CN112037872A - AR technology-based remote disease diagnosis system and method - Google Patents

Abstract

The invention provides a remote disease diagnosis system and method based on AR technology, comprising: the system comprises a patient information acquisition unit, a conversation unit, a diagnosis unit and a charging unit, wherein the patient information acquisition unit is used for acquiring information of a patient by a doctor by utilizing AR technology, the conversation unit is used for conversation with the patient when the doctor performs on-line inquiry, the diagnosis unit is used for making a diagnosis for the patient by utilizing the AR technology, and the charging unit is used for charging diagnosis cost for the patient; the invention provides a remote disease diagnosis system and method based on AR technology, which adopts the combination of AR virtual technology and remote network transmission technology to enable doctors to remotely acquire and diagnose real-time physical data of patients.

Description

AR technology-based remote disease diagnosis system and method

Technical Field

The invention relates to the field of medical treatment, in particular to a remote disease diagnosis system and method based on AR technology.

Background

Telemedicine refers to a medical mode that uses communication and information technology to realize multiple medical functions such as remote disease diagnosis, treatment, health care and the like, and uses computers, communication, medical technology and equipment to realize remote face-to-face consultation between experts and patients, and between experts and medical staff through remote transmission of data, text, voice and image data.

Telemedicine not only is a medical or clinical problem, but also includes various problems such as a communication network, a database, and the like, and needs to be integrated into a network system, so telemedicine diagnosis plays an important role in the present society.

The existing remote diagnosis system usually diagnoses the state of an illness of a patient in a way of communicating with the patient through a doctor and a network, so that the doctor can simply diagnose the state of the illness of the patient only by relying on the existing medical data and the judgment of the doctor, the actual physical condition and the particularity of the state of the illness of the patient cannot be accurately diagnosed, and the timely treatment of the patient is delayed.

Disclosure of Invention

In view of the above, the technical problems to be solved by the present invention are: the system and the method aim at providing a remote disease diagnosis system and method based on AR technology, and adopt the combination of AR virtual technology and remote network transmission technology to enable doctors to remotely acquire and diagnose real-time physical data of patients.

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

a remote disease diagnosis system based on AR technology, comprising: the system comprises a patient information acquisition unit, a conversation unit, a diagnosis unit and a charging unit, wherein the patient information acquisition unit is used for acquiring information of a patient by a doctor by utilizing AR technology, the conversation unit is used for conversation with the patient when the doctor performs on-line inquiry, the diagnosis unit is used for making a diagnosis for the patient by the doctor by utilizing the AR technology, and the charging unit is used for charging diagnosis cost for the patient.

In one embodiment, the patient information acquisition unit comprises a patient data acquisition module, a patient data editing module and a diagnosis data transceiver module;

the patient data acquisition module consists of a camera acquisition unit, a voice input unit and a somatosensory equipment unit, wherein the camera acquisition unit acquires real-time physical image data information of a patient through a medical camera, the voice input unit inputs real-time physical voice information of the patient through network communication equipment, and the somatosensory equipment unit acquires and records the physical data in real time through various sensors on the body of the patient;

the patient data editing module is composed of a repeated deleting unit, a classifying and combining unit, a compressing and packaging unit and a filtering and amplifying unit, wherein the repeated deleting unit is used for deleting collected repeated patient physical characteristic data and ensuring the unicity of each item of physical characteristic data of the data;

the diagnostic data transceiver module is used for transmitting the acquired and edited physical characteristic data and receiving corresponding diagnostic data.

In one embodiment, the session unit comprises a session module, an information feedback module and an encryption channel module, wherein the session module is used for a doctor to have a session with a patient during on-line inquiry, so that information interaction between the doctor and the patient is facilitated, the information feedback module is used for performing feedback recording on data to be supplemented by the doctor and the patient in the later period respectively, omission during early-period data acquisition is avoided, and the encryption channel module is used for establishing an encrypted and safe communication channel between the doctor and the patient, providing a relatively private environment for the doctor and the patient, and preventing accidental leakage of patient data.

In one embodiment, the diagnosis unit comprises a medical data display module, a medical data diagnosis module and a diagnosis instruction generation module;

the medical data display module consists of an AR equipment unit and an image display equipment unit, wherein the AR equipment unit comprises head-wearing AR glasses and an AR helmet and is used for a doctor to wear and diagnose, and the image display equipment unit is used for transmitting image data information in the AR equipment to a display for the online reference of related medical personnel;

the medical data diagnosis module consists of a virtual modeling unit, a comparison and matching unit and an online discussion unit; the system comprises a virtual modeling unit, a comparison and matching unit, a medical data base and an online discussion unit, wherein the virtual modeling unit is used for establishing a model of a patient physical structure by using a four-dimensional virtual technology on AR equipment and importing related imported data into the model for medical diagnosis;

the diagnosis instruction generation module is used for generating final diagnosis information and sending the final diagnosis information to the diagnosis data receiving and sending module.

Also provided is a remote disease diagnosis method based on AR technology, the method comprising:

the first step is as follows: uploading the diseased information of the patient;

the second step is that: a doctor makes an on-line inquiry to a patient;

the third step: the doctor makes a preliminary diagnosis or further treatment or examination suggestion for the patient according to the illness information uploaded by the patient and the illness information of the patient obtained by on-line inquiry;

the fourth step: the patient obtains treatment or examination advice of a doctor;

the fifth step: and paying by the patient.

Compared with the prior art, the remote disease diagnosis system and method based on the AR technology provided by the invention have the following advantages:

firstly, before a patient goes to a hospital for a doctor, the patient can obtain a remote initial diagnosis result and further treatment or examination suggestions according to the symptoms of the patient, so that the waiting time for the doctor is shortened;

secondly, the following steps: the AR remote diagnosis system provided by the invention adopts the combination of the AR virtual technology and the remote network transmission technology, so that a doctor can remotely acquire and diagnose real-time physical data of a patient, and obtains a diagnosis scheme and data which most accord with the patient by adopting a modeling and verification mode according to medical diagnosis requirements, thereby realizing the mutual communication between doctors and patients without the need that the patient personally goes to a hospital, and ensuring the timely and accurate diagnosis treatment of the patient;

finally, the AR remote diagnosis system of the invention is beneficial to rural and remote patients to enjoy better medical resources, and simultaneously can greatly reduce the cost of seeing a doctor, avoid the high cost of the rural and remote patients caused by long-distance trekking, long reservation time for hospitalization, waiting for seeing a doctor and arranging a long queue, and simultaneously improve the working efficiency of each hospital.

Drawings

FIG. 1 is a flow chart illustrating the steps of the remote diagnostic method of the present invention;

FIG. 2 is a schematic diagram of the remote diagnostic system of the present invention;

FIG. 3 is a schematic diagram of a patient information acquisition unit according to the present invention;

FIG. 4 is a schematic diagram of a patient data acquisition module of the present invention;

FIG. 5 is a schematic diagram of a patient data editing module according to the present invention;

FIG. 6 is a diagram of a session unit in the present invention;

FIG. 7 is a schematic diagram of a diagnostic unit of the present invention;

FIG. 8 is a schematic view of a medical data display module of the present invention;

FIG. 9 is a schematic diagram of a medical data diagnostic module of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

As shown in fig. 1-9:

a remote disease diagnosis system based on AR technology, comprising: the system comprises a patient information acquisition unit, a conversation unit, a diagnosis unit and a charging unit, wherein the patient information acquisition unit is used for acquiring information of a patient by a doctor by utilizing AR technology, the conversation unit is used for conversation with the patient when the doctor performs on-line inquiry, the diagnosis unit is used for making a diagnosis for the patient by the doctor by utilizing the AR technology, and the charging unit is used for charging diagnosis cost for the patient.

In this embodiment, the patient information acquiring unit includes a patient data acquiring module, a patient data editing module and a diagnostic data transceiving module; the patient data acquisition module consists of a camera acquisition unit, a voice input unit and a somatosensory equipment unit, wherein the camera acquisition unit acquires real-time physical image data information of a patient through a medical camera, the voice input unit inputs real-time physical voice information of the patient through network communication equipment, and the somatosensory equipment unit acquires and records the physical data in real time through various sensors on the body of the patient; the patient data editing module is composed of a repeated deleting unit, a classifying and combining unit, a compressing and packaging unit and a filtering and amplifying unit, wherein the repeated deleting unit is used for deleting the collected repeated patient physical characteristic data to ensure the unicity of each item of physical characteristic data of the data; the diagnostic data transceiver module is used for transmitting the acquired and edited physical characteristic data and receiving the corresponding diagnostic data.

In this embodiment, the session unit is composed of a session module, an information feedback module and an encryption channel module, wherein the session module is used for a doctor to have a session with a patient during an on-line inquiry, which facilitates information interaction between the doctor and the patient, the information feedback module is used for the doctor and the patient to perform feedback recording on data to be supplemented respectively in a later period, which makes up for omission phenomenon during data acquisition in an earlier period, and the encryption channel module is used for establishing an encrypted and safe communication channel between the doctor and the patient to provide an environment with relative privacy for the doctor and the patient, so as to prevent accidental leakage of patient data.

In this embodiment, the diagnosis unit includes a medical data display module, a medical data diagnosis module and a diagnosis instruction generation module; the medical data display module consists of an AR equipment unit and an image display equipment unit, wherein the AR equipment unit comprises head-wearing AR glasses and an AR helmet and is used for a doctor to wear for diagnosis, and the image display equipment unit is used for transmitting image data information in the AR equipment to a display for the relevant medical personnel to refer on line; the medical data diagnosis module consists of a virtual modeling unit, a comparison and matching unit and an online discussion unit; the system comprises a virtual modeling unit, a comparison and matching unit, an online discussion unit and a diagnosis assisting unit, wherein the virtual modeling unit is used for establishing a model of a patient physical structure by using a four-dimensional virtual technology on AR equipment and importing related imported data into the model for medical diagnosis, the comparison and matching unit is used for comparing the modeled diagnosis data with original data and comparing and matching the diagnosis data with existing data in a medical database to judge the accuracy of diagnosis, and the online discussion unit is used for publishing the patient modeling model and the data in a medical system at proper time so as to request related medical personnel to assist in diagnosis; the diagnosis instruction generation module is used for generating final diagnosis information and sending the final diagnosis information to the diagnosis data receiving and sending module.

Also provided is a remote disease diagnosis method based on AR technology, the method comprising:

the first step is as follows: uploading the diseased information of the patient;

the second step is that: a doctor makes an on-line inquiry to a patient;

the third step: the doctor makes a preliminary diagnosis or further treatment or examination suggestion for the patient according to the illness information uploaded by the patient and the illness information of the patient obtained by on-line inquiry;

the fourth step: the patient obtains treatment or examination advice of a doctor;

the fifth step: and paying by the patient.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (5)

1. A remote disease diagnosis system based on AR technology, comprising: the system comprises a patient information acquisition unit, a conversation unit, a diagnosis unit and a charging unit, wherein the patient information acquisition unit is used for acquiring information of a patient by a doctor by utilizing AR technology, the conversation unit is used for conversation with the patient when the doctor performs on-line inquiry, the diagnosis unit is used for making a diagnosis for the patient by the doctor by utilizing the AR technology, and the charging unit is used for charging diagnosis cost for the patient.

2. The remote disease diagnosis system based on AR technology as claimed in claim 1, wherein the patient information acquisition unit comprises a patient data acquisition module, a patient data editing module and a diagnosis data transceiver module;

the patient data acquisition module consists of a camera acquisition unit, a voice input unit and a somatosensory equipment unit, wherein the camera acquisition unit acquires real-time physical image data information of a patient through a medical camera, the voice input unit inputs real-time physical voice information of the patient through network communication equipment, and the somatosensory equipment unit acquires and records the physical data in real time through various sensors on the body of the patient;

the patient data editing module is composed of a repeated deleting unit, a classifying and combining unit, a compressing and packaging unit and a filtering and amplifying unit, wherein the repeated deleting unit is used for deleting collected repeated patient physical characteristic data and ensuring the unicity of each item of physical characteristic data of the data;

the diagnostic data transceiver module is used for transmitting the acquired and edited physical characteristic data and receiving the corresponding diagnostic data.

3. The remote disease diagnosis system based on the AR technology as claimed in claim 1, wherein the session unit is composed of a session module, an information feedback module and an encryption channel module, wherein the session module is used for a doctor to have a session with a patient during an on-line inquiry, which facilitates information interaction between the doctor and the patient, the information feedback module is used for the doctor and the patient to perform feedback recording on data to be supplemented at a later stage, which makes up for a missing phenomenon during early data acquisition, and the encryption channel module is used for establishing an encryption-safe communication channel between the doctor and the patient to provide a relatively private environment for the doctor and the patient, thereby preventing accidental leakage of patient data.

4. The remote disease diagnosis system based on AR technology as claimed in claim 1, wherein the diagnosis unit comprises a medical data display module, a medical data diagnosis module and a diagnosis instruction generation module;

the medical data display module consists of an AR equipment unit and an image display equipment unit, wherein the AR equipment unit comprises head-wearing AR glasses and an AR helmet and is used for a doctor to wear for diagnosis, and the image display equipment unit is used for transmitting image data information in the AR equipment to a display for the relevant medical personnel to refer on line;

the medical data diagnosis module consists of a virtual modeling unit, a comparison and matching unit and an online discussion unit; the system comprises a virtual modeling unit, a comparison and matching unit, an online discussion unit and a diagnosis assisting unit, wherein the virtual modeling unit is used for establishing a model of a patient physical structure by using a four-dimensional virtual technology on AR equipment and importing related imported data into the model for medical diagnosis, the comparison and matching unit is used for comparing the modeled diagnosis data with original data and comparing and matching the diagnosis data with existing data in a medical database to judge the diagnosis accuracy, and the online discussion unit is used for publishing the patient modeling model and the data in a medical system at proper time so as to request related medical personnel to assist diagnosis;

the diagnosis instruction generation module is used for generating final diagnosis information and sending the final diagnosis information to the diagnosis data receiving and sending module.

5. A method for remote diagnosis of diseases based on AR technology, the method comprising:

the first step is as follows: uploading the diseased information of the patient;

the second step is that: a doctor makes an on-line inquiry to a patient;

the third step: the doctor makes a preliminary diagnosis or further treatment or examination suggestion for the patient according to the illness information uploaded by the patient and the illness information of the patient obtained by on-line inquiry;

the fourth step: the patient obtains treatment or examination advice of a doctor;

the fifth step: and paying by the patient.

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