care personnel can edit targeted and practical health information on a personal terminal, then the health information is uploaded through the interface provided by the server, and the server stores the health information in a health information database when receiving the health information so as to update the database in time; the medical staff can also fill in the related information through the health information editing template provided by the server and store the related information, so that the server can directly store the health information into the database.

Alternatively, the server may crawl relevant health information in the form of web pages, papers, videos and the like from some certified medical service websites in a web crawler manner and store the health information in the health information database. Of course, in the embodiment of the present application, the specific form of the health information is not limited to the above, and may be other forms such as voice, picture, PPT, and the like. More specifically, in the embodiment of the present application, the server may also push the health information through the following optional implementation manners.

In an alternative mode, the server searches health information related to the measurement service of the intelligent detection device from the health information data, and pushes the searched health information to the client side having the binding relationship with the intelligent detection device.

For example, the server searches the health information database for health information matching the business keyword with the business keyword identified by the device identifier according to the device identifier of the intelligent detection device. For example, a diabetic purchases an intelligent detection device, i.e., a blood glucose meter 001, and when the server receives the device number 001 of the blood glucose meter, the server recognizes that the service keyword of the intelligent detection device is "blood glucose", searches health information related to diabetes prevention and control in a health information database, and then pushes the searched health information to the diabetic.

Alternatively, the server provides a health information configuration interface to the healthcare worker who formulates health information related to the patient's condition for the patient through the server according to the patient's specific situation. For example, the medical staff selects health information related to the treatment of heart disease from the health information database of the server through the health information configuration interface aiming at the currently served heart disease patient B, and then the selected health information is pushed to the patient B through the server.

In another alternative, the server provides a service of customizing the health information type for the patient, the health information type is customized by the user, and the server pushes the health information to the patient according to the health information type condition customized by the user.

For example, the user may customize one or more health information by sending a wechat through the wechat public number, such as subscribing to a health information magazine, paying attention to a health information website platform, and the like. The user can also customize one or more health information by sending short messages or mails, and the server pushes related health information to the user in the modes of WeChat, short messages, mails and the like according to the user-defined subscription condition.

Therefore, in the embodiment of the application, the server pushes the health information to the client according to the stored binding relationship of the intelligent detection equipment, so that the user can conveniently know the health knowledge which is useful for the illness state and the health of the user, the health knowledge level of the user is improved, and professional health education is realized.

In actual life, due to unstable physical conditions of patients caused by diet, exercise and other different reasons, some chronic patients can also have emergent illness conditions, and in order to ensure that telemedicine can effectively deal with the emergency conditions, the embodiment of the application also provides an optional implementation method. Specifically, the implementation manner may be that, on the basis of the method shown in fig. 2, the following steps are added:

the server analyzes the measurement data according to an alarm rule corresponding to the intelligent detection equipment to judge whether the user sign state is in an alarm state; and if so, the server generates a task to be handled, wherein the task to be handled refers to a task needing to be handled by medical staff.

The server can set different alarm rules according to different disease types, and when the measurement data uploaded by the intelligent detection equipment exceeds the preset safety index parameters of human body signs, corresponding alarms are generated. The purpose of the design of each alarm rule is to judge that the physical state of the patient is in an alarm state according to a preset corresponding alarm rule by the first service when the measurement data uploaded by the intelligent detection device is abnormal, and generate a task to be handled according to the alarm state, so that medical staff can know the physical state of the patient in time according to the task to be handled and provide targeted medical services for the patient.

For example, the fasting blood glucose measured by the blood glucose meter is 7.1 mm/l, the blood glucose meter uploads the measurement data to the server, the server stores the measurement data and matches the measurement data with a preset alarm rule, if the alarm rule corresponding to the blood glucose meter is that the fasting blood lipid threshold value exceeds the range of 3.9-6.7 mm/l, and after matching, the blood glucose value of the diabetic patient a is found to meet the alarm rule, the body of the diabetic patient a is indicated to be in an alarm state, the server generates a task to be handled, and medical staff are reminded to give certain medical help to the diabetic patient a in time through the task to be handled.

After the server generates the task to be handled, the server can communicate with the medical staff client to timely push the task to be handled to the medical staff, so that the medical staff can give medical help to the patient at the first time. The healthcare worker client may be a browser or software such as an application. For example, the server can communicate with the medical staff client, and can remind medical staff of processing tasks to be handled in time in a voice reminding mode, a short message reminding mode, a WeChat reminding mode and the like; the server may also remind medical personnel to handle the task to be handled in the form of a pop-up box.

After receiving the task to be done, the medical staff communicates with the server through the client side, and looks up the measurement data of the service object and the past service record through the server so as to comprehensively know the health condition of the patient, so that remote guidance can be purposefully performed, for example, personalized health management services such as medication, exercise, diet and the like are provided for the patient.

In addition, the server can also provide services for recording service contents for medical care personnel, after the medical care personnel finish the tasks to be handled, the server can record communication information between the medical care personnel and the patients and service information such as medical treatment opinions of the medical care personnel, and the like, and the server can store and manage the service information of the patients according to the time sequence, so that the continuity and pertinence of the medical services provided for the patients are guaranteed.

In practical application, the server can also provide reservation service, medical personnel can reserve the time for processing the tasks to be handled through the reservation service, the server records the reserved event, and when the reserved time is up, the medical personnel is reminded to process the appointed tasks to be handled.

For example, the medical staff receives the task to be handled 1 pushed by the server at eight am, but at this time, an emergency task needs to be processed, the medical staff can reserve 10 points to process the task to be handled 1 through the server, after the reservation is successful, the medical staff can close the task to be handled, and when 10 points are reached, the server can inform the medical staff to process the task to be handled 1.

In the embodiment of the application, the server can timely find whether the body of the patient is in the alarm state according to the preset alarm rule and the measurement data of the user, generate the task to be handled when the body of the patient is found to be in the alarm state, and enable the medical staff to timely provide certain medical service for the patient by distributing the task to be handled to the medical staff, so that the probability of delay or deterioration of the state of the patient is reduced.

In actual life, when a chronic patient goes to a hospital for medical treatment, a large amount of personal health information such as past medical history, medication history and allergy history needs to be provided for a doctor, the doctor needs to give more accurate medical service to the patient according to the information, but most of the time, the patient cannot provide more comprehensive health information, for example, the patient has a long illness time and hardly accurately memorizes historical treatment information, and the current examination report is paper, is easy to lose and damage, so that the patient cannot provide more comprehensive health information, the doctor cannot comprehensively and accurately know the historical treatment condition of the patient, inconvenience is brought to the doctor for providing the medical service, and sometimes, the doctor needs to perform some examinations on the patient for more accurate treatment, and further provides the medical service according to the examination result. Based on the above problem, the embodiment of the present application further provides a corresponding solution, and the method may further include the following steps on the basis of the method shown in fig. 2:

In the embodiment of the present application, the health record may include personal basic information of the patient, disease history, medication history, height and weight, physical examination report, medical treatment case, and the like, which are related to the health of the patient. The server may establish a corresponding health profile for each patient so that medical personnel may view the personal health status of the patient through the server.

In practical application, the server can automatically update the measurement data of the patient to the health record database, or the server can automatically update the medical staff to the health record database according to the medical service condition of the patient, so that the timeliness of the health record of the user is guaranteed, and effective data support is provided for subsequent medical services.

In this application embodiment, the server establishes healthy archives database for the patient, maintain patient's healthy archives, based on this, the patient need not to carry a large amount of medical data to go the hospital and see a doctor, also need not to worry which data that neglects and influence and see a doctor, medical personnel can the server inquiry patient's healthy archives know patient's particular case, in addition, medical personnel also can in time update patient's healthy archives through the server, so that follow-up provide better service for the patient, promote work efficiency.

In actual life, generally, when a patient is transferred to a hospital for treatment, a doctor must be provided with a brain washing solution such as a previous case and basic health information of the patient, and sometimes the patient cannot provide comprehensive health information or some examination reports made before the patient goes to the hospital without approval, so that the patient needs to perform physical examination again, which not only brings a burden on the cost of the patient, but also may cause delay of the patient's condition and cause danger. In order to enable a doctor to quickly know the health state of a patient and give medical services in time, the method provided by the embodiment of the application can further comprise the following steps:

the server sends the user health profile to another server.

Wherein, another server can be the server of a certain hospital, and when the patient need transfer, the server can send the relevant health record of this patient to the server of the hospital that will seek medical advice to the medical personnel of this hospital can in time obtain patient's information through another server, provide more effective medical service for the patient.

Corresponding to the above method, an embodiment of the present application further provides a data processing apparatus, referring to fig. 3, where fig. 3 is a structural diagram of the data processing apparatus according to the embodiment of the present application, and the apparatus 300 includes:

a measurement data receiving module 301, configured to receive measurement data obtained by measuring a user sign through an intelligent detection device, where the measurement data includes a device identifier of the intelligent detection device, a user identifier of a user to be detected, and user sign data;

a measurement report generation module 302, configured to search a service rule corresponding to the intelligent detection device according to the device identifier, generate a measurement report according to the service rule and the user sign data, and perform data binding and storage on the user identifier and the measurement report; the business rules are generated in advance according to the safety index parameters of the human body physical signs.

Optionally, the apparatus may further include:

and the first pushing module is used for pushing the measurement report to a client side having a binding relationship with the intelligent detection equipment.

Optionally, the apparatus may further include:

and the second pushing module is used for pushing health information to the client side having the binding relation with the intelligent detection equipment.

Optionally, the apparatus may further include:

the judging module is used for analyzing the measurement data according to an alarm rule corresponding to the intelligent detection equipment to judge whether the user sign state is in an alarm state;

and the generating module is used for generating the tasks to be handled.

Optionally, the apparatus may further include:

the system comprises a storage module and a processing module, wherein the storage module is used for storing a user health record, and the user health record is used for recording the record of the behaviors and events related to the health of a patient.

Optionally, the apparatus may further include:

and the sending module is used for sending the user health file to another server.

It should be noted that, for specific implementation of each functional module of the apparatus shown in fig. 3, reference may be made to implementation of the foregoing method embodiment, and details are not described here again.

In addition, an embodiment of the present application further provides a server, referring to fig. 4, where fig. 4 is a hardware structure diagram of the server according to the embodiment of the present application, and the server 400 includes:

a processor 401, a memory 402, a network interface 403 and a bus system 404.

The bus system 404 for coupling the various hardware components of the server together;

the network interface 403 is configured to implement a communication connection between the server and at least one other device;

the memory 402 for storing program instructions;

the processor 401 is configured to read the instructions stored in the memory, and perform the following operations:

receiving measurement data representing user physical sign indexes measured by intelligent detection equipment; searching a service rule corresponding to the intelligent detection equipment, and generating a measurement report according to the service rule and the measurement data; the business rules are generated in advance according to the safety index parameters of the human body physical signs.

In addition, the processor 401 may also be configured to execute other steps in the method embodiment shown in fig. 2, which is not described herein again.

Corresponding to the above method, the embodiment of the present application further provides a method for intelligently detecting a device side, and the method is explained below with reference to fig. 5.

Referring to fig. 5, another data processing method provided in the embodiment of the present application is shown, which may include the following steps:

s501, the intelligent detection equipment determines the user identification of the detected user according to the identity confirmation operation triggered by the detected user;

s502, generating measurement data according to the user sign data obtained through measurement, and sending the measurement data to a server, wherein the measurement data comprises the equipment identifier of the intelligent detection equipment, the user identifier of the user to be measured and the user sign data, so that the server generates and stores a measurement report of the user to be measured according to the measurement data.

Optionally, a plurality of identity confirmation controls may be configured in the intelligent detection device; the intelligent detection equipment receives and stores binding relations between user identifications of a plurality of pre-configured detected users and the identity confirmation control;

the method further comprises:

and determining the user identification of the tested user according to the touched identity confirmation control and the binding relation.

The plurality of identity confirmation controls may be hardware controls or software controls.

For a user, the binding relationship between the user identifier and the control can be preconfigured through the intelligent detection device, and then in practical application, the user identifier is confirmed in a manner of touching the identity confirmation control, so that measurement of user sign data is realized.

For example, the smart detection device is provided with 3 identity confirmation controls, user a, user B and user C can share the smart detection device, the three users can preset, through the intelligent detection device, that the first identity confirmation control has a binding relationship with the user identity a of the user a, the second identity confirmation control has a binding relationship with the user identity B of the user B, the third identity confirmation control has a binding relationship with the user identity C of the user C, user a, when using the smart detection device, determines the user identification by triggering the first identity confirmation control, which, similarly, when the user B uses the intelligent detection equipment, the user identification is determined by triggering the second identity confirmation control, and when the user C uses the intelligent detection equipment, the user identification is determined by triggering the third identity confirmation control. That is, a plurality of users can share one intelligent detection device, and the user identifications of different users are identified through different identity confirmation controls.

By using the method, when the user uses the intelligent detection equipment, the user identification of the user is firstly input through the input interface, for example, the user inputs the information of the user such as the identification number and the like which can uniquely identify the user.

Optionally, the method further includes:

By using the method, the intelligent detection equipment can send the measurement data to other clients according to the pre-stored binding relationship. Based on the method, the tested user or the family members can receive the measurement data of the tested user by setting the binding relationship and loading the client through the personal terminal, so that the physical condition of the user can be known remotely and timely.

In correspondence with the above method, an embodiment of the present application further provides another data processing apparatus, and referring to fig. 6, the apparatus 600 includes:

the determining module 601 is configured to determine a user identifier of the user to be tested according to an identity confirmation operation triggered by the user to be tested;

a sending module 602, configured to generate measurement data according to the user sign data obtained through measurement, and send the measurement data to a server, where the measurement data includes a device identifier of the intelligent detection device, a user identifier of a user to be measured, and the user sign data, so that the server generates and stores a measurement report of the user to be measured according to the measurement data.

Corresponding to the above method, an embodiment of the present application further provides an intelligent detection device, and referring to fig. 7, the device 700 includes:

a processor 701, a memory 702, a network interface 703 and a bus system 704.

The bus system 704 is used for coupling the hardware components of the intelligent detection device together;

the network interface 703 is configured to implement communication connection between the intelligent detection device and at least one other device;

the memory 702 for storing program instructions;

the processor 701 is configured to read an instruction stored in the memory, and perform the following operations:

By utilizing the intelligent detection equipment provided by the embodiment of the application, a plurality of users can realize the detection of physical sign data in a mode of sharing one equipment, and can automatically generate the measurement report through the communication between the intelligent detection equipment and the server, so that valuable data can be provided for medical staff based on the automatically generated measurement report, even if a chronic patient does not go to a hospital, the chronic patient can timely obtain good prevention and control service provided by the medical staff, the medical resources are effectively saved, and the disease prevention and control quality is improved.

In addition, an embodiment of the present application further provides a data processing system, and referring to fig. 8, the system 800 includes: the smart detection device 700 shown in fig. 7 and the server 400 shown in fig. 4. For the implementation of the intelligent detection device, reference may be made to the description of the method embodiment shown in fig. 5 above, and details are not repeated here. For the implementation of the server, reference may be made to the description of the method embodiment shown in fig. 2 above, and details are not described here.

In the system provided in the embodiment of the present application, the server may simultaneously communicate with a plurality of intelligent detection devices to provide measurement report generation and management services for a plurality of users, or the server may communicate with only one intelligent detection device to provide measurement report generation and management services for a plurality of users.

It should be noted that, in the present specification, the embodiments are all described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments may be referred to each other. For the device-like embodiment, since it is basically similar to the method embodiment, the description is simple, and for the relevant points, reference may be made to the partial description of the method embodiment.

Finally, it should also be noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The data processing method, device and system provided by the present application are introduced in detail above, and a specific example is applied in the present application to explain the principle and the implementation of the present application, and the description of the above embodiment is only used to help understand the method and the core idea of the present application; meanwhile, for a person skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims

1. A method of data processing, the method comprising:

2. The method of claim 1, wherein the server receives measurement data of at least two different users under test measured by the smart detection device.

3. The method of claim 1, further comprising:

the server pushes the measurement report to a client side having a binding relation with the intelligent detection equipment; and/or the presence of a gas in the gas,

4. A data processing apparatus, comprising:

the system comprises a measurement data receiving module, a data processing module and a data processing module, wherein the measurement data receiving module is used for receiving measurement data obtained by measuring user signs through intelligent detection equipment, and the measurement data comprises an equipment identifier of the intelligent detection equipment, a user identifier of a user to be detected and user sign data;

the measurement report generation module is used for searching a service rule corresponding to the intelligent detection equipment according to the equipment identifier, generating a measurement report according to the service rule and the user sign data, and carrying out data binding and storage on the user identifier and the measurement report; the business rules are generated in advance according to the safety index parameters of the human body physical signs.

5. A server, characterized in that the server comprises:

a processor, a memory, a network interface, and a bus system.

the memory to store program instructions;

6. A method of data processing, the method comprising:

7. The method according to claim 6, wherein a plurality of identity confirmation controls are configured in the smart detection device; the intelligent detection equipment receives and stores the pre-configured configuration relationship between the user identification and the identity confirmation control of a plurality of detected users;

the method further comprises:

8. A data processing apparatus, comprising:

9. An intelligent detection device, comprising:

a processor, a memory, a network interface, and a bus system.

the memory to store program instructions;

10. A data processing system, comprising:

the smart detection device of claim 9 and the server of claim 5, said smart detection device interacting with said server.