KR20130053772A - Tele auscultation medicine smart-healthcare system based on digital stethoscope and the method thereof - Google Patents

Abstract

PURPOSE: A smart health care system for digital stethoscope based remote auscultation treatment and an operation method thereof are provided to perform remote treatment between a patient and a doctor, thereby easily supplying the remote treatment to the patient in anywhere. CONSTITUTION: A digital stethoscope(10) records an auscultation sound and digitizes the same. A smart phone(20) stores auscultation data with a name of a patient, a measured position, and a measurement date. A doctor terminal(30) confirms a treatment request through server access and writes a medical chart after receiving the auscultation data. The doctor terminal performs auscultation treatment for the patient in a remote position. A server(100) receives treatment request information by using a treatment request chart and the auscultation data and completes a treatment chart information table. [Reference numerals] (AA) Medical request, medical chart, auscultation data; (BB) Patient; (CC) Patient information, medical chart, auscultation data; (DD) Doctor

Description

Tele Auscultation Medicine Smart-Healthcare System based on Digital Stethoscope and the method

The present invention relates to a digital stethoscope based remote medical examination smart healthcare system and its operation method, and more specifically, to listen and diagnose the bio-signal of the internal organs of the person that is the basis of the disease judgment, anytime, anywhere easily The present invention relates to a digital stethoscope based remote stethoscope medical healthcare system based on a remote healthcare medical system based on an accessible smartphone and a method of operating the same.

Today, the demand for welfare is increasing rapidly as the living standard of the people improves with the development of medical technology.

As a result, people's desire to improve the quality of life based on medical services using advanced IT technology is increasing.

This is changing the paradigm of health care services from existing treatment-based provider-oriented services to proactive health-care and wellness-based active services.

Despite these changes, however, until now, health care services are limited to simple treatments in the past, and they are limited in converting them into active services due to problems such as poor access to rural areas and management focused on disease management.

 Recently, in order to overcome the limitations of this paradigm movement, methods for expanding health care services based on IT technology have been proposed, and among them, based on smart phones, which are rapidly spreading nowadays, Smart-healthcare services are emerging that can take a close approach to the general life of the people and manage their own medical, welfare, and safety complexities.

Smart Healthcare can provide various services such as basic fitness exercise index, calorie intake, and heart rate check according to the function of the smartphone. There is active research into telemedicine services that enable medical care.

In general, the doctor examines the patient's disease through five medical examination methods (question, examination, palpation, percussion, and auscultation). In the case of a conventional telemedicine service, the doctor conducts a questionnaire, examination and auscultation through a PC. Thus, the medical service between the patient and the doctor proceeded. However, this PC-based telemedicine service has not only spatial limitations but also the problem of disseminating PCs to areas such as the mountainous islands, making it difficult to spread the service by repeating some of the problems encountered in the past paradigm shift of health care services. Showed.

On the other hand, Korean Patent No. 789705 discloses a stethoscope data of a patient collected through a digital electronic stethoscope, and is wirelessly outputted through a separate wireless receiver or a separate speaker or headset, thereby eliminating the need for a separate communication line from the stethoscope. In addition to the benefits of using a stethoscope freely, the doctor as well as the patient can check the diagnosed stethoscope sound, in addition to the effect of providing more detailed medical services to observe the non-contact temperature sensor and oral or ear to the stethoscope It is to provide a wireless stethoscope system using a multifunctional digital stethoscope which provides a variety of functions such as adding a lighting to be used to raise the convenience and quality of the product to the next level.

In addition, Korean Patent No. 0669531 discloses a sound collector for collecting sound generated from the chest of a human body, an amplifier for amplifying a weak electroacoustic signal passed through the sound collector, and a signal of a low frequency band among the electroacoustic signals amplified by the amplifier. A transmitter part having a modulator for passing a chest sound signal at a high frequency and a radio transmitter for wirelessly transmitting the chest sound through an oscillator, a band pass filter, and an antenna; And a receiving antenna for receiving a chest sound transmitted from the transmitter part, a UHF receiving unit for converting a signal received through the receiving antenna into an intermediate frequency and demodulating the original signal, and a chest sound analog signal output from the receiving unit. An A / D converter for converting a digital signal to a digital signal, an audio processing unit for converting a chest sound output from the A / D converter into digital data and an analog chest sound, and a digital signal related to a chest sound output from the audio processing unit. USB receiver for transmitting to the connection device, including a receiver stethoscope; including, the receiver stethoscope, the receiver stethoscope including the USB and the chest (steth) sound and sound waveform by the biosignal analysis program to the eye (LCD display) You can check and listen to the sound (Earphone / Speaker), and can express the blood pressure, body temperature, breathing sound as a numerical value It provides a wireless digital stethoscope using a bit.

However, the above-mentioned digital stethoscopes are simple wireless or digital patient health information transmission devices, and there is a problem in that patients cannot immediately hear the opinions of doctors that are really necessary.

Therefore, the present invention complements these existing problems and shows a remote medical examination system based on a smartphone that can be easily accessed anytime, anywhere, and among the five medical examinations that are the basis of disease determination, heart disease, pneumonia, intussusception And we propose a digital stethoscope-based remote hearing smart-healthcare system that can listen and diagnose the biological signals of human internal organs such as peritonitis.

In order to solve the above problems, the present invention provides a digital stethoscope based remote medical examination system that can listen and diagnose the biological signal of the internal organs of a person who is the basis of disease determination through a remote medical examination system based on a smartphone. The purpose is to provide a smart healthcare system and its operation method.

In addition, the present invention provides a smart phone that can be easily accessible anywhere, anytime for providing a consumer-oriented active service for preventive health care and wellness (based on the smart phone) that is rapidly spreading in recent years Based on the digital stethoscope based remote stethoscope medical smart healthcare system, the patient consists of a digital stethoscope and smartphone for self-measurement, a doctor's PC for examining the patient, and a network server for connecting terminals. Through the program that can send and receive auscultation data and medical examination data between terminals, remote medical treatment can be performed between the patient and the doctor. Stethoscope-based remote medical examination smart healthcare system and its operation method The purpose is to provide.

The present invention is a digital stethoscope for recording a stethoscope sound in the stethoscope process, the digital conversion to the stethoscope sound to generate a stethoscope data, and storing the generated stethoscope data with the patient name, measurement site, the date of measurement A doctor terminal that can access a smartphone and a server, check a medical request, receive a requested stethoscope data, create a medical chart and send it to a server, and provide a stethoscope for a remote patient, and a medical chart. (RequestChart) and receiving the medical treatment request information using the stethoscope data, and the server to configure the medical chart information (MedicalChart) table by passing the medical request chart (RequestChart) and stethoscope data, the smart phone is the Read the stored stethoscope data into the visualization module, output the waveform graph, and play the sound to provide the stethoscope information to the user. The measured stethoscope data is displayed along with the standard waveform of the stethoscope sound generated in the internal organs according to the disease, and the stethoscope data that has been measured is output and displayed to compare the health status of the user. If you select and fill out the chart for the treatment, and request the remote medical treatment to the doctor's terminal, check whether the items requested by the doctor through the medical record screen, select the item that the doctor's terminal has completed the request for the request It includes a patient application for checking the results of the examination.

The database built in the server manages the data including a medical chart information table, a medical request chart table, and a medical stethoscope in order to systematically manage data including stethoscope data, medical records, and personal information generated in the course of performing remote medical care. The data information table, the patient information table, and the doctor information table are divided into two. Based on the tables, when a patient requests a remote medical treatment from a doctor terminal, a request chart and stethoscope data to which his personal information is connected are used. The medical request is made through the server, and the doctor terminal receives the medical request chart and the stethoscope data from the server, and the medical request (RequestChart), the medical data (MedicalDataInfo), and the patient information (Patient) are connected. Create a chart and finally complete the MedicalChart table.

The medical chart information table connects medical request, stethoscope medical data, and patient information to comprehensively manage medical records by chart number, chart number, medical date, stethoscope data number, medical request number, and doctor's opinion. It consists of.

The request chart table includes a chart number, patient ID, request date, request file name, and request processing information in order to manage patient request information by connecting patient information.

The medical data information table (Medical DataInfo) is composed of a data number, patient ID, measurement date, measurement site, and file name to connect the patient information to manage the stethoscope data for each patient.

The patient table and the doctor table are composed of server login-related information including personal ID and password and personal identification information to manage personal information of the patient and the doctor.

The present invention comprises the steps of generating a stethoscope data through a digital stethoscope connected to the smartphone in order to record the stethoscope sound in the stethoscope process, and the generated stethoscope data along with the information of the patient name, measurement site, measurement date Storing in the patient application installed in the smartphone, reading the stethoscope data stored in the visualization module into a visualization module, outputting a waveform graph, and reproducing the sound to provide the user with the stethoscope information, and the current measurement through the patient application. Comparing the health status of the user by outputting the previously measured stethoscope data along with the standard waveform of the stethoscope sound generated in the internal organs according to the disease according to the disease, and requesting the remote medical treatment through the doctor's terminal. The procedure consists of identifying the chart.

According to the present invention, a patient logs in to a server with an ID, selects data to be treated from a stethoscope data list stored in the smartphone, and creates a treatment request chart, and remotely accesses a doctor terminal using the prepared treatment request chart. And requesting medical treatment, and checking whether the patient has processed the item requested by the patient through the medical record screen through the smartphone, and checking the examination result by selecting an item for which the medical treatment is completed through the doctor terminal. It is configured by.

The present invention is to log in to the server with their ID through the doctor terminal, and check whether there is a patient's medical request, and if there is a patient's medical request patient information, medical request information, stethoscope Receiving data information and auscultation data from a server to generate a medical chart for a patient; outputting and displaying the waveform and sound to a doctor terminal through a visualization module of the auscultation data received from the server; And performing a medical examination through listening and analyzing the stethoscope data outputted to the doctor terminal, creating a medical chart, and uploading the stethoscope data and the medical chart to the server.

The present invention has an input keyword including the patient name, the date of treatment, auscultation data number, the step of obtaining and outputting and modifying the corresponding treatment chart and auscultation data from the server through a SQL query statement, and the corresponding patient obtained by performing a remote medical procedure Output, save and modify data with chart number, patient name, medical date and auscultation data number obtained through self search function within ID or program of the program, and receive the auscult data and output the waveform and play sound source It further comprises a visualization step of providing a stethoscope information to the doctor terminal.

The present invention receives the stethoscope data stored in the request or the stethoscope data stored in the server, or the reference stethoscope data stored from the doctor terminal at the time of remote medical care, and outputs the corresponding stethoscope data by selecting a module to output from the two visualization output modules And comparing and determining a state of a patient through a doctor terminal based on the stethoscope data.

The present invention provides a registration and login processing step of sending a processing result to a client by checking a DB when a member registration and login request is requested, and the client writes a corresponding item and requests approval for membership registration and login to the server. The server checks the corresponding request through the SQL query statement in the DB to create an item or log in to the client, and receives the stethoscope data file received from the client and stored in the server DB. It further comprises a storage step.

The present invention stores the stethoscope data in a temporary space when receiving from the patient, and storing the stethoscope data in the stethoscope data storage space in the server when receiving the stethoscope data from the doctor terminal, the keyword requested from the client The method further includes the step of returning a result value including the patient information, the treatment information, and the stethoscope data information obtained by performing the SQL query statement to the requesting client.

According to the present invention can perform remote medical care between the patient and the doctor can be used easily and conveniently by closely approaching daily life without time and space constraints on the patient.

According to the present invention, it is possible to listen to and diagnose the biosignal of the internal organs of a person, which is the basis of disease determination, and to easily access anytime, anywhere.

1 is a view showing the overall configuration for a digital stethoscope-based remote medical examination smart healthcare system according to the present invention.
Figure 2 is a flow chart showing a process for performing a self-diagnosis or remote medical examination in a patient's personal smartphone application patient patient in accordance with an embodiment of the present invention.
FIG. 3 is a flowchart showing a process in which a patient confirms a request for a remote medical care and a medical chart with the stethoscope data generated in the stethoscope process of FIG.
4 to 6 are flowcharts showing a procedure for auscultating a remote patient from a doctor PC in a hospital through the doctor PC software.
7 and 8 illustrate the overall process performed by the server.
9 is a view showing the design of a database for storing data generated in the course of performing telemedicine through a database built in a server according to the present invention.
Figure 10 is a view showing the results of the visualization and reproduction of the stethoscope data generated in the stethoscope and telemedicine process through the patient smartphone application according to the present invention.
11 is a view showing the process of confirming the request and the result of the examination of the patient for the remote medical treatment in accordance with the present invention.
Figure 12 illustrates a main interface of a doctor's PC software and the like in accordance with the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the drawings.

As shown in FIG. 1, the smart stethoscope based healthcare system based on the digital stethoscope according to the present invention includes a server 100, a patient smartphone 20, a digital stethoscope 10, and a doctor terminal 30.

Here, the smart phones 20, 30, and 40 are terminals for exchanging medical requests and patient information, and may be replaced with PCs, tablets, and portable terminals.

In this configuration, data transmission between terminals is performed through HTTP communication in an internet enabled environment. In the digital stethoscope-based remote medical examination smart healthcare system according to the present invention, first, the patient connects the digital stethoscope to the smart phone to measure the stethoscope signal to perform the remote medical treatment, and transmits the measurement results to the server to the doctor Ask.

Next, the doctor accesses the server from the terminal (for example, a PC), checks the medical request, receives the requested stethoscope data, creates a medical chart, and transmits it to the server.

Finally, the patient can check his / her health status by checking the treatment result for the treatment request through the server and receiving the treatment chart.

For example, the components of the digital stethoscope-based remote medical examination smart healthcare system according to the present invention are divided into a patient smartphone, a doctor terminal, a server, and the required functions for each component are identified and defined as shown in Table 1 below. .

In the stethoscope data portion of Table 1, a stethoscope data generation function was defined to record a stethoscope signal by connecting a digital stethoscope to a smartphone, and the eye through the visualization and the reproduction process of the stethoscope sound to view the generated stethoscope data as a waveform. In order to check the auscultation signal with the ear, the stethoscope data output and comparison function and the stethoscope data management function are defined to store the stethoscope data in the server and to manage the details.

In the telemedicine part, we also defined a telemedicine execution function to perform telemedicine through the transfer of medical data between doctors and patients, and defined a remote care request management function to process and manage data for remote care requests from patients. .

Also, in the chart part, the doctor defined the chart creation function to record the result in the chart after performing the remote medical examination, and the view of the chart to view the created chart and view the chart In order to store, retrieve and modify the data, the management chart management function is defined.

In addition, to manage the patient's personal and medical information, we defined the patient information management function, and the login and membership processing function to handle the login and membership request of the patient or doctor.

As shown in FIG. 2, the patient smartphone application is a patient application for performing a self-diagnosis or a remote hearing medical treatment on a patient's personal smartphone, and the process of performing the same includes a stethoscope process including a stethoscope measurement, visualization reproduction, and comparative reproduction ( S101, S102, and S103) and the remote medical treatment for remote medical care through the above process.

Specifically, as shown in FIG. 2, the stethoscope generates a stethoscope data through a digital stethoscope connected to a smartphone in order to record a stethoscope sound in the stethoscope process, and the generated stethoscope data includes information on the patient's name, measurement site, and measurement date. Take a smartphone and store it on the SD card (S101).

The patient application reads the stored stethoscope data into a visualization module, outputs a waveform graph, and reproduces the sound to provide the user with stethoscope information (S102).

In addition, in the application according to the present invention, the current measured stethoscope data along with the standard waveform (hereinafter referred to as stethoscope data) of the stethoscope sound generated in the internal organs according to the disease, and outputs the previously measured stethoscope data to check the health state of the user It provides a function that can be compared (S103).

Next, as shown in FIG. 3, the remote medical treatment process uses auscultation data generated during the auscultation process to confirm a request and a medical chart of a remote medical treatment to a doctor.

For example, the patient first logs in to the server with his or her ID, and then selects the data to be treated from the stethoscope data list stored in the smartphone and creates a treatment request chart (S201, S202, S203).

Then, the remote medical care request is made to the doctor using the created medical request chart (S204).

At this time, the patient can check whether the item requested by the patient through the medical record screen, and check the result of the examination by selecting the item that the doctor completed the treatment for the request (S205, S206, S207).

4 to 6, the doctor terminal software according to the present invention is a software which can perform a stethoscope medical treatment for a remote patient in the doctor terminal in the hospital, the process is a remote medical treatment, medical treatment, and visualization processes Separated by.

Firstly, in the remote medical treatment process, a doctor checks a patient's request for treatment, prepares a medical chart, and feeds the result back to the patient (S301, S302, S303, S304, S305).

In this process, the doctor logs in to the server with his ID and checks whether there is a patient's medical request (S301, S302).

If there is a patient's medical request, the patient receives the patient information, the medical request information, the stethoscope data information, and the stethoscope data from the server through the medical request list to generate a medical chart for the patient (S303, S304, S305).

In addition, the present invention outputs and reproduces the waveform and sound to the doctor through the visualization module to the stethoscope data received from the server (S306).

At this time, the doctor listens and analyzes the outputted stethoscope data, performs the examination, creates a medical chart, and uploads the stethoscope data and the medical chart to the server (S307 and S308).

Next, in the second treatment management process, the patient has the input keywords such as patient name, treatment date, and stethoscope data number, and outputs and modifies the treatment chart and stethoscope data from the server through an SQL query statement (S401).

Data output, storage, and correction are performed with the chart number, patient name, treatment date, and stethoscope data number obtained through the self-search function in the patient's ID or program obtained through the remote medical treatment process (S402, S403). ).

In the final third visualization process, the stethoscope data is input, the waveform is output, and the stethoscope is reproduced by providing a stethoscope information (S501).

Upon receiving the requested stethoscope data or remotely stored stethoscope data stored in the server or the reference stethoscope data stored in the doctor's terminal, the corresponding stethoscope data is selected from two visualization output modules (S502, S503). ). Using this, the doctor can compare and determine the patient's condition based on the two types of stethoscope data.

As shown in Fig. 7 and Fig. 8, the process performed by the server according to the present invention is divided into a member registration and login process, reception and storage of stethoscope data, and database management.

First, the member registration and login processing is a process of transmitting a processing result to a client by checking a DB when a patient or doctor requests a member registration and login (S601).

In this process, when the client creates the corresponding item and requests approval for membership and login to the server, the server checks the request through the SQL query statement in the DB and creates the item or sends the client whether the user can log in ( S602).

Second, the stethoscope data reception and storage process is to receive the stethoscope data file recorded from the client and store it in the DB of the server.

Receiving auscultation data can be classified into two cases when a patient transmits a request for medical treatment and a doctor prepares a medical chart and transmits it to related data.

At this time, if the stethoscope data is received from the patient, it is not yet completed as the reference data of the medical chart. Therefore, the stethoscope data is stored in the temporary space. Since the data is completed, it is stored in the stethoscope data storage space in the server managed together with the stethoscope medical data information (S701, S702, S703).

Third, the database management process receives the requested keyword from the client and executes an SQL query statement and returns the result values such as patient information, medical information, and stethoscope data information to the requesting client.

As shown in FIG. 9, the database built in the server according to the present invention is used to systematically manage data such as stethoscope data, medical records, and personal information generated in the course of performing remote medical care. It is divided into medical chart, medical request, stethoscope medical data, patient and doctor information.

The table of Figure 9 is to connect the medical care request, auscultation medical data and information about the patient to comprehensively manage the medical records by chart number, the composition is chart number, medical date, auscultation data number, medical request number, and It consists of pseudo opinions.

Next, the second request chart table (RequestChart) is to manage the patient request information by connecting the patient information, the composition consists of the chart number, patient ID, request date, request file name, and whether the request processing .

Third, the Medical DataInfo table is used to manage the stethoscope data for each patient by connecting the patient information. The composition consists of data number, patient ID, measurement date, measuring part, and file name. do.

Lastly, the patient information table and the doctor information table are used to manage individual information of patients and doctors. The composition is composed of server login related information such as ID and password, and personal identification information.

In the proposed system based on the tables of the presented database, when a patient requests a remote medical treatment from a doctor, he / she makes a medical request through a server using a request chart and stethoscope data to which his personal information is connected. After receiving from the server, a request chart, a stethoscope data (MedicalDataInfo) and a patient information (Patient) is connected to create a chart to complete the medical chart information (Medical Chart) table.

Implementation and Results

As shown in Figure 10, the patient smartphone application is composed of a stethoscope and a remote medical care process, using a smart phone connected to the digital stethoscope recording the stethoscope sound, and shows the result of the visualization and playback of the stethoscope data generated through this.

First, as shown in FIG. 10 (a), in the process of recording a stethoscope sound, a portion to be measured is selected.

As shown in Fig. 10 (b), the recording button is pressed to start recording the stethoscope sound, and after the recording is completed, the playback button is pressed to provide the waveform and the sound of the stethoscope data.

 At this time, the stethoscope data recorded as shown in FIG. 10 (c) is managed as a list, and when two files are selected from this list, the waveform and sound are compared as shown in FIG. Can be compared.

FIG. 11 shows a process of confirming a request and a result of a patient's examination for a remote medical treatment. FIG. 11 (a) shows a process in which a patient creates a request chart and requests a doctor. FIG. Shows the screen to manage whether the doctor handled the requested chart in the form of a list. At this time, in the case where the doctor's treatment is completed, as shown in FIG.

Fig. 12 (a) shows the main interface of the doctor terminal software, which is composed of medical chart, visualization and telemedicine management modules.

First, the remote medical care module of FIG. 12 (a) obtains a list of patient's medical requests from a server and provides them to a doctor. The medical chart module outputs a selected item from a medical request list or a selected item through its own search function in a program ( ①).

When the doctor completes the treatment of the selected item, the doctor may write the result of the examination in the treatment chart (②) and upload it to the server.

Next, the visualization module takes the stethoscope data on the patient's medical request and provides the doctor with the waveform and sound (③).

In addition, the search function of the server database is implemented as a dialog window as shown in FIG.

10: Digital Stethoscope
20: patient smartphone
30: doctor terminal
100: Server

Claims (13)

A digital stethoscope for recording a stethoscope sound in a stethoscope process and digitally converting the stethoscope sound into a stethoscope sound to generate stethoscope data;
A smart phone for storing the generated stethoscope data together with information of the patient's name, measurement site, and measurement date;
A doctor terminal for accessing a server to check a medical request, receiving a requested stethoscope data, creating a medical chart and transmitting the medical chart to a server, and for performing a stethoscope for a remote patient;
Server for receiving medical request information using a request chart and a stethoscope data, and completing a medical chart information table by passing the request chart and stethoscope data.
The smart phone reads the stored stethoscope data into a visualization module, outputs a waveform graph, reproduces the sound, and provides the stethoscope information to the user. Along with the standard waveform, the stethoscope data is measured and output to compare the health status of the user. The doctor selects the desired data from the stethoscope data list, prepares a chart of the request, and remotely manages the doctor's terminal. When requesting, check whether the processing of the item requested by the patient through the medical record screen, and selects the item is completed the treatment of the doctor terminal for the request comprising a digital application comprising a patient application for checking the results of the examination Stethoscope-based remote medical examination smart healthcare system. The method of claim 1,
The database built in the server manages the data including a medical chart information table, a medical request chart table, and a medical stethoscope in order to systematically manage data including stethoscope data, medical records, and personal information generated in the course of performing remote medical care. Divided into data information table, patient information table, and doctor information table,
When the patient requests a remote medical treatment based on the tables, the patient requests medical treatment through the server using a request chart and stethoscope data to which his personal information is connected. Receives the request chart and the stethoscope data from the server, creates a medical chart connected with the request chart, the medical data and the patient information, and finally completes the medical chart information table. Digital stethoscope based remote stethoscope medical smart healthcare system. The method of claim 1,
The medical chart information table connects medical request, stethoscope medical data, and patient information to comprehensively manage medical records by chart number, chart number, medical date, stethoscope data number, medical request number, and doctor's opinion. Digital stethoscope based remote stethoscope medical healthcare system, characterized in that consisting of. The method of claim 1,
The request chart chart (RequestChart) is based on the digital stethoscope, characterized in that consisting of the chart number, patient ID, request date, request file name, and request processing information in order to manage the patient request information by connecting the patient information Telehealth care smart healthcare system. The method of claim 1,
The stethoscope medical data information (MedicalDataInfo) table is connected to the patient information to manage the stethoscope data for each patient, digital stethoscope characterized in that consisting of the data number, patient ID, measurement date, measurement site, and file name Based remote medical examination smart healthcare system. The method of claim 1,
The patient table and the doctor table are based on a digital stethoscope, which comprises server login-related information including personal ID and password, and personal identification information in order to manage personal information of the patient and the doctor. Remote Stethoscope Medical Smart Healthcare System Remote Stethoscope Medical Smart Healthcare System Based on Digital Stethoscope Generating stethoscope data through a digital stethoscope connected to a smart phone to record a stethoscope sound in the stethoscope process;
Storing the generated stethoscope data on the smartphone together with information of a patient name, a measurement site, and a measurement date;
Reading stethoscope data stored in a patient application installed in the smartphone into a visualization module, outputting a waveform graph, and reproducing the sound to provide stethoscope information to a user;
Comparing the health status of the user by outputting the previously measured stethoscope data along with the standard waveform of the stethoscope sound generated at the internal organs of the body according to the disease based on the current stethoscope data measured by the patient application of the smartphone;
Confirming a request for medical examination and a medical chart through a doctor terminal;
Digital stethoscope based remote stethoscope medical smart care method comprising the. The method of claim 7, wherein
Logging in to a server with an ID through the smartphone and selecting a data to be treated from a stethoscope data list stored in the smartphone to create a treatment request chart;
Requesting remote medical care from the doctor terminal using the prepared medical request chart;
Checking whether the item requested by the user is processed through the medical record screen through the smart phone, and checking an examination result by selecting an item for which the treatment is completed through the doctor terminal;
Digital stethoscope based remote stethoscope medical smart care method characterized in that it further comprises. The method of claim 7, wherein
Logging in to the server with an ID through the doctor terminal and checking whether there is a medical request of the patient;
Generating a medical chart for a patient by receiving patient information, medical request information, auscultation data information, and auscultation data from a server when a medical request is received through the smart phone;
Outputting and reproducing the waveform and sound of the stethoscope data received from the server through the visualization module to the doctor terminal;
Performing a medical examination through listening and analysis of the stethoscope data output to the doctor terminal, creating a medical chart, and uploading the stethoscope data and the medical chart to the server;
Digital stethoscope based remote stethoscope medical smart care method characterized in that it further comprises. The method of claim 7, wherein
Bringing the corresponding medical chart and the stethoscope data from the server through an SQL query statement with an input keyword including a patient name, a treatment date, and a stethoscope data number to the doctor terminal;
Outputting, storing, and modifying data by a chart number, a patient name, a treatment date, and a stethoscope data number obtained through a self-search function in a corresponding patient ID or program obtained by performing a remote medical treatment by the doctor terminal;
A visualization step of receiving the stethoscope data and outputting the waveform and reproducing a sound source to provide stethoscope information to a doctor terminal;
Digital stethoscope based remote stethoscope medical smart care method characterized in that it further comprises. The method of claim 7, wherein
Receiving the requested stethoscope data or the stethoscope data stored in the server, or the reference stethoscope data stored from the doctor terminal at the time of remote medical care, and outputting the corresponding stethoscope data by selecting a module to output from two visualization output modules Wow;
Comparing and determining a state of a patient through the doctor terminal based on the stethoscope data;
Digital stethoscope based remote stethoscope medical smart care method characterized in that it further comprises. The method of claim 7, wherein
A registration and login processing step of transmitting a processing result to a client by checking a DB when a member registration and login request is made through the smart phone or a doctor terminal;
After the client creates the corresponding item through the smartphone and requests an approval for membership registration and login to the server, the server checks the request through an SQL query statement in the DB to create an item or log in to the client. A step of;
Receiving and storing the stethoscope data file recorded from the client and stored in a DB of the server;
Digital stethoscope based remote stethoscope medical smart care method characterized in that it further comprises. The method of claim 7, wherein
Storing the stethoscope data in a temporary space when receiving the stethoscope data from the smartphone, and storing the stethoscope data in the stethoscope data storage space in the server when receiving the stethoscope data from the doctor terminal;
Receiving a keyword requested from a smartphone or a doctor terminal from the client and returning a result value including patient information, medical care information, and stethoscope data information obtained by performing an SQL query statement to the requesting client;
Digital stethoscope based remote stethoscope medical smart care method characterized in that it further comprises.

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