CN111223544A - Remote real-time endoscope safety consultation system - Google Patents

Abstract

The application provides a remote real-time endoscope safety consultation system, which comprises an application end, endoscope equipment, a cloud server and an expert end, wherein the endoscope equipment is used for acquiring inspection image data in a patient body; the application terminal is used for initiating a remote consultation request to the expert terminal through the cloud server; the cloud server is used for sending the inspection image data to the expert terminal; the cloud server is used for sending a remote consultation request to the expert terminal; sending the inspection image data to an expert terminal; the expert end is used for receiving a remote consultation request sent by the cloud server; and receiving the inspection image data sent by the cloud server, and issuing a consultation report according to the remote consultation request and the inspection image data. The endoscope diagnosis level image data transmission method and the endoscope diagnosis level image data transmission system realize reliable and real-time transmission of endoscope diagnosis level image data, on-site real-time audio and video data and diagnosis reports, achieve the purpose of quickly diagnosing patients, and solve the problem of difficulty in seeing a doctor due to lack of medical resources in marginal areas.

Description

Remote real-time endoscope safety consultation system

Technical Field

The application relates to the technical field of medical treatment, in particular to a remote real-time endoscope safety consultation system.

Background

Due to unbalanced distribution of medical resources, most urban and rural residents, especially critical patients in remote areas, face the difficulties of resource shortage, poor medical level and medical treatment difficulty of primary medical institutions, such as the simplicity and crudely of inspection equipment and medical equipment, and the technical shortage of related professionals. For treatment, the patient has to go to a higher-level hospital for consultation, resulting in a prolonged waiting time for treatment, an increased treatment cost, and some patients may delay diagnosis and treatment, thereby aggravating the problem of difficulty in seeing. Therefore, there is a need for a telemedicine technology to reduce the waiting time and treatment cost.

Disclosure of Invention

The application provides a remote real-time endoscope safety consultation system to solve the problems.

The utility model provides a long-range real-time scope safety consultation system, the system includes application end, scope equipment, cloud server and expert's end, wherein:

the endoscope equipment is used for acquiring examination image data in the body of a patient;

the application terminal is used for receiving the inspection image data acquired by the endoscope equipment and initiating a remote consultation request to the expert terminal through the cloud server; and is used for sending the inspection image data to the expert end through the cloud server after the expert end accepts the remote consultation request;

the cloud server is used for receiving the remote consultation request initiated by the application end and sending the remote consultation request to the expert end; after the expert receives the remote consultation request, receiving inspection image data sent by the application end, and sending the inspection image data to the expert end;

the expert end is used for receiving the remote consultation request sent by the cloud server; after the remote consultation request is received, the examination image data sent by the cloud server is received, a consultation report is issued according to the remote consultation request and the examination image data, and the consultation report is sent to the application terminal through the cloud server so that the application terminal can treat the patient.

Furthermore, the system also comprises a data acquisition device, wherein the data acquisition device is used for receiving the inspection image data acquired by the endoscope device and forwarding the inspection image data to the application terminal.

Further, the system further comprises an application end display device, wherein the application end display device is used for displaying the inspection image data and displaying the consultation report; wherein the inspection image data comprises video.

Further, the system further comprises an expert-side display device, wherein the expert-side display device is used for displaying the inspection image data; wherein the inspection image data comprises video.

Furthermore, the system also comprises a first audio and video conference device and a second audio and video conference device, wherein the first audio and video conference device is used for acquiring a first audio and video image of a treatment site where a patient is located, and sending the first audio and video image to the expert end through the cloud server for the expert end to refer to so as to issue the diagnosis report;

the second audio and video conference device is used for collecting a second audio and video image of a remote medical site where the expert terminal is located, sending the second audio and video image to the application terminal through the cloud server, guiding the application terminal to treat the patient and guiding the application terminal to treat the patient.

Further, the application terminal is configured to perform dynamic encryption and compression on at least one of the first audio/video image and the inspection image data to obtain a first transmission data packet, and send the first transmission data packet to the expert terminal through the cloud server;

the expert end is used for receiving the first transmission data packet, decrypting and decompressing the first transmission data packet to obtain at least one of the first audio/video image and the inspection image data;

the expert terminal is used for carrying out dynamic encryption and compression on the second audio and video image to obtain a second transmission data packet, and the second transmission data packet is sent to the application terminal through the cloud server;

the application end is used for receiving the second transmission data packet, decrypting and decompressing the second transmission data packet to obtain a second audio/video image;

or the cloud server is used for dynamically encrypting and compressing at least one of the first audio/video image and the inspection image data to obtain a first transmission data packet, and sending the first transmission data packet to the expert terminal;

the expert end is used for receiving the first transmission data packet, decrypting and decompressing the first transmission data packet to obtain at least one of the first audio/video image and the inspection image data;

the cloud server is used for carrying out dynamic encryption and compression on the second audio and video image to obtain a second transmission data packet, and sending the second transmission data packet to the application end;

the application end is used for receiving the second transmission data packet, decrypting and decompressing the second transmission data packet to obtain the second audio and video image.

Further, the expert end is used for transmitting the working parameters required by the endoscope equipment to the application end through the cloud server so as to adjust the parameters of the endoscope equipment.

Further, the application end is used for receiving the patient medical record data or automatically acquiring the patient medical record data from a third-party system.

Further, the application terminal is used for performing one or more of brightness adjustment, contrast adjustment, gray scale transformation, Gamma correction, image smoothing and image sharpening on the inspection image data.

Further, the system further comprises: the system comprises a platform basic information management module, a platform service configuration management module, a consultation data statistics management module and a background database management module; wherein,

the platform basic information management module is used for user information maintenance and user authority management;

the platform service configuration management module is used for single consultation, multi-person consultation configuration, consultation scheduling management and site configuration management;

the consultation data counting module is used for counting the consultation application amount, the consultation throughput amount, the consultation report amount, the consultation issuance amount and the output counting data of the user in a specified time range;

the case data modeling management module is used for case data modeling, case template configuration and management and data meta-model management.

Compared with the prior art, the method has the following advantages:

the application terminal transmits the inspection image data and the audio and video data to the expert terminal through the cloud server based on a communication protocol, and remote real-time endoscope consultation is achieved. The cloud server or the application end of the remote real-time endoscope safety consultation system performs preset processing such as encryption and compression on diagnosis-level image data acquired by endoscope equipment; and the expert terminal decrypts and displays the processed real-time endoscope diagnosis-level image data and the field real-time audio/video data so as to perform remote real-time endoscope consultation. The system supports remote experts to guide real-time endoscope consultation of doctors at an application end, realizes reliable and real-time transmission of endoscope diagnosis-level image data, field real-time audio and video data and diagnosis reports, and achieves the purpose of quickly diagnosing patients so as to relieve the problem of difficulty in seeing a doctor caused by lack of medical resources in marginal areas.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings needed to be used in the description of the embodiments of the present application will be 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 exercise.

FIG. 1 is a block diagram illustrating a remote real-time endoscope safety consultation system according to the present application;

fig. 2 is a block diagram illustrating another remote real-time endoscope safety consultation system according to the present application.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present application more comprehensible, the present application is described in further detail with reference to the accompanying drawings and the detailed description.

Because medical resources are unevenly distributed, most urban and rural residents, especially critical patients in remote areas, face the difficulties of resource shortage, backward medical level and difficulty in hospitalizing of primary medical institutions.

For example, in the field of endoscopic diagnosis, a skilled technician is required to place an endoscope into a patient to observe real-time image data and diagnose a condition of the patient. However, medical professionals in remote areas may not have sufficient skill to diagnose the condition of some patients with complex conditions. In this case, the patient can only go to the upper hospital for diagnosis, but the time and cost spent therein are high.

In order to solve the above problems, the application provides a remote real-time endoscope safety consultation system, data collected by endoscope equipment on the site of a patient are transmitted to a cloud server, an expert acquires the data collected by the endoscope equipment from the cloud server, and the condition of the patient is diagnosed according to the data collected by the endoscope equipment, so that the problem that the patient in a remote area with deficient medical resources delays treatment time due to spent time is solved, and meanwhile, medical cost can be reduced for the patient; meanwhile, the method can share the static endoscope image in real time and the dynamic endoscope video in real time so as to improve the real-time performance of diagnosis and deal with the occurrence of some critical conditions.

The application provides a long-range real-time scope safety consultation system, as shown in fig. 1, the system includes application end, scope equipment, cloud server and expert's end.

The application terminal is positioned at the site of diagnosing a patient (called a first site), the endoscope device is positioned at the site of diagnosing the patient, and images or videos in the body of the patient are acquired through the endoscope device.

The application terminal transmits the inspection image data acquired by the endoscope equipment to the cloud server.

The expert side is at the expert side providing the diagnosis opinions (called the second scene); and the expert terminal acquires the inspection image data from the cloud server and provides diagnosis opinions according to the inspection image data.

The application side and the expert side are not limited to the BS/CS client.

The application end and the expert end are communicated with the cloud server, and when communication is established, if the application end, the expert end and the cloud server complete communication establishment, the cloud server can give confirmation information to the expert end and the application end so as to inform the expert end and the application end that connection is successful.

The application end can also perform real-time audio and video communication, character communication, drawing board communication, screen sharing, file sharing, remote operation and the like to the expert end through the cloud server.

Specifically, the endoscope device is used for acquiring examination image data in a patient; the endoscope equipment enters the human body through a natural pore canal of the human body or a small incision made by operation and consists of a bendable part, a light source and a group of lenses. When in use, the endoscope is introduced into the organ to be examined, and the change of the relevant part can be directly observed.

The system further comprises data acquisition equipment, wherein the data acquisition equipment is used for receiving the inspection image data acquired by the endoscope equipment and forwarding the inspection image data to the application terminal. The application terminal is used for receiving the inspection image data acquired by the endoscope equipment and initiating a remote consultation request to the expert terminal through the cloud server; and is used for sending the inspection image data to the expert end through the cloud server after the expert end accepts the remote consultation request;

the application terminal receives inspection image data (which may be an image processed by the data acquisition device or inspection image data directly acquired by the endoscope device) acquired by the endoscope device. The application terminal can be a device integrating processing and displaying, and medical staff on the first site can perform preliminary diagnosis on the state of an illness of a patient through the examination image data received by the application terminal. When the medical staff at the first site considers that the patient's condition is more complicated and needs to ask for help from an expert doctor, a remote consultation request is generated through the application terminal. The remote consultation request may include basic information about the patient, a preliminary diagnosis of the patient after a diagnosis by medical personnel at the first site, past medical history of the patient, specific expert-side information, and the like.

The cloud server is used for receiving the remote consultation request initiated by the application end and sending the remote consultation request to the expert end; after the expert receives the remote consultation request, receiving inspection image data sent by the application end, and sending the inspection image data to the expert end;

the application end sends the remote consultation request to the cloud server after the remote consultation request is generated, the cloud server can broadcast the remote consultation request to each expert end, the experts of each expert end can judge the state of an illness of the patient according to the initial diagnosis of the remote consultation request, and if the state of the patient can be processed, the remote consultation request can be accepted, and further diagnosis is carried out on the patient.

After the application terminal generates the remote consultation request, the remote consultation request is sent to the cloud server, and the cloud server can also send the remote consultation request to a specified expert terminal according to the specified expert terminal information contained in the remote consultation request, so that the further diagnosis of the patient is realized.

After receiving the remote consultation request, the expert end can receive examination image data related to the remote consultation request, wherein the examination image data can be real-time data or historical data.

For example, when the application terminal sends a remote consultation request, the history inspection image data obtained in advance is sent to the cloud server to be stored, and the expert terminal can receive the history inspection image data from the cloud server.

After receiving the inspection image data, the expert end feeds back confirmation information to the application end so as to ensure the connection and the accuracy of the data.

In addition, the system also comprises a first audio and video conference device and a second audio and video conference device, wherein the first audio and video conference device is used for acquiring a first audio and video image of a treatment site where a patient is positioned, and sending the first audio and video image to the expert end through the cloud server for the expert end to refer to so as to issue the diagnosis report;

the second audio and video conference device is used for acquiring a second audio and video image of a remote medical site where the expert terminal is located, and sending the second audio and video image to the application terminal through the cloud server to guide the application terminal to treat the patient.

When the application end sends the remote consultation request, the remote consultation request may include a request of a conference call, and after the expert end receives the remote consultation request, the request is equivalent to receiving the conference call. The conference call is realized based on first audio and video conference equipment on a first site and second audio and video conference equipment on a second site, the first audio and video conference equipment can be directly communicated with the second audio and video conference equipment, and resources of a cloud server can be prevented from being occupied.

The first audio and video conference equipment and the second audio and video conference equipment can enable medical staff on a first site and experts on a second site to carry out audio and video calls, so that effective communication can be realized, the diagnosis rate of a patient can be improved, and on one hand, the diagnosis time of the patient can be reduced, so that the time of the patient can be saved; on the other hand, the resource occupation time of remote consultation can be reduced.

The application terminal is used for carrying out dynamic encryption and compression on at least one of the first audio and video image and the inspection image data to obtain a first transmission data packet, and the first transmission data packet is sent to the expert terminal through the cloud server;

the expert end is used for receiving the first transmission data packet, decrypting and decompressing the first transmission data packet to obtain at least one of the first audio/video image and the inspection image data;

the expert terminal is used for carrying out dynamic encryption and compression on the second audio and video image to obtain a second transmission data packet, and the second transmission data packet is sent to the application terminal through the cloud server;

the application end is used for receiving the second transmission data packet, decrypting and decompressing the second transmission data packet to obtain a second audio/video image;

or the cloud server is used for dynamically encrypting and compressing at least one of the first audio/video image and the inspection image data to obtain a first transmission data packet, and sending the first transmission data packet to the expert terminal;

the expert end is used for receiving the first transmission data packet, decrypting and decompressing the first transmission data packet to obtain at least one of the first audio/video image and the inspection image data;

the cloud server is used for carrying out dynamic encryption and compression on the second audio and video image to obtain a second transmission data packet, and sending the second transmission data packet to the application end;

the application end is used for receiving the second transmission data packet, decrypting and decompressing the second transmission data packet to obtain the second audio and video image.

The encryption operation in the present application includes, but is not limited to, encryption processing such as shift and exclusive or.

The method and the system can also package real-time endoscope diagnosis level inspection image data, field real-time audio and video data and field operation method video data, and transmit the packaged data through the cloud server.

The method and the system are based on the cloud server and the network environment to achieve remote consultation, the first audio and video image, the second audio and video image and the inspection image data are encrypted and transmitted in order to guarantee the transmitted data safety, meanwhile, the compression transmission can be conducted in order to improve the transmission speed, the inspection image data cannot be distorted in the diagnosis level, and therefore transmission is conducted after distortion-free compression is needed.

The expert end is used for receiving the remote consultation request sent by the cloud server; after the remote consultation request is received, the examination image data sent by the cloud server is received, a consultation report is issued according to the remote consultation request and the examination image data, and the consultation report is sent to the application terminal through the cloud server so that the application terminal can treat the patient.

After receiving the remote consultation request, the expert end can know basic information of the patient through the remote consultation request and can also receive inspection image data sent by the cloud server, so that the expert at the second site can perform rapid diagnosis on the patient according to the basic information, the past medical history, the preliminary diagnosis of the medical staff at the first site and the inspection image data of the patient, which are contained in the remote consultation request, so as to issue a corresponding consultation report, and the consultation report is transmitted to the application end through the cloud server so that the medical staff at the first site can form a corresponding treatment scheme according to the consultation report, and can perform diagnosis, control and other treatments on the state of an illness of the patient.

Specifically, the system further comprises an application end display device, wherein the application end display device is used for displaying the video and the inspection image data and is also used for displaying the consultation report.

Specifically, the system further comprises expert-side display equipment, and the expert-side display equipment is used for displaying the video and the inspection image data.

The application terminal may be configured with an application terminal display device to share the display data amount of the application terminal. For example, the application end is a display and processing integrated device, but it has only one screen, and medical staff needs to display examination image data acquired from the body of a patient on one hand, and also needs to enter a preliminary diagnosis result, or also needs to display basic information of a queried patient, past medical history, and the like on the other hand. Therefore, the application terminal and the application terminal display equipment are used for simultaneously displaying the inspection image data and other interfaces which need to be displayed or operated by medical personnel, so that the medical personnel can conveniently operate and quickly diagnose the patient.

The expert end can be provided with an expert end display device to share the display data volume of the expert end. For example, the expert is a display and processing integrated device, but it has only one screen, and medical staff needs to display examination image data acquired from the body of a patient on one hand, and also needs to enter a diagnosis report, or also needs to display basic information of inquiring the patient, past medical history, and the like on the other hand. Therefore, the expert-end and expert-end display equipment is used for simultaneously displaying the inspection image data and other interfaces required to be displayed or operated by medical personnel, so that the operation of the medical personnel is facilitated, and the patient can be quickly diagnosed.

Specifically, the expert terminal is used for transmitting the working parameters required by the endoscope equipment to the application terminal through the cloud server so as to adjust the parameters of the endoscope equipment. The expert side obtains endoscope equipment data, field operation method data of audio and video conference equipment and patient case data through the cloud server so that the expert at the expert side can give guidance and write a consultation report.

When expert's end and application end were in long-range consultation, in order to let the on-the-spot expert of second better look over inspection image data, the expert end can be to the required working parameter of application end transmission scope equipment, and the medical staff of application end then adjusts the parameter of scope equipment according to this working parameter for the inspection image data that scope equipment gathered more accords with the on-the-spot expert's of second demand, carries out the diagnosis of an illness for the patient sooner.

Specifically, the application end is used for receiving patient medical record data or automatically acquiring the patient medical record data from a third-party system. The mode of receiving the patient medical record data by the application end can be manually input by medical staff on the first site, or can be automatically acquired by the application end from a third-party system, wherein the third-party system can be a hospital medical system and the like.

The application terminal is used for carrying out one or more of brightness adjustment, contrast adjustment, gray scale transformation, Gamma correction, image smoothing and image sharpening on the inspection image data.

The inspection image data acquired by the endoscope equipment is subjected to noise removal, enhancement, restoration, segmentation, feature extraction, brightness adjustment, contrast adjustment, gray level transformation, Gamma correction, image smoothing, image sharpening and other processing through an application terminal to obtain diagnostic-grade inspection image data. After the diagnosis-level examination image data is obtained, the diagnosis-level examination image data is sent to the application end for display, and medical staff at a first site can make a preliminary diagnosis on the condition of a patient.

Specifically, the system further comprises: the system comprises a platform basic information management module, a platform service configuration management module, a consultation data statistics management module and a background database management module; wherein,

the platform basic information management module is used for user information maintenance and user authority management; the user refers to a user registered in the remote real-time endoscope safety consultation system. And the platform basic information management module is operated by an administrator of the remote real-time endoscope safety consultation system.

The platform service configuration management module is used for single consultation, multi-person consultation configuration, consultation scheduling management and site configuration management;

the consultation data counting module is used for counting the consultation application amount, the consultation throughput amount, the consultation report amount, the consultation issuance amount and the output counting data of the user in a specified time range;

the case data modeling management module is used for case data modeling, case template configuration and management and data meta-model management.

The application provides a long-range real-time endoscope safety consultation system, this system is including applying for the end, endoscope equipment and audio and video meeting equipment to acquire inspection image data through endoscope equipment, and acquire on-the-spot real-time audio and video data through audio and video meeting equipment, the application end passes through cloud ware based on communication protocol and will inspect image data and audio and video data transmission to expert's end, realize long-range real-time endoscope consultation. The cloud server or the application end of the remote real-time endoscope safety consultation system performs preset processing such as encryption and compression on diagnosis-level image data acquired by endoscope equipment; the expert end decrypts and displays the processed real-time endoscope diagnostic image data and the field real-time audio/video data so as to carry out remote real-time endoscope consultation; the invention supports the real-time endoscope consultation guidance of a doctor at the application end by a remote expert, realizes reliable and real-time transmission of endoscope diagnosis-level image data, on-site real-time audio and video data and a diagnosis report, realizes the purpose of quickly diagnosing a patient, and solves the problem of difficult seeing caused by lack of medical resources in marginal areas.

For the system embodiment, since it is basically similar to the method embodiment, the description is simple, and for the relevant points, refer to the partial description of the method embodiment.

The embodiments in the present specification are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The above detailed description is provided for the remote real-time endoscope safety consultation system provided by the present application, and the principle and the implementation manner of the present application are explained by applying specific examples, and the description of the above examples 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 (10)

1. The utility model provides a long-range real-time scope safety consultation system which characterized in that, the system is including applying for end, scope equipment, cloud ware and expert's end, wherein:

the endoscope equipment is used for acquiring examination image data in the body of a patient;

the application terminal is used for receiving the inspection image data acquired by the endoscope equipment and initiating a remote consultation request to the expert terminal through the cloud server; and is used for sending the inspection image data to the expert end through the cloud server after the expert end accepts the remote consultation request;

the cloud server is used for receiving the remote consultation request initiated by the application end and sending the remote consultation request to the expert end; after the expert receives the remote consultation request, receiving inspection image data sent by the application end, and sending the inspection image data to the expert end;

the expert end is used for receiving the remote consultation request sent by the cloud server; after the remote consultation request is received, the examination image data sent by the cloud server is received, a consultation report is issued according to the remote consultation request and the examination image data, and the consultation report is sent to the application terminal through the cloud server so that the application terminal can treat the patient.

2. The system of claim 1, further comprising a data acquisition device configured to receive the inspection image data acquired by the endoscopic device and forward the inspection image data to the application end.

3. The system of claim 1, further comprising an applicant display device for displaying the examination image data and for displaying the consultation report; wherein the inspection image data comprises video.

4. The system of claim 1, further comprising an expert-side display device for displaying the inspection image data; wherein the inspection image data comprises video.

5. The system according to claim 1, further comprising a first audio/video conference device and a second audio/video conference device, wherein the first audio/video conference device is configured to collect a first audio/video image of a treatment site where a patient is located, and send the first audio/video image to the expert terminal through the cloud server for reference by the expert terminal to generate the diagnosis report; the second audio and video conference equipment is used for acquiring a second audio and video image of a remote medical site where the expert terminal is located, and sending the second audio and video image to the application terminal through the cloud server for the expert terminal to refer to so as to issue the diagnosis report; and guiding the application end to treat the patient.

6. The system according to claim 5, wherein the application terminal is configured to perform dynamic encryption and compression on at least one of the first audio/video image and the inspection image data to obtain a first transmission data packet, and send the first transmission data packet to the expert terminal through the cloud server;

the expert end is used for receiving the first transmission data packet, decrypting and decompressing the first transmission data packet to obtain at least one of the first audio/video image and the inspection image data;

the expert terminal is used for carrying out dynamic encryption and compression on the second audio and video image to obtain a second transmission data packet, and the second transmission data packet is sent to the application terminal through the cloud server;

the application end is used for receiving the second transmission data packet, decrypting and decompressing the second transmission data packet to obtain a second audio/video image;

or the cloud server is used for dynamically encrypting and compressing at least one of the first audio/video image and the inspection image data to obtain a first transmission data packet, and sending the first transmission data packet to the expert terminal;

the expert end is used for receiving the first transmission data packet, decrypting and decompressing the first transmission data packet to obtain at least one of the first audio/video image and the inspection image data;

the cloud server is used for carrying out dynamic encryption and compression on the second audio and video image to obtain a second transmission data packet, and sending the second transmission data packet to the application end;

the application end is used for receiving the second transmission data packet, decrypting and decompressing the second transmission data packet to obtain the second audio and video image.

7. The system of claim 1, wherein the expert terminal is configured to transmit the required working parameters of the endoscopic device to the application terminal through the cloud server to adjust the parameters of the endoscopic device.

8. The system of claim 1, wherein the application end is configured to receive patient medical record data or to automatically obtain patient medical record data from a third-party system.

9. The system of claim 1 or 8, wherein the application end is configured to perform one or more of brightness adjustment, contrast adjustment, gray scale transformation, Gamma correction, image smoothing, and image sharpening on the inspection image data.

10. The system of any one of claims 1 to 8, further comprising: the system comprises a platform basic information management module, a platform service configuration management module, a consultation data statistics management module and a background database management module; wherein,

the platform basic information management module is used for user information maintenance and user authority management;

the platform service configuration management module is used for single consultation, multi-person consultation configuration, consultation scheduling management and site configuration management;

the consultation data counting module is used for counting the consultation application amount, the consultation throughput amount, the consultation report amount, the consultation issuance amount and the output counting data of the user in a specified time range;

the case data modeling management module is used for case data modeling, case template configuration and management and data meta-model management.

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