KR20150101892A - Electrocardiography measuring system and the measuring method - Google Patents

Abstract

The present invention can measure electrocardiography in real time through an electrocardiography measuring app downloaded from a mobile terminal and a wearable electrocardiography measuring device, analyzes electrocardiography data measured in real time, and monitors the same. Therefore, a user can easily and quickly check his/her conditions. The user can cope with emergency and arrhythmia in advance. Also, because the user does not need to go to hospital, electrocardiography measurement and diagnosis can be carried out without the limit of time and place. Convenience can be improved. Cost can be reduced.

Description

[0001] Electrocardiography measuring system and measuring method [

The present invention relates to a system and method for measuring electrocardiogram (ECG), and more particularly, to a system and method for measuring ECG capable of early diagnosis because an ECG can be confirmed in real time.

Electrocardiogram (ECG) is the most commonly used test for the diagnosis of cardiovascular disease. Electrocardiogram (ECG) is most commonly used for the diagnosis of arrhythmia and coronary artery disease. If an arrhythmia occurs intermittently, it is not possible to diagnose an arrhythmia by a single ECG examination. Therefore, it is useful to obtain an ECG recorded during daily life. To do this, there are holter records that continuously record electrocardiograms for a certain period of time, and event recording electrocardiograms that record only when events occur for a long period of time.

The conventional method of inspecting an electrocardiogram (ECG) is a method in which an electrode or a sensor is directly attached to a body, and therefore, there is a sense of discomfort when attached to a body and there is a problem in that there is a limitation in free daily life. In addition, since the electrocardiogram must be measured by visiting a hospital or hospitalized, there is a problem that time and place are constrained.

Korean Patent No. 10-0695152

An object of the present invention is to provide an electrocardiogram measuring system and method capable of performing an early diagnosis by allowing easy measurement of an electrocardiogram in real time.

The wearable electrocardiogram measuring apparatus includes: a wearable electrocardiograph measuring device for measuring an electrocardiogram measured by wearing the wearable electrocardiogram measuring device; and an electrocardiogram measuring device for measuring the electrocardiogram measured by the wearable electrocardiograph measuring device, A mobile terminal for receiving the electrocardiogram measurement signal from the data communication unit and installing an electrocardiogram app for controlling the wearable electrocardiograph measurement device; And a data management unit for receiving the electrocardiogram measurement signal through one of the electrocardiogram signals, processing the electrocardiogram measurement signal into electrocardiogram data and analyzing the electrocardiogram data, and diagnosing the state of the body and the abnormality.

According to another aspect of the present invention, there is provided an electrocardiogram measuring system comprising: a wearable electrocardiograph measuring device for measuring an electrocardiogram measured by wearing a wearable electrocardiogram measuring device; The wearable electrocardiogram measuring device receives the electrocardiogram measurement signal from the data communication unit, controls the wearable electrocardiograph measuring device, processes the electrocardiogram measurement signal into electrocardiogram data, analyzes the electrocardiogram data, And a mobile terminal in which an electrocardiogram app for diagnosing an abnormality is installed.

According to another aspect of the present invention, there is provided an electrocardiogram measuring system comprising: a wearable electrocardiogram measuring device for measuring an electrocardiogram measured by wearing a wearable electrocardiogram measuring device; And a data management unit for receiving the electrocardiogram measurement signal from the data communication unit, processing the electrocardiogram measurement signal into electrocardiogram data, analyzing the electrocardiogram data, and diagnosing the state of the body and the abnormality according to the electrocardiogram data, And a mobile terminal equipped with an electrocardiogram app for receiving and displaying the status of the body diagnosed by the data management unit and an abnormality status through either the wireless communication or the network.

A method for measuring electrocardiogram according to the present invention comprises the steps of: the mobile terminal downloads and executes an electrocardiogram app for controlling a wearable electrocardiograph measuring device; and the wearable electrocardiograph measuring device measures and measures a body electrocardiogram The method comprising: transmitting a signal to the mobile terminal via at least one of wireless communication and a network; receiving the measurement signal and displaying the measurement signal on at least one of the wireless communication and the network; And the data management unit receives the electrocardiogram measurement signal, processes the electrocardiogram measurement signal into electrocardiogram data and analyzes the electrocardiogram data, and diagnoses the state of the body and the abnormality according to the processed electrocardiogram data.

According to another aspect of the present invention, there is provided a method for measuring an electrocardiogram, the method comprising: downloading and executing an electrocardiogram app for controlling a wearable electrocardiograph measurement device by a mobile terminal; and measuring the electrocardiogram of a body according to a signal of the electrocardiogram app And transmitting the measurement signal to the mobile terminal through at least one of wireless communication and a network; and the electrocardiogram app interprets the electrocardiogram measurement signal as electrocardiogram data and analyzes the state and abnormality of the body accordingly , And displaying the diagnosis contents.

According to another aspect of the present invention, there is provided a method for measuring an electrocardiogram, the method comprising: downloading and executing an electrocardiogram app for controlling a wearable electrocardiograph measurement device by a mobile terminal; and measuring the electrocardiogram of a body according to a signal of the electrocardiogram app And transmitting the measurement signal to at least one of the wireless communication and the network to the data management unit. The data management unit receives the electrocardiogram measurement signal, processes the electrocardiogram measurement signal into electrocardiogram data, analyzes the electrocardiogram data, Diagnosing a state and an abnormality and transmitting the diagnosis to the mobile terminal via at least one of the wireless communication and the network; and displaying the state of the body and the abnormality of the electrocardiogram app.

An electrocardiogram measuring system according to the present invention is provided with a wearable electrocardiograph measuring device for measuring an electrocardiogram worn on the body and an electrocardiogram measuring app for controlling the wearable electrocardiograph measuring device, and the electrocardiogram measuring signal measured by the wearable electrocardiograph measuring device And a data management unit for receiving the electrocardiogram measurement signal through the network from the mobile terminal, processing the electrocardiogram data and analyzing the electrocardiogram data, and diagnosing the state of the body and the abnormality according to the received electrocardiogram data.

According to another aspect of the present invention, there is provided an electrocardiogram measuring system comprising: a wearable electrocardiograph measuring device for measuring an electrocardiogram worn on a body; and an electrocardiogram measuring app for controlling the wearable electrocardiograph measuring device, wherein the electrocardiogram measured by the wearable electrocardiograph And a mobile terminal for receiving a measurement signal by wireless communication and comparing the electrocardiogram measurement signal with a previously stored electrocardiogram database to diagnose a state of the body and an abnormality.

A method for measuring electrocardiogram according to the present invention comprises the steps of: downloading and executing an electrocardiogram measuring app for controlling a wearable electrocardiograph measuring device by a mobile terminal; and measuring the electrocardiogram of a body according to a signal of the electrocardiogram measuring appara- tus Transmitting a measurement signal to the mobile terminal via wireless communication, receiving the measurement signal from the mobile terminal and transmitting the measurement signal to the data manager via the network, Receiving the electrocardiogram measurement signal, processing the electrocardiogram measurement signal into electrocardiogram data and analyzing the electrocardiogram data, and diagnosing the condition and abnormality of the body accordingly.

According to another aspect of the present invention, there is provided a system for measuring electrocardiogram (ECG), comprising: a wearable electrocardiogram measuring device for measuring an electrocardiogram (ECG) by being worn on a body; an electrocardiogram measuring app for receiving signals via the wearable electrocardiogram measuring device and a first wireless communication network; A mobile terminal for receiving the electrocardiogram measurement signal measured by the wearable electrocardiogram measurement device through the electrocardiogram measurement app; and a controller for receiving the electrocardiogram measurement signal from the electrocardiogram measurement app via the second wireless communication network, And a data management unit for diagnosing the state of the body and the abnormality based on the information.

According to another aspect of the present invention, there is provided a system for measuring electrocardiogram, comprising: a wearable electrocardiogram measuring device for measuring an electrocardiogram (ECG) by being worn on a body; and an electrocardiogram measuring app for receiving signals from the wearable electrocardiogram measuring device and a wireless communication network, And a mobile terminal for receiving an electrocardiogram measurement signal measured by the wearable electrocardiogram measuring device through a measurement app and comparing the electrocardiogram measurement signal with a previously stored electrocardiogram database to diagnose a state of the body and an abnormality.

According to another aspect of the present invention, there is provided a system for measuring electrocardiogram, comprising: a mobile terminal for downloading and executing an electrocardiogram measurement app; and a wearable electrocardiogram measuring device for measuring electrocardiogram of a body according to a signal of the electrocardiogram measurement app, Transmitting the measurement signal through the first wireless communication network to the mobile terminal, displaying the measurement signal on the electrocardiogram measuring app of the mobile terminal and transmitting the measurement signal to the data manager through the second wireless communication network, The data management unit receives the electrocardiogram measurement signal, processes the electrocardiogram measurement signal into electrocardiogram data, and analyzes the electrocardiogram data to diagnose the condition of the body and the abnormality.

Since the electrocardiogram can be measured in real time through the wearable electrocardiograph measuring device and the electrocardiogram app of the mobile terminal and the electrocardiogram data measured in real time can be analyzed and monitored after diagnosis, So that it is possible to prevent an emergency situation and arrhythmia in advance.

In addition, since there is no need to visit a hospital, it is possible to measure and diagnose an electrocardiogram without restriction on time and place, and there is an advantage that convenience can be improved and cost can be reduced.

1 is a diagram showing a schematic configuration of an electrocardiogram measurement system according to a first embodiment of the present invention.
FIG. 2 is a flowchart showing a measurement method of the electrocardiogram measurement system shown in FIG. 1. FIG.
3 is a diagram showing a schematic configuration of an electrocardiogram measurement system according to a second embodiment of the present invention.
4 is a flowchart showing a measurement method of the electrocardiogram measurement system shown in FIG.
FIG. 5 is a diagram showing a schematic configuration of an electrocardiogram measurement system according to a third embodiment of the present invention.
FIG. 6 is a flowchart showing a measurement method of the electrocardiogram measurement system shown in FIG.
FIG. 7 is a diagram showing a schematic configuration of an electrocardiogram measurement system according to a fourth embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram showing a schematic configuration of an electrocardiogram measurement system according to a first embodiment of the present invention.

1, an electrocardiogram measuring system according to a first embodiment of the present invention includes a user 2, a wearable electrocardiogram (ECG) measuring apparatus 10, a data communication unit 12, a mobile terminal 20, a communication company 30, and a data management unit 40.

The user 2 is a person who has symptoms of atrial fibrillation or other arrhythmia or a patient who needs to check an electrocardiogram in real time and who has been prescribed the wearable electrocardiograph 10 from a medical institution 44 to be described later .

The wearable electrocardiograph measuring apparatus 10 has a form that can be attached to clothes or clothes that the user 2 can wear such as can be worn in daily life. The wearable electrocardiograph measuring device 10 is divided into a female and a male, and the female and male sizes of the wearable electrocardiogram measuring device 10 are each made small, medium and large. The wearable electrocardiogram measuring apparatus 10 is equipped with a small electrocardiograph sensor and applies 3 to 12 lead channels for the measurement accuracy. The wearable electrocardiograph measuring apparatus 10 includes a power indicator (not shown) for displaying a power source or a battery status, a backup power source (not shown) capable of operating for a predetermined period of time when a discharge or main power supply is interrupted, And a data communication unit 12 for communicating with the mobile terminal 20. The mobile terminal 20 includes a memory unit (not shown) The wearable electrocardiograph measuring device 10 includes a location-based service for not only checking the electrocardiogram in real time but also informing the user of the position information in real time. The wearable electrocardiograph measuring apparatus 10 is controlled by an electrocardiogram app (Application), which will be described later.

The wearable electrocardiogram measuring apparatus 10 is provided with the data communication unit 12 and the electrocardiogram measuring signal measured by the wearable electrocardiogram measuring apparatus 10 is transmitted to the mobile terminal 20 through at least one of wireless communication and network . In the present embodiment, the data communication unit 12 wirelessly communicates with the mobile terminal 20 by way of example. However, the present invention is not limited to this, and it is of course possible to use a network in addition to the wireless communication. The wireless communication includes Bluetooth, Wi-Fi, Near Field Communication (NFC), and the like, and Bluetooth is used in this embodiment.

The mobile terminal 20 includes various terminals such as a mobile phone, a netbook, and a tablet PC. The mobile terminal 20 includes a terminal input unit (not shown) for selecting or inputting information desired by the user 2 and a terminal memory unit (not shown) for storing an electrocardiogram app downloaded from the online application store A terminal display unit (not shown) for displaying various information; a communication unit 30 for communicating with the medical institution (not shown) 44 and a terminal communication unit (not shown) for communicating using a wireless communication network. The terminal display unit (not shown) may include a screen for visually displaying information received from a medical institution 44, which will be described later, through a character or an image, and a speaker for audibly displaying sound through sound. In addition, the mobile terminal 20 transmits / receives a signal to / from the wearable electrocardiogram measuring apparatus 10 through wireless communication.

The communication company 30 provides a network 32 for transmitting an electrocardiogram measurement signal received from the mobile terminal 20 to the data management unit 40. The network 32 provided by the communication company 30 includes a wired and wireless communication network. In the present embodiment, the network 32 is an LTE (Long Term Evolution) communication network among wireless communication networks. However, the present invention is not limited to this, and any other communication network capable of exchanging signals and data is possible. The communication company 30 may provide the network 32 for using the electrocardiogram app, either free or free of charge. When the communication company 30 provides the network 32 for using the electrocardiogram app, the user 2 subscribes to the fare provided by the communication company 30 separately, and then the wearable electrocardiogram measuring device (10) can be used.

The data management unit 40 includes a data processing organization 42 for collecting, storing, and analyzing electrocardiogram signals received from the mobile terminal 20, And a medical institution 44 for examining data analyzed by the data processing organization and diagnosing the condition of the body and the abnormality. The network 32 connecting the data processing organization 42 and the medical institution 44 also uses a wired or wireless communication network provided by the communication company 30. However, the present invention is not limited to this, and any other communication network capable of exchanging signals and data can be used.

The data processing organization 42 may be a provider of the electrocardiogram app or a central server. In the present embodiment, the data processing organization 42 is a provider of the electrocardiogram app, for example. The data processing center 42 includes a collecting unit (not shown) for receiving and collecting an electrocardiogram measurement signal received through the LTE communication network of the communication company 30, A data analyzer (not shown) for analyzing the data stored in the data storage unit (not shown), a data analyzer (not shown) for analyzing the data analyzed by the data analyzer (Not shown) for reporting to the medical institution 44. The data storage unit (not shown) distributes the data of the electrocardiogram measurement signal and the database of the user.

The medical institution 44 is connected to the data processing center 42 via the network 32 and is also connected to the mobile terminal 20 via the network 32. That is, in the present embodiment, since the network is an LTE communication network, the medical institution 44 is connected to the data processing organization 42 and the mobile terminal 20 through the LTE communication network, respectively. The medical institution 44 includes a diagnosis terminal (not shown) for diagnosing the state of the body and abnormality and transmitting the result to the electrocardiogram app. The diagnostic terminal (not shown) is a terminal having an embedded LTE chip. The medical institution 44 includes a public health center, a medical examination center, a university hospital, a private hospital, and a oriental medicine hospital. In the present embodiment, the data processing engine 42 and the medical institution 44 are separately operated. However, the present invention is not limited to this, and the data processing engine 42 may be included in the medical institution 44 Of course it is possible.

The electrocardiogram measuring method according to the first embodiment of the present invention will now be described.

2, the user 2 wears the wearable electrocardiograph measuring apparatus 10 suitable for his or her own body. (S1) The wearable electrocardiograph measuring apparatus 10 receives a prescription from the medical institution 44 You can borrow or purchase it for free.

The user 2 downloads the electrocardiogram app from the online App Store using the mobile terminal 20 and executes it. (S2)

When the electrocardiogram app is executed, the wearable electrocardiogram measuring device 10 measures the electrocardiogram according to a signal of the electrocardiogram app (S3). That is, the electrocardiogram app is transmitted to the wearable electrocardiogram measuring device 10 through the wireless communication, . However, the present invention is not limited to this, and it is of course possible that the wearable electrocardiograph 10 is turned on by the user 2 using a separate operation button. As described above, when the wearable electrocardiograph measuring apparatus 10 is operated, the wearable electrocardiograph measuring apparatus 10 measures the electrocardiogram in real time.

The wearable electrocardiograph measuring apparatus 10 transmits an electrocardiogram measurement signal measured in real time to the mobile terminal 20 via Bluetooth. The mobile terminal 20 displays the electrocardiogram measurement signal received from the wearable electrocardiograph measurement apparatus 10 through the terminal display unit of the mobile terminal 20 and transmits the measured electrocardiogram signal to the communication company 30 via the LTE communication network do.

The communication company 30 transmits the electrocardiogram measurement signal received from the mobile terminal 20 to the data processing organization 42 via the LTE communication network.

The data processing organization 42 receives and collects the electrocardiogram measurement signal received through the communication company 30, stores the collected electrocardiogram data, and analyzes the processed electrocardiogram data. The data processing organization 42 reports the analyzed electrocardiogram data to the medical institution 44. (S4)

The medical institution 44 examines the electrocardiogram data analyzed by the data processing engine 42 and then diagnoses an arrhythmia state or abnormality of the user 2. (S5) To the mobile terminal 20 via the LTE communication network. In the present embodiment, the data processing center 42 analyzes the electrocardiogram data, and the medical institution 44 diagnoses based on the analyzed electrocardiogram data. However, the present invention is not limited thereto, It is of course possible to analyze and diagnose the electrocardiogram data at the ECG 44.

The mobile terminal 20 displays the diagnosis result received from the medical institution 44 through the electrocardiogram app. The electrocardiogram app can inform the user of the danger by an alarm or the like in accordance with the diagnosis result. The user 2 can monitor the diagnosis result displayed through the electrocardiogram app (S6)

In addition, the electrocardiogram app can transmit an emergency signal to a preset contact or 119 center according to the diagnosis result. That is, if the diagnosis result indicates that there is an abnormality in the body, the mobile terminal 20 can call the preset contact or the 119 center, or send a text message to inform the emergency status. It is also possible to notify the location of the user 2 to the 119 center. It is also possible that the electrocardiogram app analyzes the electrocardiogram measurement signal before the diagnosis result, and transmits an emergency signal to the preset contact or the 119 center when an abnormal signal is generated.

In addition, when the medical institution 44 is diagnosed as having an abnormality in the body, it is possible to transmit the state of the body and the first-aid treatment method to the electrocardiogram app. The electrocardiogram app can display the first-aid treatment method, and the user 2 and the people around the user 2 can confirm it and perform first-aid treatment.

Therefore, since the electrocardiogram can be measured in real time and the electrocardiogram data measured in real time can be analyzed and monitored after diagnosis, the user 2 can check his or her state more quickly and accurately, Can be prevented in advance.

3 is a diagram showing a schematic configuration of an electrocardiogram measurement system according to a second embodiment of the present invention.

3, the electrocardiogram measuring system according to the second embodiment of the present invention includes a wearable electrocardiogram measuring device 50 and a mobile terminal 60, and the electrocardiogram app installed in the mobile terminal 60 is connected to the wearable The electrocardiogram measurement signal received from the electrocardiogram measuring device 50 is analyzed to diagnose the condition of the body and the abnormality of the body, which is different from the first embodiment and will be described in detail mainly on different points.

The mobile terminal 60 receives the electrocardiogram measurement signal through wireless communication with the wearable electrocardiograph measurement device 50, compares the received electrocardiogram measurement signal with a previously stored electrocardiogram database, . The electrocardiogram database may be provided in the mobile terminal 60 and may be provided in any one of a medical institution used by the user 2, an online app store providing the electrocardiogram app, and a server providing the electrocardiogram app Of course it is possible. The wireless communication includes Bluetooth, Wi-Fi, Near Field Communication (NFC), and the like, and Bluetooth is used in this embodiment.

The electrocardiogram measuring method according to the second embodiment of the present invention is as follows.

4, the user 2 wears the wearable electrocardiograph 50 suitable for his body (S11)

The user 2 downloads the electrocardiogram app from the online application store using the mobile terminal 60 and executes it. (S12)

When the electrocardiogram app is executed, the wearable electrocardiogram measuring device 50 measures the electrocardiogram according to the signal of the electrocardiogram app (S13)

The wearable electrocardiogram measuring device 50 transmits the electrocardiogram measurement signal measured in real time to the mobile terminal 60 via the Bluetooth.

The electrocardiogram app of the mobile terminal 60 receives the electrocardiogram measurement signal through the Bluetooth. The electrocardiogram app compares the received electrocardiogram measurement signal with a previously stored electrocardiogram database, thereby diagnosing a state of the body and an abnormality according to the comparison. (S14)

The electrocardiogram app displays the diagnosis result, and the user 2 can monitor the displayed diagnosis result (S15)

As described above, since data processing, analysis and diagnosis of the electrocardiogram measurement signal are performed through the mobile terminal 60, there is an advantage that diagnosis can be performed more quickly.

FIG. 5 is a diagram showing a schematic configuration of an electrocardiogram measurement system according to a third embodiment of the present invention.

5, the electrocardiogram measuring system according to the third embodiment of the present invention includes a wearable electrocardiogram measuring apparatus 70, a data communication unit 72, a mobile terminal 80, a communication company 81, a network 82, It is different from the first embodiment that the data communication unit 72 directly transmits the electrocardiogram measurement signal measured by the wearable electrocardiogram measurement apparatus 70 to the data management unit 90 including the data management unit 90 , Will be described in detail mainly on different points.

The data communication unit 72 is provided in the wearable electrocardiogram measuring apparatus 70. The data communication unit 72 transmits and receives signals through the network 82 to the data management unit 90. The network 82 uses a wired or wireless communication network provided by the communication company 81, but not limited thereto, and any other communication network that can exchange signals and data can be used. The network 82 is an LTE communication network, for example. The communication company 81 can provide the network 82 in a free or charged fashion. The user 2 can separately use the wearable electrocardiograph measuring device 70 after subscribing to the charge provided by the communication company 81 when the communication company 81 provides the network 82 for a fee .

The data management unit 90 includes a data processing organization 92 for collecting, storing, and analyzing electrocardiogram signals received from the mobile terminal 80, And a medical institution 94 for examining the data analyzed by the data processing organization and diagnosing the condition of the body and the abnormality. The network 82 connecting the data processing center 92 with the medical institution 94 also uses a wired or wireless communication network provided by the communication company 30 and is not limited to this, Anything else can be used in the network. The network 82 is an LTE communication network, for example.

The medical institution 44 includes a diagnosis terminal (not shown) for diagnosing the state of the body and an abnormality and transmitting the diagnosis to the mobile terminal 80. The diagnostic terminal (not shown) is a terminal having an embedded LTE chip. The medical institution 94 is connected to the mobile terminal 80 through a network 82 and the network 82 is also the LTE communication network.

The mobile terminal 80 is provided with an electrocardiogram app for receiving the status of the body diagnosed by the medical institution 94 and the abnormality status via the network 82 and displaying the diagnosis result.

Therefore, in the third embodiment of the present invention, the electrocardiogram measuring signal measured by the wearable electrocardiograph measuring device 70 is transmitted to the data managing unit 90 without going through the mobile terminal 80, The diagnosis result is displayed through the mobile terminal 80. [

The electrocardiogram measuring method according to the third embodiment of the present invention configured as described above is as follows.

6, the user 2 wears the wearable electrocardiograph 70 suitable for his / her own body (S21)

The user 2 operates the wearable electrocardiograph measuring device 70 using an operation button or the like provided in the wearable electrocardiograph measuring device 70. When the wearable electrocardiograph measuring device 70 is operated, the wearable electrocardiograph measuring device 70 measures the electrocardiogram in real time (S22)

The data communication unit 72 transmits the electrocardiogram measurement signal measured in real time to the data management unit 90 using the LTE communication network.

The data management unit 90 receives the ECG signal, collects the ECG signal, stores the ECG signal, processes the ECG data, and analyzes the ECG signal. The data processing organization 92 reports the analyzed electrocardiogram data to the medical institution 94. (S23)

The medical institution 94 examines the electrocardiogram data analyzed by the data processing organization 92 and then diagnoses the arrhythmia state or abnormality of the user 2. (S24) To the mobile terminal (80) through the LTE communication network.

When the user 2 executes the electrocardiogram app installed in the mobile terminal 80, the diagnosis result is displayed through the electrocardiogram app. The user 2 can monitor the diagnosis result displayed through the electrocardiogram app (S25) (S26). However, the present invention is not limited to this case. Even if the user 2 does not execute the electrocardiogram app, ), It is also possible that the electrocardiogram app is automatically executed or a notification message informing reception of the diagnosis result is displayed.

 In addition, the electrocardiogram app can transmit an emergency signal to a preset contact or 119 center 84 according to the diagnosis result. That is, if it is diagnosed that there is an abnormality in the body, the user can call the preset contact or the 119 center 84 via the mobile terminal 80 or send a text to inform the emergency status. It is also possible to notify the current position to the 119 center through the electrocardiogram app.

In addition, if the medical institution 94 is diagnosed that there is an abnormality in the body, the state of the body and a corresponding first-aid treatment method can be transmitted to the electrocardiogram app. The electrocardiogram app can display the first-aid treatment method, and the user 2 and the people around the user 2 can confirm it and perform first-aid treatment.

Therefore, since the electrocardiogram can be measured in real time and the electrocardiogram data measured in real time can be analyzed and monitored after diagnosis, the user 2 can check his or her state more quickly and accurately, Can be prevented in advance.

FIG. 7 is a diagram showing a schematic configuration of an electrocardiogram measurement system according to a fourth embodiment of the present invention.

7, at least one of the data communication unit 72 and the mobile terminal 80 is connected to the user 2 wearing the wearable electrocardiographic measurement device 70. In the electrocardiogram measurement system according to the fourth embodiment of the present invention, The communication with the control unit 102 of the vehicle 100 on which the vehicle 100 is mounted is different from that of the third embodiment.

At least one of the data communication unit 72 and the mobile terminal 80 communicates with the control unit 102 of the vehicle 100 through any one of wireless communication and network. In the present embodiment, the mobile terminal 80 communicates with the control unit 102 of the vehicle 100 through the wireless communication. The wireless communication includes Bluetooth, Wi-Fi, Near Field Communication (NFC), and the like, and Bluetooth is used in this embodiment.

When the user 2 having the mobile terminal 80 is boarded in the vehicle, the electrocardiogram app installed in the mobile terminal 80 transmits a safe operation request signal, which will be described later, to the controller 102 through the wireless communication can do.

The mobile terminal 80 may transmit a safe operation request signal for requesting the control unit 102 to decelerate or stop the vehicle 100 when there is an abnormality in the diagnosis result received from the medical institution 94 . Upon receiving the safe driving request signal, the control unit 102 may decelerate or stop the vehicle 100 to prevent sudden accidents due to an arrhythmia of the user 2 or the like.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

2: User 10, 50, 70: Wearable electrocardiogram measuring device
20, 60, 80: mobile terminal 30, 81:
40, 90: data management unit 42, 92:
44,94: Medical institutions

Claims (17)

A wearable electrocardiograph measuring device for measuring an electrocardiogram (ECG) on the body;
A data communication unit provided in the wearable electrocardiograph measuring apparatus and transmitting the electrocardiogram measurement signal measured by the wearable electrocardiograph measuring apparatus through at least one of wireless communication and a network;
A mobile terminal having an electrocardiogram app for receiving the electrocardiogram measurement signal from the data communication unit and controlling the wearable electrocardiograph measurement device;
And a data management unit for receiving the electrocardiogram measurement signal from the mobile terminal through at least one of the wireless communication and the network, processing the electrocardiogram measurement signal into electrocardiogram data and analyzing the electrocardiogram data, The electrocardiogram measuring system. A wearable electrocardiograph measuring device for measuring an electrocardiogram (ECG) on the body;
A data communication unit provided in the wearable electrocardiograph measuring apparatus and transmitting the electrocardiogram measurement signal measured by the wearable electrocardiograph measuring apparatus through at least one of wireless communication and a network;
A mobile terminal in which an electrocardiogram app for receiving the electrocardiogram measurement signal from the data communication unit, controlling the wearable electrocardiograph measuring device, processing the electrocardiogram measurement signal into electrocardiogram data and analyzing the electrocardiogram data, Wherein the electrocardiogram measuring system comprises: A wearable electrocardiograph measuring device for measuring an electrocardiogram (ECG) on the body;
A data communication unit provided in the wearable electrocardiograph measuring apparatus and transmitting the electrocardiogram measurement signal measured by the wearable electrocardiograph measuring apparatus through at least one of wireless communication and a network;
A data management unit receiving the electrocardiogram measurement signal from the data communication unit, processing the electrocardiogram measurement signal into electrocardiogram data and analyzing the electrocardiogram data, and diagnosing the state of the body and the abnormality according to the electrocardiogram data;
And a mobile terminal equipped with an electrocardiogram app for receiving and displaying the status of the body diagnosed by the data management unit and the presence or absence of an abnormality through either the wireless communication or the network. The method according to claim 1,
Wherein the data communication unit comprises:
And transmits the electrocardiogram measurement signal to at least one of the mobile terminal and the data management unit via one of the wireless communication and the network. The method according to claim 1 or 2,
Wherein the mobile terminal displays an electrocardiogram measurement signal received from the wearable electrocardiographic measurement apparatus, and a status of the body and whether or not an abnormality exists. The method according to any one of claims 1 to 3,
The data management unit,
A data processing engine for converting the electrocardiogram measurement signal into electrocardiogram data and collecting, storing and analyzing the electrocardiogram data,
And a medical institution that is connected to the data processing organization through the network and examines data analyzed by the data processing organization to diagnose a state of the body and an abnormality. The method of claim 6,
In the medical institution,
And a diagnosis terminal for transmitting the state of the body and the abnormality to the mobile terminal through the network. The method of claim 6,
Wherein the medical institution comprises a diagnosis terminal for transmitting the state of the body and the first-aid treatment method to the mobile terminal through the network when it is determined that there is an abnormality in the body. The method according to any one of claims 1 to 3,
The mobile terminal comprises:
And transmits an emergency signal to a preset contact or 119 according to the state of the body and the abnormality. The method according to any one of claims 1 to 3,
Wherein the wireless communication includes Bluetooth, Wi-Fi, and NFC. The method according to any one of claims 1 to 3,
Further comprising a communication company providing said network,
Wherein the network includes a wired and wireless communication network. The method according to any one of claims 1 to 3,
Wherein at least one of the data communication unit and the mobile terminal comprises:
Wherein the user wears the wearable electrocardiogram measuring device via at least one of the wireless communication and the network, and communicates with the control unit of the vehicle. The method of claim 12,
Wherein at least one of the data communication unit and the mobile terminal comprises:
And transmits a safe driving request signal for requesting the control unit of the vehicle to decelerate or stop the vehicle if there is an abnormality signal of the body. Downloading and executing an electrocardiogram app for controlling the wearable electrocardiograph measuring device by the mobile terminal;
Measuring the electrocardiogram of the body according to a signal of the electrocardiogram app and transmitting a measurement signal to the mobile terminal through at least one of wireless communication and a network;
The mobile terminal receiving and displaying the measurement signal and transmitting the measurement signal to the data manager via at least one of the wireless communication and the network;
Wherein the data management unit receives the electrocardiogram measurement signal, processes the electrocardiogram measurement signal into electrocardiogram data and analyzes the electrocardiogram data, and diagnoses a state of the body and an abnormality. 15. The method of claim 14,
The data management unit transmits a diagnosis result to the mobile terminal via the network,
And the electrocardiogram app displays the result of the diagnosis. Downloading and executing an electrocardiogram app for controlling the wearable electrocardiograph measuring device by the mobile terminal;
Measuring the electrocardiogram of the body according to a signal of the electrocardiogram app and transmitting a measurement signal to the mobile terminal through at least one of wireless communication and a network;
Wherein the electrocardiogram apps process and analyze the electrocardiogram measurement signal as electrocardiogram data to diagnose the condition and abnormality of the body, and display the diagnosis contents. Downloading and executing an electrocardiogram app for controlling the wearable electrocardiograph measuring device by the mobile terminal;
Measuring the electrocardiogram of the body according to the signal of the electrocardiogram app and transmitting the measurement signal to at least one of the wireless communication and the network to the data management unit;
The data management unit receives the electrocardiogram measurement signal, processes the electrocardiogram measurement signal into electrocardiogram data, analyzes the state of the body and abnormality, and transmits the electrocardiogram measurement signal to the mobile terminal through at least one of the wireless communication and the network, ;
Wherein the electrocardiogram app displays a state of the body and an abnormality.

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