AR remote diagnosis system
Technical Field
The invention relates to the technical field of medical diagnosis, in particular to an AR remote diagnosis system.
Background
Telemedicine refers to a medical mode that uses communication and information technology to realize multiple medical functions such as remote disease diagnosis, treatment and health care, and uses computer, 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 is not only a medical or clinical problem but also 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, and the actual physical condition and the particularity of the state of the illness of the patient cannot be accurately diagnosed, so that the timely treatment of the patient is delayed, meanwhile, the diagnosis process of both patients lacks the supervision of a third party, so that the doctor easily breaks rules and regulations and causes medical accidents, and the medical diagnosis and treatment of the patient are not facilitated.
Disclosure of Invention
The invention aims to solve the defects in the prior art and provides an AR remote diagnosis system.
In order to achieve the purpose, the invention adopts the following technical scheme: an AR remote diagnosis system comprising: a patient user platform, a medical service platform and a doctor user platform;
the patient user platform is used for acquiring the physical characteristic data of the patient and carrying out a series of appropriate treatments on the acquired physical characteristic data to form accurate data which can be directly diagnosed and utilized by a doctor;
the medical service platform is used for establishing a doctor-patient channel for data transmission and bidirectional communication between a patient user and a doctor user, comprehensively recording and feeding back related data of medical diagnosis, and achieving the effect of intercommunication and mutual benefit for the patient user and the doctor user;
the doctor user platform is used for enabling a doctor to accurately and visually know the acquired physical characteristic data of the patient, and combines the original medical data to diagnose the state of illness of the patient timely and accurately according to the characteristics of the patient user.
As a further description of the above technical solution:
the patient user platform comprises a patient data acquisition module, a patient data editing module and a diagnosis 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 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.
As a further description of the above technical solution:
the medical service platform comprises a data communication module and a medical database module;
the data communication module is used for timely and accurately transmitting and processing physical characteristic data of patients, users and patients, so that the safety and stability of data communication between systems are ensured;
the medical database module comprises a storage receiving and recording unit and an automatic marking unit, wherein the storage receiving and recording unit is used for automatically receiving and recording the physical characteristic data collected by the patient and establishing a medical data packet corresponding to the patient, so that data searching in the later period is facilitated, the automatic marking unit is used for comparing the collected physical characteristic data of the patient with the consistent data in the original database and automatically marking the same data, and diagnosis and use of doctors are facilitated.
As a further description of the above technical solution:
the medical service platform also comprises a manual interaction module;
the manual interaction module is composed of a data sharing unit, an information feedback unit and an encryption channel unit, wherein the data sharing unit is used for sharing medical diagnosis data between a patient user and a doctor user in real time, information interaction between the doctor and the patient is facilitated, the information feedback unit is used for carrying out feedback recording on data required to be supplemented by the doctor and the patient in the later period respectively, omission phenomenon in early-stage data acquisition is made up, the encryption channel unit is used for establishing an encrypted and safe communication channel between the doctor and the patient, the encrypted and safe communication channel is used for providing a relatively private environment for the doctor and the patient, and accidental leakage of patient data is prevented.
As a further description of the above technical solution:
the doctor user platform 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 medical system, 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 the medical system at proper time so as to request related medical personnel to assist diagnosis.
As a further description of the above technical solution:
the doctor user platform further comprises a simulation verification unit;
the simulation verification unit is used for picking and processing the data obtained by diagnosis in the model after modeling of the physical characteristic data of the patient, reestablishing a corresponding four-dimensional model according to the actual physical characteristic of the patient, and then importing the diagnosis data into the four-dimensional model so as to verify the correctness of the data obtained by diagnosis.
As a further description of the above technical solution:
the system also comprises a medical supervision platform;
the medical supervision platform is communicated with the medical service platform;
the medical supervision platform comprises a third party supervision module, a real-time inspection module and a complaint feedback module;
the third-party supervision module is used for networking an external superior health supervision department and supervising both parties in the medical diagnosis process so as to ensure that both the doctor and the patient can communicate in a relatively fair and fair environment;
the real-time checking module is used for the superior health supervision department to check the operation specification in the medical diagnosis process in real time so as to ensure the normalization of the diagnosis process;
the complaint feedback module is used for providing a path for complaint feedback of the patient user, so that the actual diagnosis feeling of the patient user is expressed timely and comprehensively, and the humanized service purpose of the AR remote diagnosis system is highlighted.
Advantageous effects
The invention provides an AR remote diagnosis system. The method has the following beneficial effects:
(1): the AR remote diagnosis system 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 verifying mode according to medical diagnosis requirements, so that mutual communication between the doctor and the patient can be realized without the patient going to a hospital personally, and timely and accurate diagnosis treatment of the patient is ensured.
(2): the AR remote diagnosis system can comprehensively supervise all conditions in the diagnosis process of the doctor and the patient by using a third party supervision mode, prevent the condition that the doctor violates operations in the diagnosis process, and can also give necessary right support to the patient, thereby improving the safety and transparency of the AR remote diagnosis system.
Drawings
FIG. 1 is a schematic diagram of an AR remote diagnosis system according to the present invention;
FIG. 2 is a schematic diagram of a patient user platform of the present invention;
FIG. 3 is a schematic diagram of a patient data acquisition module of the present invention;
FIG. 4 is a schematic illustration of patient data editing according to the present invention;
FIG. 5 is a schematic illustration of a medical services platform of the present invention;
FIG. 6 is a diagram of a human interaction module according to the present invention;
FIG. 7 is a schematic diagram of a medical database module of the present invention;
FIG. 8 is a schematic diagram of a physician user platform of the present invention;
FIG. 9 is a schematic diagram of a medical data line display module according to the present invention;
FIG. 10 is a schematic diagram of a medical data diagnostic module of the present invention;
FIG. 11 is a schematic diagram of a medical regulatory platform of the present invention.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the 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 to 11, the AR remote diagnosis system includes: a patient user platform, a medical service platform and a doctor user platform;
the patient user platform is used for acquiring the physical characteristic data of the patient and carrying out a series of appropriate treatments on the acquired physical characteristic data to form accurate data which can be directly diagnosed and utilized by a doctor;
the medical service platform is used for establishing a doctor-patient channel for data transmission and bidirectional communication between the patient user and the doctor user, comprehensively recording and feeding back related data of medical diagnosis, and achieving the effect of intercommunication and mutual benefit for the patient user and the doctor user;
the doctor user platform is used for enabling a doctor to accurately and visually know the acquired physical characteristic data of the patient, and combines the original medical data to timely and accurately diagnose the state of an illness of the patient according to the characteristics of the patient user.
The patient user platform comprises a patient data acquisition module, a patient data editing module and a diagnosis 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 consists of a repeated deleting unit, a classification and combination unit, a compression 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 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.
The medical service platform comprises a data communication module and a medical database module;
the data communication module is used for timely and accurately transmitting and processing physical characteristic data of patients, users and patients, so that the safety and stability of data communication between systems are ensured;
the medical database module comprises a storage receiving and recording unit and an automatic marking unit, wherein the storage receiving and recording unit is used for automatically receiving and recording the physical characteristic data collected by the patient and establishing a medical data packet corresponding to the patient, so that data searching in the later period is facilitated, the automatic marking unit is used for comparing the collected physical characteristic data of the patient with the consistent data in the original database and automatically marking the same data, and diagnosis and use of doctors are facilitated.
The medical service platform further comprises a manual interaction module, the manual interaction module is composed of a data sharing unit, an information feedback unit and an encryption channel unit, the data sharing unit is used for sharing medical diagnosis data between a patient user and a doctor user in real time, information interaction between the doctor and the patient is facilitated, the information feedback unit is used for carrying out feedback recording on data required to be supplemented by the doctor and the patient in the later period respectively, omission phenomenon during early-period data acquisition is avoided, the encryption channel unit is used for establishing an encryption safe communication channel between the doctor and the patient, the environment with relative privacy of the doctor and the patient is provided, and accidental leakage of the patient data is prevented.
The doctor user platform 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 medical system, 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 the medical system at proper time so as to request related medical personnel to assist diagnosis.
The doctor user platform further comprises a simulation verification unit, the simulation verification unit is used for picking and processing data obtained by diagnosis in the model after the patient physical characteristic data are modeled, reestablishing a corresponding four-dimensional model according to the actual physical characteristics of the patient, and then importing the diagnosis data into the four-dimensional model so as to verify the correctness of the data obtained by diagnosis.
The medical supervision platform comprises a third-party supervision module, a real-time inspection module and a complaint feedback module, the third-party supervision module is used for networking an external superior health supervision department and supervising both parties in the medical diagnosis process, so that both the doctor and the patient can communicate under a relatively fair and fair environment, the real-time inspection module is used for the superior health supervision department to inspect the operation specification in the medical diagnosis process in real time, the normalization of the diagnosis process is ensured, and the complaint feedback module is used for providing a complaint feedback channel for a patient user, so that the actual diagnosis feeling of the patient user is expressed timely and comprehensively, and the humanized service purpose of the AR remote diagnosis system is highlighted.
In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.
The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.