KR20100042676A - Mobile terminal performing automatic defibrillation and emergency saving system using the same - Google Patents

Abstract

PURPOSE: A mobile terminal performing automatic defibrillation and an emergency saving system using the same are provided to monitor the cardiac condition of a patient continuously and automatically perform defibrillation for the cardiac condition. CONSTITUTION: A control unit(19) displays a cardiac waveform on a display unit by associating with a defibrillation generating unit, and analyzes the abnormal cardiac state. If the electrocardiogram is in an abnormal state, the control unit applies a control signal to enable a defibrillation generation circuit to generate a defibrillation shock. The control unit outputs a warning alarm through at least one unit of a display unit, a voice output unit, and vibration generating unit. The control unit transmits the emergency rescue signal to a certain agency through a mobile communication network.

Description

Mobile communication terminal with automatic defibrillation function and emergency rescue system using same {MOBILE TERMINAL PERFORMING AUTOMATIC DEFIBRILLATION AND EMERGENCY SAVING SYSTEM USING THE SAME}

The present invention relates to a mobile communication terminal having an automatic defibrillation function and an emergency rescue system using the same.

Today, mortality due to the development of medical technology is decreasing, but coronary artery disease is still a major cause of death, but also increasing due to changes in diet and deterioration of environmental conditions.

The heart rhythm seen in sudden cardiac arres is said to be 65-85% of ventricular fibrillation. It is known that resuscitation is almost impossible after 10 minutes and mortality increases by 1-10 minutes after cardiac arrest. Therefore, since it is practically impossible to return to the hospital in time, the first witness's use of CPR and the use of defibrillators determine the patient's life and death.

Compared with CPR and defibrillation, CPR only supplies about 20% of the normal blood flow to the heart, but defibrillation can reveal the rhythm of the heart. Immediate cardiopulmonary resuscitation (CPR), even if the defibrillation is not rapid, can have very fatal consequences in minutes. Therefore, the most effective way to save a patient with sudden cardiac arrest is rapid defibrillation.

In the United States, where cardiac health systems are developed, less than 5% of patients with out-of-patient sudden cardiac arrest have survived, but recently an automated external defibrillator (AED) can be used by non-medical rescue personnel or by some trained public. There have been reports of improved survival by up to 49% because of the rapid spread of defibrillation. In Korea, the law has been passed since June 15 this year so that the general public can use it in an emergency, and it is expected that domestic IVF will be widely used to save the lives of many coronary patients.

Meanwhile, Dr. Gut H. Bardy, of the Seattle Heart Institute (Washington), recently found a Home Automated External Defibrilator (HAT) that tracked the use of the AED. Motives (AED) are effective in sudden cardiac arrest due to ventricular fibrillation, but are of low utility, ”the New England Journal of Medicine (2008; 358: 1793-1804).

According to the study, more than 50% of cases of cardiac arrest occurred when the patient was at home alone. Therefore, in this case, most of the cases resulted in death due to inability to perform AED or CPR.

In other words, if there is someone next to the patient's heart when it is stopped, there is a high possibility of saving life using the AED, but even if the AED is equipped with the device when the patient's heart is stopped, Many people lost their lives because there was no one to treat them.

Therefore, there is an urgent need to develop a system that continuously monitors the patient's heart condition and can perform defibrillation automatically in the event of an abnormality in the electrocardiogram and inform emergency rescue agencies of an emergency.

Accordingly, an object of the present invention is to combine a defibrillation function with a portable personal mobile communication terminal, a mobile communication terminal having an automatic defibrillation function designed to continuously monitor the patient's heart state while carrying the patient and also to automatically defibrillation therefor; It is to provide an emergency rescue system using this. In addition, if there is an abnormality in the electrocardiogram is to provide a mobile communication terminal having an automatic defibrillation function and an emergency rescue system using the same to make the rescue of the patient as soon as possible by making a rescue request to the emergency rescue agency through the mobile communication network.

According to an aspect of the present invention, there is provided a mobile communication terminal having an automatic defibrillation function, comprising: a user interface for selecting an automatic defibrillation mode; An electrode pad for detecting an electrocardiogram of a user and delivering a defibrillation shock to the user; A defibrillation generator connected to the electrode pad and a connector to receive the electrocardiogram detection signal, and generate the defibrillation shock and provide the defibrillation shock to the electrode pad; A display unit displaying an image; A voice output unit for outputting a voice; Vibration generating unit for generating vibration; A mobile communication module for transmitting and receiving data through a mobile communication network; And when the automatic defibrillation mode is selected through the user interface, activates the defibrillation generation unit, controls the waveform of the electrocardiogram to be displayed on the display in association with the defibrillation generation unit, and analyzes whether the ECG is abnormal. When the electrocardiogram is abnormal, the defibrillation generation circuit applies a control signal to generate the defibrillation shock, controls a warning alarm to be output through at least one of the display unit, the audio output unit, and the vibration generator, It can be achieved by a mobile communication terminal having an automatic defibrillation function, characterized in that it comprises a control unit for controlling the rescue signal is transmitted to a predetermined authority through the mobile communication network.

The control unit may transmit the ECG information of the user together with the emergency rescue signal to the predetermined authority through the mobile communication network.

The control unit may control voice call or data communication in the defibrillation mode. When the voice call or data communication is performed in the defibrillation mode, the control unit may display the display unit, the voice output unit, and the vibration generator. The controller may be controlled to operate in at least one of a pre-defibrillation mode, a voice call mode, and a data communication mode.

A first power supply unit supplying power to the defibrillation unit; And a second power supply unit for supplying power to other components.

On the other hand, the above object is, according to the present invention, a mobile communication terminal having an automatic defibrillation function, a user interface for selecting an automatic defibrillation mode; An electrode pad for detecting an electrocardiogram of a user and delivering a defibrillation shock to the user; A defibrillation generator connected to the electrode pad and a connector to receive the electrocardiogram detection signal, and generate the defibrillation shock and provide the defibrillation shock to the electrode pad; When the automatic defibrillation mode is selected through the user interface, the defibrillation unit is activated, the ECG detection signal is received from the defibrillation unit and analyzed, and when the ECG is abnormal, the defibrillation circuit generates the defibrillation shock. A defibrillation control unit for applying a control signal; A display unit displaying an image; A voice output unit for outputting a voice; Vibration generating unit for generating vibration; A mobile communication module for transmitting and receiving data through a mobile communication network; And control the waveform of the ECG to be displayed on the display unit in conjunction with the defibrillation controller, and output a warning alarm through at least one of the display unit, the voice output unit, and the vibration generator when the ECG is abnormal. On the other hand, it may be achieved by a mobile communication terminal having an automatic defibrillation function, characterized in that it comprises a communication control unit for controlling the emergency rescue signal is transmitted to a predetermined authority through the mobile communication network.

On the other hand, according to the present invention, in the emergency rescue system using a mobile communication terminal having an automatic defibrillation function, a user interface for selecting the automatic defibrillation mode, for detecting the electrocardiogram of the user and delivering the defibrillation shock to the user An electrode pad, connected to the electrode pad via a connector, to receive the electrocardiogram detection signal, while generating a defibrillation shock and providing the defibrillation shock to the electrode pad; a display unit for displaying an image; and an audio output for outputting a voice. The vibration generating unit generating vibration, the mobile communication module for transmitting and receiving data through a mobile communication network, and when the automatic defibrillation mode is selected through the user interface, activates the defibrillation unit and interlocks with the defibrillation unit. Controls the waveform of to be displayed on the display unit, Analyzing whether the ECG is abnormal or not, if the ECG is abnormal, the defibrillation generation circuit applies a control signal to generate the defibrillation shock, and a warning alarm is output through at least one of the voice output and the vibration generator. A mobile communication terminal including a control unit controlling the emergency rescue signal to be transmitted to a mobile communication server through the mobile communication network; The mobile communication server for tracking the location of the mobile communication terminal to which the emergency rescue signal has been transmitted and transmitting the location information of the mobile communication terminal to an emergency rescue organization; And the emergency rescue agency performing emergency rescue according to the location information of the mobile communication terminal to which the emergency rescue signal has been transmitted, which can be achieved by an emergency rescue system using a mobile communication terminal having an automatic defibrillation function. have.

Here, the control unit may transmit the ECG information of the user with the emergency rescue signal to the mobile communication server, the mobile communication server may transmit the ECG information of the user to the emergency rescue organization.

As described above, according to the present invention, by combining the defibrillation function in a portable personal mobile communication terminal, the mobile with a defibrillation function designed to continuously monitor the patient's heart condition while carrying the patient and also to defibrillation automatically A communication terminal and an emergency rescue system using the same are provided. In addition, there is provided a mobile communication terminal having an automatic defibrillation function and an emergency rescue system using the same to make an emergency rescue by making a rescue request to an emergency rescue agency through a mobile communication network in case of an abnormal ECG.

Hereinafter, specific embodiments of the present invention will be described with reference to the drawings.

1 schematically illustrates an emergency rescue system including a mobile communication terminal having an automatic defibrillation function according to a first embodiment of the present invention.

1, the emergency rescue system according to the first embodiment of the present invention is a mobile communication terminal 10 having an automatic defibrillation function, a mobile communication server 30 operated by a mobile communication company, and an emergency rescue organization 40 ). These can be communicated through the network 50, the network 50 includes a mobile communication network, telephone network, Internet network and the like.

The mobile communication terminal 10 having an automatic defibrillation function is a device in which an automatic defibrillation function is added in addition to a function of a conventional mobile communication terminal, and any type of mobile communication terminal such as a mobile phone, a PDA, and an MP3 can be applied.

The user may connect and use the electrode pads to which the electrodes for ECG detection and defibrillation are attached to the mobile communication terminal 10 through the connector 11a. This is to connect the earphones or headphones to the mobile communication terminal 10 to make a voice call or listen to music, and to connect the electrode pads 11 to the mobile communication terminal 10 through the connector 11a.

That is, the conventional portable defibrillator is placed in a certain place and used to the patient if necessary, but the mobile communication terminal 10 having an automatic defibrillation function according to the present invention is connected to the electrode pad 11 by the user to the electrode pad on his body. It can be used while attaching and carrying (11), so that the user can monitor the ECG status of the user anytime and anywhere on the go and perform the defibrillation function automatically.

 The mobile communication terminal 10 having the automatic defibrillation function according to the present embodiment will be described in detail with reference to FIG. 2. 2 is a schematic control block diagram of a mobile communication terminal 10 having an automatic defibrillation function according to a first embodiment of the present invention.

As shown in FIG. 2, the mobile communication terminal 10 having the automatic defibrillation function according to the present embodiment includes an electrode pad 11, a defibrillation generator 12, a display unit 13, and an audio output unit 14. And a vibration generator 15, a mobile communication module 16, a microphone 17, a user interface 18, and a controller 19. In FIG. 2, it should be noted that a number of configurations for the functions unique to the mobile communication terminal 10 are omitted and only the configurations related to the contents of the present invention are shown.

The electrode pad 11 detects an electrocardiogram of a user and delivers a defibrillation shock to the user. An electrode pad 11 is formed of a combined electrocardiogram detection and defibrillation shock transmission electrode, and may be easily attached to a human body. An adhesive component is formed. The electrode pad 11 is integrally formed with a connector line for connecting to the mobile communication terminal 10, and a connection terminal is formed at the end of the connector line. The detection signal detected by the electrode of the electrode pad 11 is transmitted to the mobile communication terminal 10 through the connector line.

The defibrillation generator 12 is a circuit for generating a defibrillation shock. The defibrillation generator 12 generates a defibrillation shock and transmits the defibrillation shock to the electrode pad 11 according to a control signal of the controller 19 to be described later. The mobile communication terminal 10 is provided with a connection terminal to which the connection terminal of the connector line of the electrode pad 11 is connected. The user connects the connection terminal of the connector line end of the electrode pad 11 to the connection terminal provided in the mobile communication terminal 10 to use. The communication protocol for the interface between the two can be provided in various ways, it is also possible to use a protocol applied to the conventional mobile communication terminal. In general, the connector terminal of the electrode pad 11 is connected to the connection terminal of the mobile communication terminal 10, and the electrode pad 11 is attached to the vicinity of the heart to be used. At this time, the output waveform of the defibrillation generator 12 is output as an e-cube bi-page (BTE type), the detection level may be used 0.1mV ECG.

The display unit 13 displays an image and may use a display module provided in the conventional mobile communication terminal 10. In general, the display unit 13 may be implemented as LCD, OLED, or the like. In the present invention, the electrocardiogram of the user may be generated and displayed as a graph using the display unit 13, and a message about the defibrillation shock output or the ECG abnormality may also be notified to the user through the display unit 13.

The voice output unit 14 outputs a voice signal, and may use a voice output module provided in the conventional mobile communication terminal 10. In the present invention, the voice output unit 14 may be used to inform the user of the presence or absence of ECG abnormalities and a defibrillation shock message.

The vibration generating unit 15 generates a vibration, and may use a vibration generating module that generates vibration when a voice call or text is received in the conventional mobile communication terminal 10. In the present invention, it is possible to replace the voice output unit 14 to inform the user of the abnormality of the electrocardiogram of the user.

The mobile communication module 16 is a module for supporting the voice call function and the data communication function of the mobile communication terminal 10. The emergency rescue signal according to the present invention is also transmitted through the mobile communication module 16.

The microphone 17 is for voice input, and may use a module used for voice call, voice recording, and the like in the conventional mobile communication terminal 10.

The user interface 18 is for selecting an automatic defibrillation mode and can be implemented by an input button or a menu program. When provided as an input button, a separate button for selecting the automatic defibrillation mode may be provided in the mobile communication terminal 10, and when implemented as a menu program, the user enters the menu through the input button to enter the mobile communication terminal The automatic defibrillation mode can be selected from the various functions of (10).

The controller 19 is for controlling the defibrillation function and may be implemented as a control program and a processor or a controller for executing the program. The controller 19 may be implemented in a form in which the defibrillation function of the present invention is added to a control module that is responsible for the overall control of the conventional mobile communication terminal 10.

Specifically, when the automatic defibrillation mode is selected through the user interface 18, the controller 19 activates the defibrillation generator 12. The activated defibrillation generation unit 12 receives and outputs an electrocardiogram detection signal from the detection electrode of the electrode pad 11, and the controller 19 analyzes the electrocardiogram detection signal in conjunction with the defibrillation generation unit 12 and analyzes the electrocardiogram. The waveform is controlled to be displayed on the display unit 13. The user may check whether the ECG is normal through the ECG waveform displayed on the display unit 13. In this case, the controller 19 may also display on the display unit 13 whether the ECG is normal or abnormal.

The controller 19 analyzes the ECG signal received from the defibrillation generator 12 to determine whether the ECG signal is normal. If the ECG is abnormal, the controller 19 generates a defibrillation shock and transmits the defibrillation shock to the electrode pad 11. In this case, the determination of whether the ECG is abnormal may be made by a preset reference value, and the reference value may be set differently according to a user. That is, by analyzing the value of the ECG input in the normal state, it is possible to automatically set the determination reference value for the user, and determine whether the ECG is normal according to the set reference value.

Specifically, the electrocardiogram represents a value obtained by measuring a current occurring at any two points of the atrium and the ventricles, and is classified as R, S, T, Q, and P. The controller 19 analyzes these values to determine whether the current user's heart condition is normal.

The generation and application of the defibrillation shock according to the present invention is automatic at shockable timing depending on the state of the ECG. The control unit 19 controls the defibrillation shock to be applied in synchronization with the R wave. For example, an electric shock may begin to be delivered within 60 seconds after the QRS wave peak.

On the other hand, if the user's ECG is determined to be abnormal, the controller 19 outputs a warning alarm for notifying the user through the display unit 13, the voice output unit 14, and / or the vibration generator 15. This can help people around you know that you are experiencing a heart shock.

In addition, the control unit 19 generates an emergency rescue signal and controls it to be transmitted to a predetermined authority through the mobile communication module 16. The predetermined organization to which the emergency rescue signal is transmitted may be an emergency rescue organization 40 such as a hospital, 119, and the like, so that emergency rescue for a patient may be made.

Alternatively, as shown in FIG. 1, the emergency rescue signal is transmitted to a server operated by a mobile communication company, and the mobile communication server 30 tracks the current location information of the user's terminal to which the emergency rescue signal is transmitted. The location information may be transmitted to the emergency rescue organ 40 together with the emergency rescue signal.

In this case, since the location information of the patient can be known from the emergency rescue organ 40, the emergency rescue can be performed more effectively and quickly.

In this case, information on the ECG state of the user may be transmitted together with the emergency rescue signal. Through this, the emergency rescue organ 40 can check the condition of the patient in advance.

Information on the ECG state of the user is stored in the internal memory of the mobile communication terminal and transmitted together with the emergency rescue signal as described above. For example, electrocardiogram information of a user may be stored for a predetermined time, for example, within 12 hours, or as another example, may only store data when an event occurs. In the latter case, when values greater than or equal to a reference value are detected in the ECG, an ECG may be generated to store ECG data, event occurrence time, and the like while the corresponding waveform is detected. In addition to being sent with emergency rescue signals, these data may also be sent periodically to the attending physician. In addition, it may be possible to check in the hospital at the user or the hospital visit.

As described above, the mobile communication terminal 10 having the automatic defibrillation function according to the first embodiment of the present invention is implemented by adding hardware and software having the automatic defibrillation function to the conventional mobile communication terminal anytime, anywhere in the heart state of the patient. By monitoring and automatically performing the defibrillation function accordingly, the patient's life can be saved even if there is no one to help.

Meanwhile, the mobile communication terminal 10 having the automatic defibrillation function according to the present embodiment may perform voice calls, text transmission, data communication, and the like even in the automatic defibrillation mode. Therefore, the user can freely make a voice call or transmit / receive a problem even while operating in the automatic defibrillation mode. In addition, a function added to the mobile communication terminal 10 such as a game function may also be freely used during the defibrillation mode. That is, the defibrillation mode function and the other functions of the other mobile communication terminal 10 may be performed at the same time, but the output module related thereto may operate as any one of a plurality of functions.

In this case, the display unit 13, the voice output unit 14, or the vibration generator 15 may operate in one of a defibrillation mode or an operation for another function currently performed by the user. Accordingly, the priority may be determined in various ways.

For example, when a call is received during the automatic defibrillation mode, the controller 19 controls the module to switch to a ringing tone or vibration or display screen indicating that the call is received, and then, when the other functions are completed, the automatic defibrillation mode is performed again. Control to return to. At this time, even when the output module such as the display unit 13 operates in the defibrillation mode and is switched to the voice call function, the defibrillation function is continuously performed by the defibrillation generator 12 and the controller 19. 13) only the ECG graph is not output. However, if an abnormality occurs in the ECG while the display unit 13 is operating in another mode, the display unit 13 is switched to output a defibrillation screen, that is, an ECG graph and an error occurrence warning message.

Meanwhile, in the above-described embodiment, the modules for the original function of the mobile communication terminal 10 and the added modules for the present invention may be powered by one power supply (eg, a battery).

Alternatively, it may be powered by two power sources. For example, the modules applied in the conventional mobile communication terminal 10, such as a control module, a display module, a voice output module, may supply power according to a conventional specification, and in the case of the defibrillation generator 12, other power supply means may be utilized. have.

In general, the defibrillation unit 12 requires a high voltage power source for shock generation, and considering the power output specification of the conventional mobile communication module 16, the power supply module of the defibrillation unit 12 is It can also be employed separately. Even in this case, even when the power supply is dualized, the battery for exclusive use of the defibrillation generator 12 may be designed to receive power from the original battery when the power is exhausted.

3 is a control block diagram of a mobile communication terminal 10 having an automatic defibrillation function according to a second embodiment of the present invention. In this embodiment, the function of the control unit 19 in the first embodiment is divided into a defibrillation control unit 23 for controlling the defibrillation function and a communication control unit 29 for controlling the original mobile communication terminal. There is a difference.

That is, in the first embodiment, the control of the defibrillation function and the control of the original mobile communication terminal are handled by one processor. However, in the present embodiment, the defibrillation control unit 23 and the communication control unit 29 are implemented as separate modules. In conjunction with each other to perform the defibrillation function and the function of the original mobile communication terminal. Since other configurations are similar to the above-described embodiment, detailed description thereof will be omitted.

When the defibrillation mode is selected from the user interface 28, this selection signal is input to the communication control unit 29 or the defibrillation control unit 23. When the user interface 28 is provided as a separate button, it may be directly connected to the defibrillation control unit 23 and input. When the user interface 28 is implemented as a button or a menu program for another function, the selection signal is communicated. The control unit 29 is input to the defibrillation control unit 23.

The defibrillation control unit 23 receiving the selection signal activates the defibrillation generation unit 22 to receive and analyze an electrocardiogram signal of a user, and provides it to the communication control unit 29. The communication control unit 29 controls the electrocardiogram data to be displayed as an electrocardiogram graph through the display unit 24.

The defibrillation control unit 23 continuously analyzes and monitors the electrocardiogram and notifies the communication control unit 29 when the electrocardiogram is abnormal. The communication control unit 29 outputs a message informing the ECG abnormal state through the display unit 24, the voice output unit 25, or the vibration generating unit 26, and the emergency rescue signal through the mobile communication module 27. To transmit to the external emergency rescue organ 40 or the mobile communication server (30).

The emergency rescue organ 40 receiving the emergency rescue signal detects the location of the patient and performs lifesaving work for the patient.

On the other hand, the communication control unit 29 controls the display unit 24, the audio output unit 25, or the vibration generator 26 to operate in any one of the original functions such as the defibrillation mode or the communication mode.

In this embodiment, the mobile communication terminal 10 having the defibrillation function may be powered by one power supply (eg, a battery). Alternatively, it may be powered by two power sources. For example, the modules applied to the conventional mobile communication terminal 10 may supply power according to a conventional specification, and the defibrillation generator 22 and the defibrillation controller 23 may use separate power supply means.

Although some embodiments of the invention have been shown and described, it will be apparent to those skilled in the art that modifications may be made to the embodiment without departing from the spirit or spirit of the invention. . It is intended that the scope of the invention be defined by the claims appended hereto and their equivalents.

1 schematically illustrates an emergency rescue system including a mobile communication terminal having an automatic defibrillation function according to a first embodiment of the present invention.

2 is a schematic control block diagram of a mobile communication terminal having an automatic defibrillation function according to a first embodiment of the present invention.

3 is a control block diagram of a mobile communication terminal having an automatic defibrillation function according to a second embodiment of the present invention.

Claims (7)

In a mobile communication terminal having an automatic defibrillation function, A user interface for selecting an automatic defibrillation mode; An electrode pad for detecting an electrocardiogram of a user and delivering a defibrillation shock to the user; A defibrillation generator connected to the electrode pad and a connector to receive the electrocardiogram detection signal, and generate the defibrillation shock and provide the defibrillation shock to the electrode pad; A display unit displaying an image; A voice output unit for outputting a voice; Vibration generating unit for generating vibration; A mobile communication module for transmitting and receiving data through a mobile communication network; And When the automatic defibrillation mode is selected through the user interface, the defibrillation generator is activated, and the waveform of the electrocardiogram is displayed on the display in association with the defibrillator and the electrocardiogram is analyzed by analyzing whether the ECG is abnormal. Is abnormal, the defibrillation generation circuit applies a control signal to generate the defibrillation shock, controls the warning alarm to be output through at least one of the display unit, the audio output unit, and the vibration generator, And a control unit for controlling a signal to be transmitted to a predetermined authority through the mobile communication network. The method of claim 1, And the control unit transmits the electrocardiogram information of the user along with the emergency rescue signal to the predetermined organ through the mobile communication network. The method according to claim 1 or 2, The control unit controls the voice call or data communication in the defibrillation mode, and when the voice call or data communication is performed in the defibrillation mode, the control unit includes the display unit, the voice output unit, and the vibration generating unit in the defibrillation mode. Mobile communication terminal having an automatic defibrillation function, characterized in that for controlling to operate in at least one of a voice call mode, and a data communication mode. The method of claim 1, A first power supply unit supplying power to the defibrillation unit; And A mobile communication terminal having an automatic defibrillation function, characterized in that it further comprises a second power supply for supplying power to other components. In a mobile communication terminal having an automatic defibrillation function, A user interface for selecting an automatic defibrillation mode; An electrode pad for detecting an electrocardiogram of a user and delivering a defibrillation shock to the user; A defibrillation generator connected to the electrode pad and a connector to receive the electrocardiogram detection signal, and generate the defibrillation shock and provide the defibrillation shock to the electrode pad; When the automatic defibrillation mode is selected through the user interface, the defibrillation unit is activated, the ECG detection signal is received from the defibrillation unit and analyzed, and when the ECG is abnormal, the defibrillation circuit generates the defibrillation shock. A defibrillation control unit for applying a control signal; A display unit displaying an image; A voice output unit for outputting a voice; Vibration generating unit for generating vibration; A mobile communication module for transmitting and receiving data through a mobile communication network; And In response to the defibrillation controller, the waveform of the electrocardiogram is controlled to be displayed on the display unit, and when the electrocardiogram is abnormal, a warning alarm is output through at least one of the display unit, the voice output unit, and the vibration generator. On the other hand, a mobile communication terminal having an automatic defibrillation function, characterized in that it comprises a communication control unit for controlling the emergency rescue signal is transmitted to a predetermined authority through the mobile communication network. In an emergency rescue system using a mobile communication terminal having an automatic defibrillation function, A user interface for selecting an automatic defibrillation mode, an electrode pad for detecting an electrocardiogram of a user and delivering a defibrillation shock to the user, and connected to the electrode pad and a connector to receive the ECG signal and generate the defibrillation shock. A defibrillator for providing the electrode pad, a display unit for displaying an image, a voice output unit for outputting a voice, a vibration generator for generating a vibration, a mobile communication module for transmitting and receiving data through a mobile communication network, and the user interface. When the automatic defibrillation mode is selected through, the defibrillation generator is activated and the waveform of the electrocardiogram is displayed on the display in association with the defibrillator and the electrocardiogram is analyzed to determine whether the electrocardiogram is abnormal. The defibrillation circuit generates the defibrillation shock A control unit is configured to apply a control signal and to control a warning alarm to be output through at least one of the voice output and the vibration generator, and to transmit an emergency rescue signal to a mobile communication server through the mobile communication network. A mobile communication terminal comprising a; The mobile communication server for tracking the location of the mobile communication terminal to which the emergency rescue signal has been transmitted and transmitting the location information of the mobile communication terminal to an emergency rescue organization; And Emergency rescue system using a mobile communication terminal having an automatic defibrillation function, characterized in that it comprises the emergency rescue agency for performing an emergency rescue in accordance with the location information of the mobile communication terminal to which the emergency rescue signal is transmitted. The method of claim 6, The controller transmits the electrocardiogram information of the user along with the emergency rescue signal to the mobile communication server, The mobile communication server emergency rescue system using a mobile communication terminal having an automatic defibrillation function, characterized in that for transmitting the ECG information of the user to the emergency rescue organs.

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