CN111193158A

CN111193158A - Electrode plate connecting mobile phone interface device and application method thereof

Info

Publication number: CN111193158A
Application number: CN202010121868.2A
Authority: CN
Inventors: 武涛; 刘建宇; 王雯雯
Original assignee: Lepu Zhixin Tianjin Medical Equipment Co ltd
Current assignee: SHENZHEN VIATOM TECHNOLOGY CO LTD
Priority date: 2020-02-26
Filing date: 2020-02-26
Publication date: 2020-05-22
Anticipated expiration: 2040-02-26
Also published as: CN111193158B

Abstract

The invention provides an electrode plate connection mobile phone interface device and an application method thereof, wherein the electrode plate connection mobile phone interface device comprises an adapter, one end of the adapter is connected with a mobile terminal, the other end of the adapter is provided with an adapter cable, the extending end of the adapter cable is connected with a first conversion connector, the first conversion connector is provided with a second conversion connector in an inserted manner, the second conversion connector is electrically connected with a patch type electrocardio monitor, the patch type electrocardio monitor comprises an MCU module, and the second conversion connector realizes data interconnection between the mobile terminal and the MCU module through an OTG module. The mobile terminal is connected with the conversion head, so that power supply and data transmission can be directly realized for the surface-mounted type electrocardioscanner, the surface-mounted type electrocardiomonitor can be used without an external power supply, the limitation of the power supply and space regions is not limited, the application range of the surface-mounted type electrocardiomonitor is expanded, and the portability and the simplicity of use and operation of a user are improved.

Description

Electrode plate connecting mobile phone interface device and application method thereof

Technical Field

The invention relates to the technical field of mobile phone interfaces, in particular to an electrode plate connecting mobile phone interface device and an application method thereof.

Background

The AI-ECG electrocardiogram analyzer can be matched with a mobile phone terminal and a server to produce an electrocardiogram report in real time, the accuracy is high, the analysis is quick, the waiting time of a user is saved, and the monitoring is more timely. In addition, the user can select a short-time electrocardio real-time analysis mode or an electrocardio long-time analysis mode according to actual needs, the electrocardiosignals are monitored in real time or in real time, the equipment acquires good signals, the artificial intelligence electrocardio analysis is rapid and accurate, the use process is convenient and simple, and the method is beneficial to the public to carry out abnormal screening and self-monitoring of the electrocardio.

The conventional electrocardio monitor can be used only by an external power supply or a built-in power supply, the electrocardio monitor cannot be normally used under the condition that a socket is lacked in the surrounding environment or a built-in battery is not electrified, because the patch electrocardio monitor cannot complete electrocardio monitoring at any time and any place, the use of the patch electrocardio monitor is limited by space conditions and the electric quantity of a standby battery of the electrocardio monitor, the use is inconvenient, the mobile phone of people is not away at present, electronic products such as the mobile phone are used at high frequency, if the electronic products and the electrocardio monitor are subjected to functional expansion and fusion by utilizing reasonable advantage complementation, the actual application range of the electrocardio monitor can be widened, the use efficiency of the electrocardio monitor is improved, and therefore wider support and better service can be provided for the life and the body health of people.

Disclosure of Invention

In view of the above, the present invention provides an electrode sheet connecting mobile phone interface device and an application method thereof.

In order to solve the technical problems, the invention adopts the technical scheme that: the utility model provides an electrode slice connection cell-phone interface device, includes the adapter, the one end of adapter even has mobile terminal, the other end of adapter is provided with the adapter cable, the extension end of adapter cable is connected with first conversion connector, first conversion connector is pegged graft and is provided with second conversion connector, second conversion connector electric connection has SMD electrocardio monitor, SMD electrocardio monitor includes the MCU module, the second conversion connector passes through the OTG module and realizes mobile terminal with data interconnection between the MCU module.

In the present invention, preferably, the patch type electrocardiograph further includes a signal conversion module, a signal processing module, and an electrocardiograph electrode, the signal conversion module is electrically connected to the MCU, the signal processing module is electrically connected to the signal conversion module, the electrocardiograph electrode is electrically connected to the signal processing module, the electrocardiograph electrode is configured to collect an electrocardiograph signal of a user and transmit the signal to the signal processing module, the signal processing module is configured to perform signal filtering on the electrocardiograph signal of the user, the electrocardiograph signal is converted into an electrical signal that can be recognized by the MCU module through the signal conversion module and then transmitted to the MCU module, and the MCU module is configured to analyze and calculate data.

In the invention, preferably, the patch type electrocardiograph further comprises a display, the display is electrically connected with the MCU module, and the display is used for displaying the operating condition of the patch type electrocardiograph.

In the present invention, preferably, the mobile terminal is connected to an electrocardiograph by calling a server, and the electrocardiograph is an AI-ECG electrocardiograph.

In the invention, preferably, a projection is fixedly arranged at an end of the second conversion connector, a groove is formed in the first conversion connector, and the size of the groove is matched with that of the projection.

In the present invention, preferably, the mobile terminal is any one of a smart phone adopting an Android operating system, a tablet computer adopting the Android operating system, or a PC adopting the Android operating system.

In the invention, preferably, the adapter and the first conversion connector are both provided with five-pin wiring terminals, the ID end of the adapter is connected with GND, and the ID end of the first conversion connector is suspended.

An application method of an electrode plate connected with a mobile phone interface device comprises the following steps:

step S1), a first conversion connector and a second conversion connector are plugged in the mobile terminal, the mobile terminal is used for supplying power to the patch type electrocardioscanner and is connected with the patch type electrocardioscanner, and a human-computer interaction interface of the mobile terminal prompts that the patch type electrocardiomonitor is successfully connected as an external memory;

step S2), the user wears the patch type electrocardioscanner, and the electrocardio-electrode collects electrocardiosignals of the user;

step S3), the mobile terminal receives the electrocardiogram data in real time through the APP and displays the electrocardiogram;

step S4) the user selects whether to provide the short-time report by clicking the operation interface of the mobile terminal, the mobile terminal enters the electrocardio analysis mode, and the user selects the short-time electrocardio real-time analysis mode or/and the electrocardio long-time analysis mode by clicking the operation interface of the mobile terminal.

In the present invention, preferably, the short-time electrocardiographic real-time analysis mode includes the following steps:

step T1) the mobile terminal uploads the short-time electrocardiogram data to the server;

step T2) the server calls AI-ECG to carry out electrocardio analysis and obtains the analysis result;

step T3) the server returns the analysis result to the mobile terminal;

step T4) the user makes a report view through the APP application of the mobile terminal.

In the present invention, preferably, the cardiac long-term analysis mode includes the following steps:

step R1), the surface mount type electrocardioscanner stops electrocardio signal collection and transmits the electrocardio signal to the mobile terminal through the OTG module;

step R2) the mobile terminal uploads the complete electrocardiogram data to the server;

step R3) the server calls AI-ECG to carry out electrocardio analysis and obtains an analysis result;

step R4) the server returns the analysis result to the mobile terminal;

step R5) the user makes a report view through the APP application of the mobile terminal.

The invention has the advantages and positive effects that:

(1) the mobile terminal is connected with the conversion head to directly supply power and transmit data to the surface-mounted type electrocardioscanner, and the surface-mounted type electrocardiomonitor can be used without an external power supply, so that the electrocardiomonitor can be used anytime and anywhere without being limited by a power supply and a space region, the application range of the surface-mounted type electrocardiomonitor is expanded, and the portability and the simplicity of use and operation of a user are improved.

(2) The AI-ECG analyzer is matched with the mobile phone terminal and the server to immediately produce the ECG report, so that the accuracy is high, the analysis is quick, the waiting time of a user is saved, and the monitoring is more timely. In addition, the user can select a short-time electrocardio real-time analysis mode or an electrocardio long-time analysis mode according to actual needs, the electrocardiosignals are monitored in real time or in real time, the equipment acquires good signals, the artificial intelligence electrocardio analysis is rapid and accurate, the use process is convenient and simple, and the method is beneficial to the public to carry out abnormal screening and self-monitoring of the electrocardio.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is an overall structure of an electrode sheet connecting mobile phone interface device of the present invention;

fig. 2 is a schematic structural view of a connection terminal of an adapter of an electrode plate connection mobile phone interface device according to the present invention;

fig. 3 is a schematic structural diagram of a connection terminal of a first conversion connector of an electrode plate connection mobile phone interface device according to the present invention;

FIG. 4 is a flow chart of a short-time ECG real-time analysis mode of the electrode pad-connected cell phone interface device application method of the present invention;

fig. 5 is a flowchart of an application method of the electrode plate connected mobile phone interface device in the long-term cardiac electrical analysis mode according to the present invention.

In the figure: 1. an adapter; 2. a mobile terminal; 3. a cable of the adapter; 4. a first conversion connector; 5. a second switching connector; 51. a bump; 6. a surface mount type electrocardiogram monitor; 61. an MCU module; 62. a signal conversion module; 63. a signal processing module; 64. an electrocardio-electrode; 65. a display; 7. an OTG module; 8. a server; 9. an electrocardiogram analyzer.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When a component is referred to as being "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When a component is referred to as being "disposed on" another component, it can be directly on the other component or intervening components may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

As shown in fig. 1 to 5, the invention provides an electrode plate connection mobile phone interface device, which comprises an adapter 1, wherein one end of the adapter 1 is connected with a mobile terminal 2, the other end of the adapter 1 is provided with a cable of the adapter 1, the extending end of the cable of the adapter 1 is connected with a first conversion connector 4, the first conversion connector 4 is provided with a second conversion connector 5 in an inserted manner, the second conversion connector 5 is electrically connected with a patch type electrocardiogram monitor 6, the patch type electrocardiogram monitor 6 comprises an MCU module 61, and the second conversion connector 5 realizes data interconnection between the mobile terminal 2 and the MCU module 61 through an OTG module 7.

In the present invention, preferably, the patch type electrocardiograph 6 further includes a signal conversion module 62, a signal processing module 63, and an electrocardiograph electrode 64, the signal conversion module 62 is electrically connected to the MCU, the signal processing module 63 is electrically connected to the signal conversion module 62, the electrocardiograph electrode 64 is electrically connected to the signal processing module 63, the electrocardiograph electrode 64 is configured to collect an electrocardiograph signal of a user and transmit the signal to the signal processing module 63, the signal processing module 63 is configured to filter the electrocardiograph signal of the user, the electrocardiograph signal is converted into an electrical signal that can be recognized by the MCU module 61 through the signal conversion module 62 and then transmitted to the MCU module 61, and the MCU module 61 is configured to analyze and calculate data.

In this embodiment, the patch type electrocardiograph 6 further includes a display 65, the display 65 is electrically connected to the MCU module 61, and the display 65 is configured to show an operating status of the patch type electrocardiograph 6.

In the embodiment, further, the mobile terminal 2 is connected with an electrocardiogram analyzer 9 through the call server 8, and the electrocardiogram analyzer 9 is an AI-ECG electrocardiogram analyzer 9.

In this embodiment, further, a protrusion 51 is fixedly disposed at an end of the second conversion connector 5, and a groove is formed in the first conversion connector, and a size of the groove matches a size of the protrusion 51.

In this embodiment, the mobile terminal 2 is any one of a smartphone adopting an Android operating system, a tablet computer adopting the Android operating system, or a PC adopting the Android operating system.

In this embodiment, further, the adapter 1 and the first conversion connector 4 are both configured as five-pin connection terminals, the ID of the adapter 1 is connected to GND, and the ID of the first conversion connector 4 is suspended.

step S1), the adapter 1 and the mobile terminal 2 are spliced, the first conversion connector 4 and the second conversion connector 5 are spliced so that the mobile terminal 2 supplies power to the patch type electrocardioscanner 6, the mobile terminal 2 is connected with the patch type electrocardioscanner 6, and the human-computer interaction interface of the mobile terminal 2 prompts that the patch type electrocardioscanner 6 is successfully connected as an external memory;

step S2), the user wears the patch type electrocardioscanner 6, and the electrocardio-electrode 64 collects electrocardiosignals of the user;

step S3), the mobile terminal 2 receives the electrocardiogram data in real time through the APP and displays the electrocardiogram;

step S4) the user selects whether to issue the short-time report by clicking the operation interface of the mobile terminal 2, the mobile terminal 2 enters the electrocardio analysis mode, and the user selects the short-time electrocardio real-time analysis mode or/and the electrocardio long-time analysis mode by clicking the operation interface of the mobile terminal 2.

In this embodiment, further, the short-time electrocardiographic real-time analysis mode includes the following steps:

step T1), the mobile terminal 2 uploads the short-time electrocardiogram data to the server 8;

step T2) the server 8 calls AI-ECG to carry out electrocardio analysis and obtain the analysis result;

step T3) the server 8 returns the analysis result to the mobile terminal 2;

step T4) the user makes a report view through the APP application of the mobile terminal 2.

In this embodiment, the cardiac long-term analysis mode further includes the following steps:

step R1), the patch type electrocardioscanner 6 stops electrocardiosignal acquisition and transmits the electrocardiosignal to the mobile terminal 2 through the OTG module 7;

step R2) the mobile terminal 2 uploads the complete electrocardiogram data to the server 8;

step R3) the server 8 calls AI-ECG to carry out electrocardio analysis and obtain the analysis result;

step R4) the server 8 returns the analysis result to the mobile terminal 2;

step R5) the user makes a report view through the APP application of the mobile terminal 2.

The working principle and the working process of the invention are as follows: when the device is used, a user firstly inserts the adapter 1 and the mobile terminal 2, the first conversion connector 4 and the second conversion connector 5 are inserted, the mobile terminal 2 supplies power to the surface-mounted electrocardiogram monitor 6, the man-machine interaction interface of the mobile terminal 2 prompts the surface-mounted electrocardiogram monitor 6 to be successfully connected as an external memory, the surface mobile terminal 2 and the surface-mounted electrocardiogram monitor 6 are completely connected, the user wears the surface-mounted electrocardiogram monitor 6, the electrocardio electrode 64 acquires electrocardiosignals of the user and transmits the electrocardiosignals to the signal processing module 63, the signals are subjected to a filtering process through the signal processing module 63, interference signals are filtered and removed, the signal conversion module 62 is electrically connected with the signal processing module 63, the electrocardio signals after being filtered can be converted into electric signals which can be identified by the MCU module 61, the converted electric signals reach the MCU module 61 and the calculation and analysis processes of the electrocardio data are completed through the MCU module 61, the display 65 is used for displaying the running state of the patch type electrocardioscanner 6, then the MCU module 61 transmits the processed electrocardio data to the APP of the mobile terminal 2 through the OTG module 7, the mobile terminal 2 calls the server 8 to issue an electrocardio analysis command to the electrocardio analyzer 9, so that the electrocardio analyzer 9 connected with the server 8 starts electrocardio analysis work, the electrocardio analyzer 9 immediately generates an electrocardio report, a user can check or download the electrocardio report in time through the APP of the mobile terminal 2, the advantages of high accuracy and rapid analysis are achieved, the waiting time of the user is saved, the timeliness of the electrocardio monitoring is improved, the server 8 is provided with user registration service, system monitoring and electrocardio report service, and particularly, the user registration service is responsible for providing registration and registration service for App users, which is required operation before the user uses, the system monitoring is responsible for internal monitoring of the running condition of the whole server 8 to ensure that the server 8 works normally, and the electrocardio report service is responsible for providing electrocardio analysis and report issuing functions for users.

The process of the short-time electrocardio real-time analysis mode can be seen in an attached drawing 4, firstly, a user pastes the patch type electrocardioscanner 6 to the front of the left chest, the electrocardio electrode 64 collects electrocardiosignals of the user, the patch type electrocardioscanner 6 can transmit the collected electrocardio data to the mobile terminal 2 in real time, the APP interface displays a real-time electrocardiogram, and the user can see a waveform diagram and current heart rate information. And displaying the heart rate as the average estimation of the heart rate of a period of time before the current time point, and realizing the heart rate detection by adopting a qrs wave identification algorithm and a heart rate calculation formula. The qrs wave detection is a detection method based on a slope threshold, and waveform identification and r wave determination are performed by calculating the slope of each point value and setting a fixed threshold. The formula for calculating heart rate is: heart rate (bpm) is 60/rr interval(s). The user selects whether to provide the short-time report or not by clicking the operation interface of the mobile terminal 2, the mobile terminal 2 enters the electrocardiogram analysis mode, and the user selects the short-time electrocardiogram real-time analysis mode by clicking the operation interface of the mobile terminal 2 to analyze a section of electrocardiogram in a short time. Real-time analysis provides several analyses for different lengths of time: 5 minutes, 10 minutes and 15 minutes, after the analysis time length is determined, the mobile terminal 2 uploads short-time electrocardiogram data to the server 8, the AI-ECG electrocardiogram analysis service is called through the server 8 to complete electrocardiogram analysis, the server 8 returns an analysis result to an APP (application) of the mobile terminal 2, and the end user performs report checking through the APP.

The process of the electrocardiogram analysis mode can be seen in fig. 5, a user wears the patch type electrocardiogram monitor 6, the electrocardiogram electrode 64 collects electrocardiogram information, after the wearing is finished, the user opens an APP application program of the mobile terminal 2, an electrocardiogram analysis mode option card appears on a man-machine interaction interface, the user selects the electrocardiogram long-time analysis mode by clicking an operation interface of the mobile terminal 2, the patch type electrocardiogram monitor 6 stops the collection of electrocardiogram signals and transmits all data to the mobile terminal 2 through the OTG module 7 after receiving an instruction of the electrocardiogram long-time analysis mode, the mobile terminal 2 synchronously uploads the complete electrocardiogram data to the server 8, the server 8 calls an AI-ECG electrocardiogram analysis service to complete the electrocardiogram analysis, the electrocardiogram analysis adopts an AI-ECG electrocardiogram automatic analysis algorithm, and performs feature recognition on electrocardiogram waveforms through an artificial intelligent convolutional neural network model, And interference identification and heart beat classification, the server 8 returns the analysis result to the mobile terminal 2 in a report form, the analysis result is displayed through the APP, and the end user performs report viewing or downloading through the APP.

On one hand, the mobile terminal 2 is connected with the conversion head to directly supply power and transmit data to the surface-mounted electrocardiogram monitor 6, and the surface-mounted electrocardiogram monitor 6 can be used without an external power supply, so that the use of the electrocardiogram monitor can be used anytime and anywhere, the limitation of the power supply and space and region is avoided, the application range of the surface-mounted electrocardiogram monitor 6 is expanded, and the portability and the simplicity of use and operation of a user are improved; on the other hand, the AI-ECG analyzer 9 is matched with the mobile terminal 2 and the server 8 to immediately produce the ECG report, so that the accuracy is high, the analysis is quick, the waiting time of a user is saved, and the monitoring is more timely. In addition, the user can select a short-time electrocardio real-time analysis mode or an electrocardio long-time analysis mode according to actual needs, the electrocardiosignals are monitored in real time or in real time, the equipment acquires good signals, the artificial intelligence electrocardio analysis is rapid and accurate, the use process is convenient and simple, and the method is beneficial to the public to carry out abnormal screening and self-monitoring of the electrocardio.

The embodiments of the present invention have been described in detail, but the present invention is only the preferred embodiments of the present invention, and is not to be considered as limiting the scope of the present invention. All equivalent changes and modifications made within the scope of the present invention should be covered by the present patent.

Claims

1. The utility model provides an electrode slice connection cell-phone interface arrangement, a serial communication port, including adapter (1), the one end of adapter (1) even has mobile terminal (2), the other end of adapter (1) is provided with adapter (1) cable, the extension end of adapter (1) cable is connected with first conversion connector (4), first conversion connector (4) are pegged graft and are provided with second conversion connector (5), second conversion connector (5) electric connection has SMD electrocardio monitor (6), SMD electrocardio monitor (6) include MCU module (61), second conversion connector (5) are realized through OTG module (7) mobile terminal (2) with data interconnection between MCU module (61).

2. The electrode slice connecting mobile phone interface device according to claim 1, wherein the patch type electrocardiograph (6) further comprises a signal conversion module (62), a signal processing module (63) and an electrocardiograph electrode (64), the signal conversion module (62) is electrically connected with the MCU, the signal processing module (63) is electrically connected with the signal conversion module (62), the electrocardiograph electrode (64) is electrically connected with the signal processing module (63), the electrocardiograph electrode (64) is used for collecting electrocardiograph signals of a user and transmitting the signals to the signal processing module (63), the signal processing module (63) is used for filtering the electrocardiograph signals of the user, the electrocardiograph signals are converted into electrical signals which can be identified by the MCU module (61) through the signal conversion module (62) and then transmitted to the MCU module (61), the MCU module (61) is used for data analysis and operation.

3. The electrode plate connecting mobile phone interface device according to claim 1, wherein the patch type electrocardiograph (6) further comprises a display (65), the display (65) is electrically connected with the MCU module (61), and the display (65) is used for displaying the running state of the patch type electrocardiograph (6).

4. Electrode slice connecting handset interface device according to claim 1, characterized in that the mobile terminal (2) is connected with an electrocardiogram analyzer (9) by calling a server (8), and the electrocardiogram analyzer (9) is an AI-ECG electrocardiogram analyzer (9).

5. The electrode sheet connecting mobile phone interface device according to claim 1, wherein a protrusion (51) is fixedly arranged at an end of the second conversion connector (5), the first conversion connector is provided with a groove, and the size of the groove is matched with that of the protrusion (51).

6. Electrode pad connecting mobile phone interface device according to claim 1, wherein the mobile terminal (2) is any one of a smart phone using Android operating system, a tablet computer using Android operating system, or a PC using Android operating system.

7. The electrode slice connecting mobile phone interface device as claimed in claim 1, wherein the adapter (1) and the first converting connector (4) are both configured as five-pin terminals, the ID terminal of the adapter (1) is connected to GND, and the ID terminal of the first converting connector (4) is suspended.

8. An application method of an electrode plate connected with a mobile phone interface device is characterized in that the application method adopts the electrode plate as defined in any one of claims 1 to 7 to connect with the mobile phone interface device, and the application method comprises the following steps:

step S1), the adapter (1) and the mobile terminal (2) are plugged, the first conversion connector (4) and the second conversion connector (5) are plugged, so that the mobile terminal (2) supplies power to the patch type electrocardioscanner (6), the mobile terminal (2) is connected with the patch type electrocardioscanner (6), and the human-computer interaction interface of the mobile terminal (2) prompts that the patch type electrocardioscanner (6) is successfully connected as an external memory;

step S2), the user wears the patch type electrocardioscanner (6), and the electrocardio-electrode (64) collects electrocardiosignals of the user;

step S3), the mobile terminal (2) receives the electrocardiogram data in real time through the APP and displays the electrocardiogram;

step S4) the user clicks the operation interface of the mobile terminal (2) to select whether to issue the short-time report, the mobile terminal (2) enters the electrocardio analysis mode, and the user clicks the operation interface of the mobile terminal (2) to select the short-time electrocardio real-time analysis mode or/and the electrocardio long-time analysis mode.

9. The application method of the electrode plate connecting mobile phone interface device as claimed in claim 8, wherein the short-time electrocardio real-time analysis mode comprises the following steps:

step T1), the mobile terminal (2) uploads the short-time electrocardio data to the server (8);

step T2), the server (8) calls AI-ECG to carry out electrocardio analysis and obtain an analysis result;

step T3), the server (8) returns the analysis result to the mobile terminal (2);

step T4) the user makes a report check through the APP application of the mobile terminal (2).

10. The application method of the electrode plate connecting mobile phone interface device as claimed in claim 8, wherein the electrocardio-long-time analysis mode comprises the following steps:

step R1), the surface mount type electrocardioscanner (6) stops electrocardiosignal acquisition and transmits the electrocardiosignal to the mobile terminal (2) through the OTG module (7);

step R2), the mobile terminal (2) uploads the complete electrocardiogram data to the server (8);

step R3) the server (8) calls AI-ECG to carry out electrocardio analysis and obtain an analysis result;

step R4), the server (8) returns the analysis result to the mobile terminal (2);

step R5) the user makes a report check through the APP application of the mobile terminal (2).