CN111081335A - Method and system for storing family health electronic medical record - Google Patents

Abstract

According to the method and the system for storing the family health electronic medical record, the health data of family members is transmitted to the cloud server through the 5G client; the medical end records the inquiry data of family members and transmits the inquiry data to the cloud server; the cloud server receives the health data and the inquiry data, generates and stores corresponding electronic medical records according to the health data and the inquiry data, is convenient to look up and use, and is communicated with medical inquiry data, so that the inquiry efficiency is improved, and the safety is high.

Description

Method and system for storing family health electronic medical record

Technical Field

The invention relates to the technical field of computers, in particular to a method and a system for storing family health electronic medical records.

Background

Electronic medical records are often supported by a hospital system, patients cannot independently check the medical records, and family members cannot know the health condition of the patients in detail and accurately. Especially the treatment of chronic diseases, the growth data of children, etc. Resident's electronic health archives are different with hospital's electronic medical record, and current hospital's electronic medical record information is not commonalized, and data do not have unified storage, lead to patient and doctor's exchange process, the condition of using medicine, health status, historical disease do not have unified storage, and the very big waste of social resource has been caused to this kind of condition. Many diseases are hidden in the previous diseases of the patient, the electronic medical record becomes an important information source for the doctor to judge the disease condition of the patient, but once the patient changes the hospital, the information cannot follow the patient to a new hospital, the patient often needs to dictate the doctor by himself or check again, the patient does not have clear understanding and accurate description of the historical disease condition on medical knowledge, so that the information is low in efficiency and error is easy to occur, the auxiliary diagnosis use is not large, wrong guidance is possibly given to the doctor, the inquiry efficiency is low, if the new check is carried out, the great waste of social resources is brought to the eyes, and the medical burden of the patient is also added.

Considering that the data acquisition mode of the intelligent equipment in the current market is troublesome, and the used mode is single and fixed. There are no other functions than collecting data, resulting in a very large waste of resources. Therefore, an end-to-end design and a rehabilitation application expansion port are provided for the design, so that various data required by the electronic medical record can be quickly generated only by wearing terminal equipment by a patient, and the medical record can be quickly received and transmitted from a client to a medical end by matching with a 5G communication module. The expansion port of the rehabilitation application can be externally connected with some rehabilitation devices and updating devices.

Disclosure of Invention

Technical problem to be solved

In order to solve the above problems in the prior art, the invention provides a method and a system for storing a family health electronic medical record, which are convenient to look up and use, and are communicated with medical inquiry data, so that the inquiry efficiency is improved, and the safety is high.

(II) technical scheme

In order to achieve the purpose, the invention adopts a technical scheme that:

a method for storing family health electronic medical records comprises the following steps:

the S1 and 5G client side transmits the family member health data to the cloud server;

s2, recording the inquiry data of family members by the medical end, and transmitting the inquiry data to the cloud server;

and S3, the cloud server receives the health data and the inquiry data, and generates and stores corresponding electronic medical records according to the health data and the inquiry data.

In order to achieve the purpose, the invention adopts another technical scheme as follows:

a family health electronic medical record storage system comprises a 5G client, a cloud server and a medical treatment end, wherein the 5G client comprises a first memory, a first processor and a first computer program which is stored on the first memory and can run on the first processor, the cloud server comprises a second memory, a second processor and a second computer program which is stored on the second memory and can run on the second processor, the medical treatment end comprises a third memory, a third processor and a third computer program which is stored on the third memory and can run on the third processor, and the first processor realizes the following steps when executing the first computer program:

s1, transmitting the family member health data to the cloud server;

the third processor, when executing the third computer program, performs the steps of:

s2, recording the inquiry data of family members and transmitting the inquiry data to the cloud server;

the second processor, when executing the second computer program, implements the steps of:

and S3, receiving the health data and the inquiry data, and generating and storing corresponding electronic medical records according to the health data and the inquiry data.

(III) advantageous effects

The invention has the beneficial effects that: transmitting the family member health data to a cloud server through a 5G client; the medical end records the inquiry data of family members and transmits the inquiry data to the cloud server; the cloud server receives the health data and the inquiry data, generates and stores corresponding electronic medical records according to the health data and the inquiry data, is convenient to look up and use, and is communicated with medical inquiry data, so that the inquiry efficiency is improved, and the safety is high.

Drawings

FIG. 1 is a flowchart of a method for storing family health electronic medical records according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a system for storing family health electronic medical records according to an embodiment of the present invention;

FIG. 3 is a system of a family health electronic medical record client/medical end according to an embodiment of the present invention;

FIG. 4 is a health intelligent detection terminal of the family health electronic medical record according to the embodiment of the present invention;

fig. 5 is a circuit diagram of a gravity sensor of the intelligent detection terminal according to the embodiment of the invention;

FIG. 6 is a circuit diagram of the analog/digital conversion of the intelligent detection terminal according to the embodiment of the present invention;

[ description of reference ]

1: a system for storing family health electronic medical records; 2: 5G client side; 3: a cloud server; 4: a medical treatment end; 5: a first memory; 6: a first processor; 7: a second memory; 8: a second processor; 9: a third memory; 10: a third processor.

Detailed Description

For the purpose of better explaining the present invention and to facilitate understanding, the present invention will be described in detail by way of specific embodiments with reference to the accompanying drawings.

Example one

Referring to fig. 1, a method for storing a family health electronic medical record includes the steps:

the S1 and 5G client side transmits the family member health data to the cloud server;

step S1 specifically includes:

the 5G client receives the family member health data recorded by the intelligent wearable device and transmits the family member health data to the cloud server.

S2, recording the inquiry data of family members by the medical end, and transmitting the inquiry data to the cloud server;

and S3, the cloud server receives the health data and the inquiry data, and generates and stores corresponding electronic medical records according to the health data and the inquiry data.

Step S3 specifically includes:

and the cloud server receives the health data and the inquiry data, generates a corresponding electronic medical record according to the health data and the inquiry data, and adopts distributed storage.

Further comprising the steps of:

and S4, the cloud server receives a preset instruction and shares the corresponding electronic medical record to the medical end.

Specifically, the health data comprises treatment process and detection data of the chronic disease family members, and the inquiry data comprises medication history data, operation history data and examination reports of the family members.

Example two

Referring to fig. 2, a system 1 for storing home health electronic medical records includes a 5G client 2, a cloud server 3 and a medical terminal 4, where the 5G client 2 includes a first memory 5, a first processor 6 and a first computer program stored on the first memory 5 and executable on the first processor 6, the cloud server 3 includes a second memory 7, a second processor 8 and a second computer program stored on the second memory 7 and executable on the second processor 8, the medical terminal 4 includes a third memory 9, a third processor 10 and a third computer program stored on the third memory 9 and executable on the third processor 10, and the first processor 6 implements the following steps when executing the first computer program:

s1, transmitting the family member health data to the cloud server 3;

the third processor 10, when executing the third computer program, realizes the following steps:

step S1 specifically includes:

and receiving family member health data recorded by the intelligent wearable device, and transmitting the family member health data to the cloud server 3.

S2, recording the inquiry data of family members and transmitting the inquiry data to the cloud server 3;

the second processor 8, when executing the second computer program, performs the following steps:

and S3, receiving the health data and the inquiry data, and generating and storing corresponding electronic medical records according to the health data and the inquiry data.

Step S3 specifically includes:

and receiving the health data and the inquiry data, generating a corresponding electronic medical record according to the health data and the inquiry data, and storing in a distributed mode.

Further comprising the steps of:

and S4, receiving a preset instruction, and sharing the corresponding electronic medical record to the medical end 4.

Specifically, the health data comprises treatment process and detection data of the chronic disease family members, and the inquiry data comprises medication history data, operation history data and examination reports of the family members.

EXAMPLE III

Referring to fig. 3, a system 1 of a family health electronic medical record client/medical end includes a WEB end 2, a mobile phone APP end 3 and an applet end 4. The system 1 of the client/medical end realizes the following steps when executing the program:

s1, transmitting the family member health data to a WEB end 2 of the cloud server;

when the cloud server WEB end 2 executes the third computer program, the following steps are implemented:

step S1 specifically includes:

and receiving the health data and the inquiry data, generating and storing a corresponding electronic medical record according to the health data and the inquiry data, and transmitting the electronic medical record to the cloud server WEB terminal 2.

S2, transmitting the family member health data to a mobile phone APP terminal 3 of the cloud server;

when the cloud server APP side 3 executes the third computer program, the following steps are implemented:

step S2 specifically includes:

and receiving the health data and the inquiry data, generating and storing corresponding electronic medical records according to the health data and the inquiry data, and transmitting the electronic medical records to the cloud server mobile phone APP terminal 3.

S3, transmitting the family member health data to the applet terminal 4 of the cloud server;

when the cloud servlet side 4 executes the third computer program, the following steps are implemented:

step S3 specifically includes:

and receiving the health data and the inquiry data, generating and storing corresponding electronic medical records according to the health data and the inquiry data, and transmitting the electronic medical records to the cloud server applet 4.

Example four

Fig. 4 shows the working principle of the intelligent health detection terminal. The system comprises an MCU module 1, a sensor module 2, a data analysis system module 3, a 5G communication module 4 and a rehabilitation expansion application module 5 which are connected and electrically connected in sequence; please refer to fig. 4, which is a schematic structural diagram of an intelligent health monitoring terminal for storing a family health electronic medical record, and is characterized by comprising an MCU module 1, a sensor module 2, a data analysis system module 3, a 5G communication module 4, and a rehabilitation expansion application module 5; the MCU module, the sensor module, the data analysis system module and the 5G communication module are connected in sequence.

This intelligent health detection terminal's theory of operation: the data of the physical conditions of the user are detected through the sensor module as required, the data are sent to the cloud server through the 5G communication module by the MCU controller, a complete medical record is formed after the data analysis system module processes the detected data result, the result is sent to the 5G communication module through the 5G network, the 5G communication module sends the received medical record to the cloud server, and finally the cloud server sends the result to the client and the medical end through the graph 3.

As can be seen from the above description, the terminal has the following beneficial effects: the MCU module 1, the sensor module 2, the data analysis system module 3 and the 5G communication module are beneficial to being free from the limitation of light cats and connecting wires, and can be conveniently stored in each corner of a family; therefore, health data can be collected and medical record reports can be generated at any time, and reliability, efficiency and safety of medical record storage are improved.

Further, the MCU adopts an MH-5000 module. The module supports an NSA/SA dual mode, is fully compatible with 2G/3G/4G/5G, provides various interfaces such as an external controller, a sensor, a memory, WiFi, Bluetooth, GNSS, Ethernet and the like, and is flexibly applied to various scenes. The reliability, the high efficiency and the safety of the information processing of the MCU module are further improved. The medical record transmission is facilitated, the medical record analysis is more convenient for a medical end, and the diagnosis efficiency is improved.

Furthermore, the sensor module mainly comprises a gravity sensor, a pulse heart rate sensor, an infrared temperature sensor, an air sensor and the like. Fig. 5 is a circuit diagram of the gravity sensor of the intelligent detection terminal. The sensor can sense the change of the acceleration force, the acceleration force is the force acted on an object in the acceleration process, for example, various movement changes such as shaking, falling, rising and falling can be converted into analog signals by the gravity sensor, and then the analog signals are subjected to analog-to-digital conversion and then data processing is carried out by the data analysis system. Fig. 6 is a circuit diagram of an analog/digital conversion module of the present intelligent detection terminal. The analog/digital conversion module uses a shunt, wherein R57 and R56 are sampling resistors, C21 and C22 are sampling capacitors, and the sampling resistors and the C21 and the C22 provide sampling voltage signals for a sampling channel, and the magnitude of the sampling voltage signals is determined by the resistance value of the shunt and the current flowing on the shunt. The current sampling channel adopts full differential input, V1P is a positive input end, V2P is a negative input end, the maximum differential peak voltage of the current sampling channel is less than 470mV, and the gain of the PGA of the current sampling channel can be selected by G1 and G0 of ADE 7755. When using shunt sampling, both G1 and G0 are tied high, the gain is selected to be 16, and the peak voltage across the shunt is ± 30 mV. The designed ammeter is in specification 5(30) A, the resistance value of the shunt is 350u omega, and when the current flowing through the shunt is the maximum current, the sampling voltage is 350u omega & TIMes; and 30A is 10.5mV and does not exceed the peak voltage half-full value.

From the description, the design also invents a rehabilitation application development model which is fast, can be externally connected with some simple rehabilitation instruments, can be used for performing temporary rehabilitation physiotherapy at home according to the medical record requirements of patients through data matching, and enables the method and the system for storing the home health electronic medical record to be more intelligent.

Specifically, the health data comprises treatment process and detection data of the chronic disease family members, and the inquiry data comprises medication history data, operation history data and examination reports of the family members.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent changes made by using the contents of the present specification and the drawings, or applied directly or indirectly to the related technical fields, are included in the scope of the present invention.

Claims (8)

1. A method for storing family health electronic medical records is characterized by comprising the following steps:

the S1 and 5G client side transmits the family member health data to the cloud server;

s2, recording the inquiry data of family members by the medical end, and transmitting the inquiry data to the cloud server;

and S3, the cloud server receives the health data and the inquiry data, and generates and stores corresponding electronic medical records according to the health data and the inquiry data.

2. The method for storing the family health electronic medical record as claimed in claim 1, wherein the step S1 is specifically as follows:

the 5G client receives the family member health data recorded by the intelligent wearable device and transmits the family member health data to the cloud server.

3. The method for storing the family health electronic medical record as claimed in claim 1, wherein the step S3 is specifically as follows:

and the cloud server receives the health data and the inquiry data, generates a corresponding electronic medical record according to the health data and the inquiry data, and adopts distributed storage.

4. The method for storing the family health electronic medical record according to claim 1, further comprising the steps of:

and S4, the cloud server receives a preset instruction and shares the corresponding electronic medical record to the medical end.

5. A family health electronic medical record storage system comprises a 5G client, a cloud server and a medical treatment end, wherein the 5G client comprises a first memory, a first processor and a first computer program which is stored on the first memory and can run on the first processor, the cloud server comprises a second memory, a second processor and a second computer program which is stored on the second memory and can run on the second processor, the medical treatment end comprises a third memory, a third processor and a third computer program which is stored on the third memory and can run on the third processor, and the following steps are realized when the first processor executes the first computer program:

s1, transmitting the family member health data to the cloud server;

the third processor, when executing the third computer program, performs the steps of:

s2, recording the inquiry data of family members and transmitting the inquiry data to the cloud server;

the second processor, when executing the second computer program, implements the steps of:

and S3, receiving the health data and the inquiry data, and generating and storing corresponding electronic medical records according to the health data and the inquiry data.

6. The system for storing the family health electronic medical record as claimed in claim 5, wherein the step S1 is specifically as follows:

and receiving family member health data recorded by the intelligent wearable device, and transmitting the family member health data to the cloud server.

7. The system for storing the family health electronic medical record as claimed in claim 5, wherein the step S3 is specifically as follows:

and receiving the health data and the inquiry data, generating a corresponding electronic medical record according to the health data and the inquiry data, and storing in a distributed mode.

8. The system for home health electronic medical record storage according to claim 5, wherein the second processor when executing the second computer program implements the steps of:

further comprising the steps of:

and S4, receiving a preset instruction, and sharing the corresponding electronic medical record to the medical end.

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