CN109659040B - Telemedicine computer information system - Google Patents
Telemedicine computer information system Download PDFInfo
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- CN109659040B CN109659040B CN201811627965.8A CN201811627965A CN109659040B CN 109659040 B CN109659040 B CN 109659040B CN 201811627965 A CN201811627965 A CN 201811627965A CN 109659040 B CN109659040 B CN 109659040B
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- G—PHYSICS
- G16—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
- G16H—HEALTHCARE INFORMATICS, i.e. INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR THE HANDLING OR PROCESSING OF MEDICAL OR HEALTHCARE DATA
- G16H80/00—ICT specially adapted for facilitating communication between medical practitioners or patients, e.g. for collaborative diagnosis, therapy or health monitoring
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- G—PHYSICS
- G16—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
- G16H—HEALTHCARE INFORMATICS, i.e. INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR THE HANDLING OR PROCESSING OF MEDICAL OR HEALTHCARE DATA
- G16H40/00—ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices
- G16H40/60—ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices for the operation of medical equipment or devices
- G16H40/67—ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices for the operation of medical equipment or devices for remote operation
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Abstract
The scheme discloses a telemedicine computer information system in the technical field of telemedicine, which comprises a doctor client, a patient client, a data processing server, a doctor information module, a real-time communication module, a physiological data acquisition module and a charge processing module; the doctor client, the patient client, the doctor information module, the cost processing module and the physiological data acquisition module are all in electric signal connection with a signal input port of the data processing server, the cost processing module, the doctor client and the patient client are all in electric signal connection with a signal output port of the data processing server, and the signal input port of the doctor information module is in electric signal connection with the doctor client. The system provides information of different doctors for users to select, realizes remote medical service through the Internet well, and avoids the problem that people need to queue when treating diseases due to insufficient medical resources.
Description
Technical Field
The invention belongs to the technical field of telemedicine, and particularly relates to a telemedicine computer information system.
Background
With the improvement of living standard of people, the medical level is continuously improved, so that remote medical treatment appears in succession, and the traditional medical treatment is limited in distance, so that the people are inconvenient to treat and know the disease condition in advance to prevent the disease condition in advance. However, the traditional treatment needs hospital detection or treatment, and is inconvenient to use for checking the body and knowing the state of an illness in advance, china gradually enters an aging society, and medical problems become one of the focuses of common attention of people.
Disclosure of Invention
The invention aims to provide a remote medical computer information system for performing network inquiry for the masses in the areas with insufficient medical resources.
In order to achieve the above object, the present invention provides the following solutions: a telemedicine computer information system comprises a doctor client, a patient client, a data processing server, a doctor information module, a real-time communication module, a physiological data acquisition module and a charge processing module;
the doctor client is used for operating an inquiry flow by a doctor;
the patient client is used for the patient to operate the inquiry flow and receiving the diagnosis information, the cost information and the treatment method input by the doctor client through the data processing server;
the doctor information module is used for acquiring the qualification information and the diagnosis fee information of doctors and sending the information to the patient client through the data processing server;
the real-time communication module is used for carrying out real-time video voice communication between a doctor and a patient;
the physiological data acquisition module is used for acquiring physiological data of a patient and transmitting the physiological data to the doctor client through the data processing server;
the charge processing module is used for the patient to pay the diagnosis charge and transferring the diagnosis charge to a doctor account;
the system comprises a doctor client, a patient client, a doctor information module, a cost processing module and a physiological data acquisition module, wherein the doctor client, the patient client, the doctor information module, the cost processing module and the physiological data acquisition module are all in electric signal connection with a signal input port of a data processing server, the cost processing module, the doctor client and the patient client are all in electric signal connection with a signal output port of the data processing server, the patient client, the doctor client are all in two-way communication with a real-time communication module, and the signal input port of the doctor information module is in electric signal connection with the doctor client.
The working principle of the scheme is as follows: when a patient needs to perform network remote inquiry, the patient client inputs the condition of the patient to be diagnosed, then the system recommends a doctor who is good at treating the condition of the patient according to the condition of the patient, the patient selects doctor inquiry according to introduction information of the doctor, after the patient determines the inquiry, the real-time communication module dials to communicate with the doctor client, the doctor and the doctor perform video voice communication, then the doctor requires the patient to acquire physiological data according to the inquiry condition (the patient can acquire the physiological data in advance by using the physiological data acquisition module and upload the physiological data to the data processing server, and after the patient communicates with the doctor, the data can be transmitted to the doctor client), the physiological data acquisition module transmits the physiological data of the patient to the doctor client, finally, the doctor makes a diagnosis book, a treatment method, a prescription and inquiry fee according to the inquiry condition and the physiological data of the patient, and after the patient pays the inquiry fee, the inquiry flow is ended.
The beneficial effect of this scheme does: the system provides information of different doctors for the user to select, the user can select a doctor in a proper direction according to the grade of the doctor and the state of illness of the patient, remote medical service is well realized through the Internet, and the problem that people need to queue when treating diseases due to insufficient medical resources is solved.
The medical device further comprises a printing module used for printing the diagnosis information, the treatment method, the prescription and the expense information into paper files for the patients to take. The aim is to facilitate the patient to reserve diagnosis information, expense information and treatment method and to facilitate the patient to carry out later treatment.
Further, the doctor information module is also used for collecting evaluation information of a doctor diagnosed by the patient. The aim is that the user can judge the treatment level and the service attitude of the doctor according to the evaluation information of the doctor.
Further, the physiological data acquisition module is a blood glucose and blood pressure meter, the blood glucose and blood pressure meter comprises a rectangular shell, a blood glucose analyzer and a servo pressurization air pump are arranged in the rectangular shell, the servo pressurization air pump is communicated with an air bag, a wrist clamping belt is arranged at the lower part of the rectangular shell and is communicated with the servo pressurization air pump, an electronic control exhaust valve is arranged between the wrist clamping belt and the servo pressurization air pump, an air pressure sensor and a blood pressure analysis processor are arranged in the wrist clamping belt, an opening is formed in the wrist clamping belt to form two end parts, magic tapes are arranged at two ends of the opening in the wrist clamping belt, a blood sampling pen is further arranged in the rectangular shell, a blood sampling end of the blood sampling pen penetrates through the rectangular shell and the wrist clamping belt, the other end of the blood sampling pen is connected with a connecting rod, the connecting rod is connected with a connecting plate, a spring is connected between the connecting plate and the inner wall of the rectangular shell, and the connecting plate is connected with the top of the air bag; the blood glucose analyzer and the blood pressure analysis processor are connected with a data interface, and the data interface is in electric signal connection with a patient client. The process of collecting the physiological data comprises the steps of clamping a wrist clamping belt on a wrist by a magic tape, opening a servo pressurization air pump, leading air in an air bag into the wrist clamping belt to increase air pressure inside the wrist clamping belt, transmitting a signal to the servo pressurization air pump by an air pressure sensor after the air pressure reaches the air pressure required by work, stopping supplying the pressure, and quickly arranging and transmitting blood pressure information to a client of a patient by a blood pressure analysis processor; meanwhile, because the gas in the air bag is reduced, the air bag can not continue to support the connecting plate, the blood sampling pen stretches out of the rectangular shell and the wrist clamping belt under the action of the spring to pierce the skin for blood sampling, after the blood sampling is finished, the electronic control exhaust valve and the servo pressurization air pump are opened to guide the gas in the wrist clamping belt back to the air bag, the air bag is inflated and expanded to support the connecting plate again, the spring is compressed, the blood sampling pen is also driven to be retracted into the rectangular shell, the blood glucose analyzer collects blood glucose information and transmits the blood glucose information to a client of a patient, and therefore the data collection work of the blood glucose and the blood pressure is finished.
Drawings
FIG. 1 is a signal transmission block diagram of a telemedicine computer information system of the present invention;
fig. 2 is a schematic structural diagram of a blood glucose and blood pressure meter in a remote medical computer information system according to the present invention.
Detailed Description
The following is further detailed by the specific embodiments:
reference numerals in the drawings of the specification include: the blood glucose monitoring device comprises a rectangular shell 1, a servo pressurizing air pump 2, an air bag 3, a connecting plate 4, a spring 5, a connecting rod 6, a blood sampling pen 7, a blood glucose analyzer 8, a wrist clamping belt 9 and a magic tape 10.
The embodiment is basically as shown in the attached figure 1: a telemedicine computer information system comprises a doctor client, a patient client, a data processing server, a doctor information module, a real-time communication module, a physiological data acquisition module, a printing module and a charge processing module, wherein the physiological data acquisition module is a blood glucose and blood pressure meter; the doctor client, the patient client, the doctor information module, the expense processing module and the blood glucose and blood pressure meter are all in electric signal connection at the signal input port of the data processing server, the expense processing module, the doctor client and the patient client are all in electric signal connection at the signal output port of the data processing server, the patient client and the doctor client are all in two-way communication with the real-time communication module, and the doctor client and the patient client are all in electric signal connection at the signal input port of the doctor information module.
As shown in fig. 2: the blood glucose sphygmomanometer comprises a rectangular shell 1, a blood glucose analyzer 8 and a servo pressurizing air pump 2 are arranged in the rectangular shell 1, the servo pressurizing air pump 2 is communicated with an air bag 3, a wrist clamping belt 9 is arranged at the lower part of the rectangular shell 1, the wrist clamping belt 9 is communicated with the servo pressurizing air pump 2, an electronic control exhaust valve is arranged between the wrist clamping belt 9 and the servo pressurizing air pump 2, an air pressure sensor and a blood pressure analysis processor are arranged in the wrist clamping belt 9, an opening is formed in the wrist clamping belt 9 to form two end parts, magic tapes 10 are arranged at two ends of the opening in the wrist clamping belt 9, a blood sampling pen 7 is further arranged in the rectangular shell 1, a blood sampling end of the blood sampling pen 7 penetrates through the rectangular shell 1 and the wrist clamping belt 9, a connecting rod 6 is connected to the other end of the blood sampling pen 7, the connecting rod 6 is connected with a connecting plate 4, a spring 5 is connected between the connecting plate 4 and the inner wall of the rectangular shell 1, and the connecting plate 4 is connected with the top of the air bag 3; the blood glucose analyzer 8 is connected with a data interface with the blood pressure analysis processor, and the data interface is in electric signal connection with the client of the patient.
In the embodiment of the invention, the doctor client and the patient client are computers or smart phones, client software is installed in the computers or the smart phones, and the client software only needs to be realized: 1. for registration and login; 2. for inputting and uploading data; 3. for browsing and selecting information; the functions can be realized through the existing programming language and method, and the method belongs to the conventional method in the field of computer software, such as common chat client software, QQ, weChat and other software. The scheme does not protect the computer program per se, and is not described in detail herein.
In the embodiment of the invention, the doctor information module is a database plug-in arranged in client software, and the database plug-in mainly realizes the storage and calling of the qualification information, the evaluation information and the diagnosis fee information of a doctor; and (4) designing a database plug-in. The establishment and the data calling can be realized by adopting the conventional method in the program language.
In the embodiment of the invention, the fee processing module is a data operation plug-in arranged in the client software, has functions of payment and cash withdrawal, can realize fee settlement according to the setting rule, and the realization of the method for realizing the fee settlement can be seen in various settlement software, which belongs to the public explanation of the field personnel and is not described in detail herein.
In the embodiment of the invention, the real-time communication module comprises a program interface in client software, and a sound pickup and a camera which are arranged on a computer or a smart phone, and can be realized by adopting the current common voice and video chat software technology such as QQ, weChat and the like, belonging to the prior art in the field, and the scheme does not improve the program per se; wherein, 4G, wiFi, internet and GPRS are adopted.
In the embodiment of the present invention, the data processing server is a cloud server (ECS), and is a simple, efficient, safe, reliable computing Service with elastically scalable processing capability. Each cluster node of the cloud server platform is deployed in a backbone data center of the Internet and can independently provide Internet infrastructure services such as computing, storage, online backup, hosting, bandwidth and the like. For example, cloud server platforms such as Tencent cloud, huazhiyun, aliyun, baidu cloud, and the like.
When a patient needs to conduct network remote inquiry, the patient client inputs the illness condition needing to be diagnosed, then the system recommends a doctor who is good at treating the illness condition according to the illness condition, the patient selects the doctor to conduct inquiry according to introduction information of the doctor, after the patient determines the doctor to conduct inquiry, the real-time communication module conducts dialing communication with the doctor client, video voice communication is conducted between the doctor client and the doctor client, then the doctor requires the patient to conduct physiological data acquisition according to the inquiry condition (the patient can use the physiological data acquisition module to acquire the physiological data in advance and upload the physiological data to the data processing server, and after the patient is communicated with the doctor, the data can be transmitted to the doctor client), the physiological data acquisition module transmits the physiological data of the patient to the doctor client, finally, the doctor makes a diagnosis book, a treatment method, a prescription and inquiry fee according to the inquiry condition of the inquiry, after the patient pays the inquiry fee, the printing module prints the diagnosis book, the treatment method and the prescription into a paper file for the patient to take, and the inquiry flow is ended.
Claims (3)
1. A telemedicine computer information system, characterized by: the system comprises a doctor client, a patient client, a data processing server, a doctor information module, a real-time communication module, a physiological data acquisition module and a cost processing module;
the doctor client is used for operating an inquiry flow by a doctor;
the patient client is used for the patient to operate the inquiry flow and receiving the diagnosis information, the cost information and the treatment method input by the doctor client through the data processing server;
the doctor information module is used for acquiring the qualification information and the diagnosis fee information of doctors and sending the information to the patient client through the data processing server;
the real-time communication module is used for carrying out real-time video voice communication between a doctor and a patient;
the physiological data acquisition module is used for acquiring physiological data of a patient and transmitting the physiological data to a doctor client through a data processing server, and specifically, the physiological data acquisition module is a blood glucose sphygmomanometer, the blood glucose sphygmomanometer comprises a rectangular shell, a blood glucose analyzer and a servo pressurization air pump are arranged in the rectangular shell, the servo pressurization air pump is communicated with an air bag, a wrist clamping belt is arranged at the lower part of the rectangular shell and is communicated with the servo pressurization air pump, an electronic control exhaust valve is arranged between the wrist clamping belt and the servo pressurization air pump, an air pressure sensor and a blood pressure analysis processor are arranged in the wrist clamping belt, an opening is formed in the wrist clamping belt to form two end parts, magic tapes are arranged at two ends of the opening in the wrist clamping belt, a blood sampling pen is further arranged in the rectangular shell, a blood sampling end of the blood sampling pen penetrates through the rectangular shell and the wrist clamping belt, the other end of the blood sampling pen is connected with a connecting rod, the connecting rod is connected with a connecting plate, a spring is connected between the connecting plate and the inner wall of the rectangular shell, and the connecting plate is connected with the top of the air bag; the blood glucose analyzer is connected with the blood pressure analysis processor through a data interface, and the data interface is in electric signal connection with a patient client;
the charge processing module is used for the patient to pay the diagnosis charge and transferring the diagnosis charge to a doctor account;
the system comprises a doctor client, a patient client, a doctor information module, a cost processing module and a physiological data acquisition module, wherein the doctor client, the patient client, the doctor information module, the cost processing module and the physiological data acquisition module are all in electric signal connection with a signal input port of a data processing server, the cost processing module, the doctor client and the patient client are all in electric signal connection with a signal output port of the data processing server, the patient client, the doctor client are all in two-way communication with a real-time communication module, and the signal input port of the doctor information module is in electric signal connection with the doctor client.
2. The telemedicine computer information system of claim 1, wherein: the medical treatment system also comprises a printing module which is used for printing the diagnosis information, the expense information and the treatment method into paper files for the patients to take.
3. The telemedicine computer information system of claim 2, wherein: the doctor information module is also used for collecting the evaluation information of the doctor diagnosed by the patient.
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CN112057085A (en) * | 2020-09-17 | 2020-12-11 | 南通市第一老年病医院 | Information-based blood glucose monitoring system |
CN113555104A (en) * | 2021-07-19 | 2021-10-26 | 中国地质大学(武汉) | System for daily monitoring physiological data by using monitor |
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