KR101808351B1 - Method for detecting and transmitting emergency situations using smart device that control danger signal transmission using the physiological signal and plural password - Google Patents

Abstract

The present invention relates to an automatic emergency situation detection and transmission method using a smart device, and more particularly, to a smart device provided with automatic emergency situation detection and transmission software, which is capable of: (1) Receiving a transmission; (2) comparing the numerical value of the user's biological signal transmitted in the step (1) with a predetermined numerical value; (3) If the difference of the compared values in step (2) exceeds a predetermined allowable value, the risk signal and the current state data are automatically set to 'predetermined terminal or server of another server'; And (4) receiving the preset password and stopping the transmission of the dangerous signal.
According to the automatic emergency state detection and transmission method using the smart device that controls the transmission of the danger signal through the measurement of the biological signal change proposed in the present invention and the setting of a plurality of passwords, The user can automatically transmit an emergency situation without recognizing or applying a specific action.
In addition, according to the present invention, since each step is performed through a smart device equipped with an automatic emergency situation detection and transmission software, it is possible to detect and transmit emergency situations only by installing a simple software without a separate dedicated device, which is economical and highly utilizable.
In addition, according to the present invention, unnecessary danger signal transmission can be effectively stopped, including a step in which the smart device receives a preset password and stops transmission of a dangerous signal.
Furthermore, according to the present invention, a plurality of passwords including a signal stop password and a signal weighted password are set, and when a signal weighted password is input, the threat signal is further transmitted. By doing so, Can be prevented from being stopped, and the weighted signal transmission can be informed that the system is positively exposed to the crime until the system is stopped.

Description

TECHNICAL FIELD [0001] The present invention relates to an automatic emergency situation detection and transmission method using a smart device for controlling a dangerous signal transmission through measurement of a biological signal change and setting of a plurality of passwords. PASSWORD}

The present invention relates to an automatic emergency situation detection and transmission method, and more particularly, to a method and apparatus for detecting an emergency situation by transmitting a danger signal through a change of a living body signal, And more particularly, to an automatic emergency situation detection and transmission method using a smart device that controls danger signal transmission through measurement of a biological signal change and setting of a plurality of passwords.

Modern society has improved many parts of human being 's discomfort in everyday life due to the steady development of technology in various fields. The development of technology has been done in many fields throughout the industry at the same time. Especially, the development of technology in the field of electronic devices is accelerating. Electronic devices have become more and more lightweight and less compact, and are capable of low-power design. Circuit integration, execution speed, and durability are being improved all the time. Multifunctional products and high-performance products incorporating various functions are being developed. However, in the modern society where there is a possibility of exposure to unexpected crime due to the sudden increase of various incidents including the violent crime, the technology of the field related to the emergency response of an individual can not escape from the existing method, It is a fact that it is not done.

In the case of a sudden incident or an accident, a prompt notification or an external assistance request is required. As a technology related to the emergency response of such an individual, a cell phone or a terminal for reporting an emergency situation, Respectively. This means that when the user presses a schedule button or the like in the event of an emergency, the user is connected to a predetermined person or is quickly notified to the police station. However, such devices must be accompanied by an act of pressing the button with the consciousness of the individual, so that there is a problem that if there is no consciousness due to a sudden accident, or if the act of pressing the button is impossible even though the consciousness is inevitable.

Recently, an emergency pager (see Patent Application No. 10-2009-0109655), which detects the emergency situation of a user wearing a device by a sensor and calls the emergency pager, A method for judging whether or not a person has a problem is started to be developed. However, there is a problem in that the size of the apparatus is excessively large and heavy as well as the cost is excessively increased for the above-mentioned methods in which a separate dedicated terminal is used and a function of transmitting data beyond a simple call is improved. In addition, since the call can be interrupted simply by the will of the person who gives the risk, rather than the user, it is difficult to substantially function in the crime situation.

The present invention has been proposed in order to solve the above-mentioned problems of the existing methods. It is an object of the present invention to automatically detect and transmit an emergency situation using a bio-signal measurement module, It is an object of the present invention to provide an automatic emergency situation detection and transmission method using a smart device that can transmit a situation and control the transmission of a danger signal through measurement of change of a living body signal and setting of a plurality of passwords.

Further, according to the present invention, since each step is performed through a smart device equipped with an automatic emergency situation detection and transmission software, an emergency situation can be detected and transmitted only by installing a simple software without a separate dedicated device, Another object of the present invention is to provide an automatic emergency situation detection and transmission method using a smart device that controls dangerous signal transmission through change measurement and setting of a plurality of passwords.

In addition, the present invention can be applied to a method for measuring a biological signal change and a method for setting a plurality of passwords, which can effectively stop unnecessary danger signal transmission, It is another object of the present invention to provide an automatic emergency situation detection and transmission method using a smart device that controls a dangerous signal transmission.

Furthermore, according to the present invention, a plurality of passwords including a signal stop password and a signal weighted password are set, and when a signal weighted password is input, the threat signal is further transmitted, It is used to measure the change of the biological signal and to set the multiple passwords so that it can be notified that the system is stopped by the weighted signal transmission and that the system is actively exposed to the crime. Another object of the present invention is to provide an emergency situation detection and transmission method.

According to an aspect of the present invention, there is provided an automatic emergency situation detection and transmission method using a smart device for controlling transmission of a dangerous signal through measurement of a biological signal change and setting of a plurality of passwords, Is installed,

(1) receiving a user's biological signal from a bio-signal measurement module in real time;

(2) comparing the numerical value of the user's biological signal transmitted in the step (1) with a predetermined numerical value;

(3) If the difference of the compared values in step (2) exceeds a predetermined allowable value, the risk signal and the current state data are automatically set to 'predetermined terminal or server of another server' ; And

(4) receiving the preset password and stopping the transmission of the dangerous signal.

Preferably,

If a character and a pattern combination other than a preset password are input in the step (4), a secondary danger signal may be transmitted to the designation destination.

Preferably,

The predetermined password in the step (4) is a plurality of passwords including a signal stop password and a signal weighted password,

The risk signal transmission is stopped only when a signal stop password is input from the plurality of passwords. When the signal weighted password is input, it is indicated that the risk signal transmission is stopped on the smart device, A threat signal may be further transmitted.

Preferably, the bio-signal includes:

Heart rate, heart rate, electrocardiogram, blood pressure, respiration signal, and body temperature.

Preferably, the smart device further comprises:

The bio-signal can be received from the bio-signal measurement module by any one of short-range communication selected from the group including WI-FI, UWB, BAN, ANT, ZigBee, infrared communication, and Bluetooth.

Preferably, the predetermined value in the step (2)

A standard biometric signal value according to the user's body weight, height, and age, or an average biometric signal value in each activity mode of the user.

Preferably,

The server predetermined in the step (3)

A police station, a fire station, and an emergency medical center,

In the step (3), the terminal of the non-

A smart device of another user who exists in the area where the user is located and in which the automatic emergency situation detection and transmission software is installed, or a cellular phone of an acquaintance predetermined by the user.

Preferably, the step (3)

The method may further include issuing an alarm in the smart device when the difference in the compared values in step (2) exceeds a predetermined allowable value.

Preferably,

The smart device includes at least one selected from the group including a GPS module, a 3G module, a 4G (LTE) module, and a WI-FI module,

The step (3)

If at least one of the GPS module, the 3G module, the 4G (LTE) module, and the WI-FI module is automatically operated in a case where the difference of the compared values in step (2) And transmitting the user location information together with the risk signal.

Preferably,

The smart device is equipped with a camera module or a voice recording module,

The step (3)

And transmitting the user peripheral information photographed or recorded by operating the camera module or the voice recording module automatically together with the danger signal when the difference between the compared values in the step (2) exceeds a predetermined allowable value .

More preferably, the risk signal, the second risk signal, or the threat signal,

May be transmitted to any one selected from the group including SMS (Short Message Service), MMS (Multimedia Message Service), LMS (Long Message Service) UMS (United Message Service) and push notification.

Preferably, the designation of the step (3)

After receiving the danger signal and the current state data from the smart device, the emergency signal may be transmitted to any one or more selected from the group including the police station, the fire station, and the hospital depending on whether an emergency occurs.

According to the automatic emergency state detection and transmission method using the smart device that controls the transmission of the danger signal through the measurement of the biological signal change proposed in the present invention and the setting of a plurality of passwords, The user can automatically transmit an emergency situation without recognizing or applying a specific action.

In addition, according to the present invention, since each step is performed through a smart device equipped with an automatic emergency situation detection and transmission software, it is possible to detect and transmit emergency situations only by installing a simple software without a separate dedicated device, which is economical and highly utilizable.

In addition, according to the present invention, unnecessary danger signal transmission can be effectively stopped, including a step in which the smart device receives a preset password and stops transmission of a dangerous signal.

Furthermore, according to the present invention, a plurality of passwords including a signal stop password and a signal weighted password are set, and when a signal weighted password is input, the threat signal is further transmitted. By doing so, Can be prevented from being stopped, and the weighted signal transmission can be informed that the system is positively exposed to the crime until the system is stopped.

FIG. 1 illustrates a system for implementing an automatic emergency situation detection and transmission method using a smart device that controls dangerous signal transmission through measurement of a biological signal change and a plurality of passwords according to an embodiment of the present invention. FIG.
FIG. 2 is a diagram illustrating a flow of an automatic emergency situation detection and transmission method using a smart device that controls dangerous signal transmission through measurement of a biological signal change and a plurality of passwords according to an embodiment of the present invention. FIG.
FIG. 3 is a flow chart illustrating a process of implementing steps S100 to S300 in an automatic emergency situation detection and transmission method using a smart device for controlling a dangerous signal transmission through measurement of a biological signal change and setting of a plurality of passwords according to an embodiment of the present invention. A drawing.
FIG. 4 is a block diagram illustrating a smart device that receives a predetermined password in an automatic emergency situation detection and transmission method using a smart device that controls dangerous signal transmission through measurement of a bio-signal change and a plurality of passwords according to an embodiment of the present invention. A drawing.
FIG. 5 is a diagram illustrating a flow of an automatic emergency situation detection and transmission method using a smart device that controls dangerous signal transmission through measurement of a biological signal change and a plurality of passwords according to another embodiment of the present invention. FIG.
FIG. 6 is a flowchart illustrating a method of detecting and transmitting an automatic emergency situation using a smart device for controlling a dangerous signal transmission through measurement of a bio-signal change and setting a plurality of passwords according to an embodiment of the present invention. And Fig.
FIG. 7 is a diagram illustrating a flow of an automatic emergency situation detection and transmission method using a smart device for controlling a dangerous signal transmission through measurement of a biological signal change and setting of a plurality of passwords according to another embodiment of the present invention; FIG.
8 is a diagram illustrating a smart device for generating an alarm in an automatic emergency situation detection and transmission method using a smart device for controlling transmission of a danger signal through measurement of a bio signal change and setting of a plurality of passwords according to another embodiment of the present invention .
9 is a flowchart illustrating an automatic emergency situation detection and transmission method using a smart device for controlling a dangerous signal transmission through measurement of a biological signal change and a plurality of passwords according to another embodiment of the present invention. Fig.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. In the following detailed description of the preferred embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The same or similar reference numerals are used throughout the drawings for portions having similar functions and functions.

In addition, in the entire specification, when a part is referred to as being 'connected' to another part, it may be referred to as 'indirectly connected' not only with 'directly connected' . Also, to "include" an element means that it may include other elements, rather than excluding other elements, unless specifically stated otherwise.

1 is a block diagram illustrating a system for implementing an automatic emergency situation detection and transmission method using a smart device for controlling a dangerous signal transmission through measurement of a bio-signal change and a plurality of passwords according to an embodiment of the present invention. 1, a system for implementing an automatic emergency situation sensing and transmission method according to an embodiment of the present invention includes a bio-signal measurement module 100 for measuring a bio-signal of a user 10, (200), and a terminal (310) of a predetermined server (300) or another person (30).

The bio-signal measurement module 100 is a module for measuring at least one selected from the group including the pulse of the user 10, electrocardiogram, blood pressure, respiration signal, and body temperature, , A bracelet, a footrest, a belt, or the like. However, the present invention is not limited thereto, and can be applied in various forms. Since it plays a role of measuring the biological signals of the user 10 in real time, the user 10 can easily contact the body of the user 10, Preferably in a form that can be carried.

The smart device 200 is a component for implementing an automatic emergency situation detection and transmission method using a smart device for controlling the transmission of a danger signal through the measurement of a bio signal change and the setting of a plurality of passwords according to an embodiment of the present invention , Receives a bio-signal of the user (10) in real time from the bio-signal module (100), compares the numerical value of the transmitted bio-signal of the user (10) with a predetermined numerical value and, if the difference exceeds a predetermined tolerance, Transmits the danger signal and the current state data, receives the preset password, stops the transmission of the danger signal, and so on. The smart device 200 refers to a product that is not limited in functionality and can be changed or expanded substantially through an application program. Typically, the smart device 200 is a smart phone capable of downloading and installing an application (software) . However, the present invention is not limited to this, and it can serve as a smart device of the present invention regardless of the specific terminal type if automatic emergency detection and transmission software such as an iPad or a tablet PC can be installed. However, the present invention plays a role of receiving real-time bio-signal information of the user 10, and is most preferably a smart phone that is portable and portable by an ordinary person.

The automatic emergency situation detection and transmission software installed in the smart device 200 is programmed to perform a series of steps according to an embodiment of the present invention. In the present invention, the smart device 200, So that the automatic emergency situation detection and transmission function can be performed. That is, it is not necessary to provide a separate expensive apparatus, which is very economical and has an advantage of being utilized.

The terminal 310 of the predetermined server 300 or the other user 30 receives the risk of the user 10 and receives a server provided in an organization capable of providing assistance to the user 10, Or a smart device of another user located in close proximity. This will be described in detail below with reference to FIG.

FIG. 2 is a diagram illustrating a flow of an automatic emergency situation detection and transmission method using a smart device that controls dangerous signal transmission through measurement of a biological signal change and a plurality of passwords according to an embodiment of the present invention. 2, a method for detecting and transmitting an automatic emergency situation using a smart device according to an exemplary embodiment of the present invention includes: (S200) of comparing the numerical value of the transmitted user's biometric signal with a predetermined numerical value, and when the difference in the numerical value compared in the step S200 exceeds a predetermined allowable value, Transmitting the signal and the current state data to a terminal of a predetermined server or a third party (S300), and stopping the transmission of the dangerous signal by receiving a preset password (S400).

In step S100, the smart device 200 installed with the automatic emergency situation detection and transmission software can receive the biological signal of the user 10 from the biological signal measurement module 100 in real time. The biological signal may be at least one selected from the group including pulse, electrocardiogram, blood pressure, respiration signal, and body temperature as described above with reference to Fig. The smart device 200 receives biometric signals from the bio-signal measurement module 100 in any one of short-range communication selected from the group including WI-FI, UWB, BAN, ANT, ZigBee, infrared communication and Bluetooth have. That is, a pulse or the like may be measured in real time from the bio-signal measurement module 100 carried by the user 10, and the measurement value may be transmitted to the smart device 200 through the short-distance communication.

In step S200, the smart device 200 installed with the automatic emergency situation detection and transmission software may compare the numerical value of the biological signal of the user 10 transmitted in step S100 with a predetermined numerical value. The predetermined value refers to a normal value and is a numerical value predetermined for the comparison object in order to determine whether the user 10 is in danger and has a change in the biological signal. In some embodiments, it may be a standard biometric signal value according to the weight, height, and age of the user 10. In this case, a function of checking the health state of the user 10 can also be performed. According to another embodiment, the predetermined value may be an average bio-signal value at each activity mode of the user 10, which may be used to determine whether there is a change in everyday life and mind and body The purpose can be achieved even if the normal average body signal value of the user 10 is set as the comparison target. In addition, the average body signal standard may be set for each activity mode, such as when working, when exercising, or when eating.

In step S300, the smart device 200 installed with the automatic emergency situation detection and transmission software determines whether the difference of the values compared in step S200 is out of a predetermined tolerance, (Hereinafter referred to as " designated destination ") of a predetermined server or another person. Since the human vital signs are easily changed depending on the environment and the situation, it is difficult to say that the degree of the slight change of the numerical value is not in danger. Therefore, in case of feeling extreme psychological anxiety, it is necessary to preliminarily change the numerical value or the degree of change requiring the physical assistance of the other person, so that the danger signal is not transmitted to the change below the predetermined value. Also, the present state data can be transmitted together to determine the risk directly at the designated destination.

The danger signal can be transmitted to any one selected from the group including Short Message Service (SMS), Multimedia Message Service (MMS), Long Message Service (UMS) United Message Service (UMS) and Push Notification. Such a transmission method can be applied to a secondary danger signal or a threat signal to be described later.

The designation destination refers to an object to which the user 10 can ask for help in a broad sense. However, the designation destination in the narrow sense used in the present invention is not limited to a predetermined server 300 or a terminal 310 of another person And devices that transmit information to those who can request it. Accordingly, the server 300 may be a server provided in at least one selected from the group including a police station, a fire station, and an emergency medical center, or may be a separate service providing server for providing an emergency detection and transmission service. The terminal 310 of the other person may be a protector of the user 10 or a cellular phone of an acquaintance previously designated by the user 10. [ In some embodiments, it may be a smart device of another user who is present in the area where the user 10 is located and is using the automatic emergency situation detection and transmission method proposed in the present invention. Other users' smart devices may be equipped with automatic emergency detection and transmission software, which may facilitate the delivery of the hazardous situation and may help the user 10 more quickly as they are located nearby.

In addition, after the danger signal and the current state data are transmitted from the smart device 200, the designation destination may transmit the emergency signal to at least one selected from the group including the police station, the fire station, and the hospital depending on whether an emergency occurs It can also be implemented. For example, when the smart device 200 transmits the danger signal and the current state data to the guardian's terminal 310 (designated destination), the guardian looks at it and determines the risk more precisely. Then, Signal. When the designated destination is a separate service providing server for providing the emergency detection and transmission service, the service providing server can perform the risk determination and emergency signal transmission.

FIG. 3 is a flow chart illustrating a process of implementing steps S100 to S300 in an automatic emergency situation detection and transmission method using a smart device for controlling a dangerous signal transmission through measurement of a biological signal change and setting of a plurality of passwords according to an embodiment of the present invention. Fig. 3, according to an embodiment of the present invention, the bio-signal measurement module 100 provided in the body of the user 10 in a clock form measures the pulse and the body temperature of the user 10 in real time To the smart device (200). When the user 10 is threatened by the assailant 20, the pulse is accelerated due to anxiety and fear, and the smart device 200 can detect a sudden change in the biological signal of the user 10 and judge that the user 10 is in a dangerous situation have. The smart device 200 can transmit a danger signal to the server 300 or the mobile phone 310 of the guardian 30 when it is determined that the risk is a dangerous situation.

In step S400, the smart device 200 installed with the automatic emergency situation detection and transmission software may receive the preset password and stop the transmission of the dangerous signal. Even if the user 10 is not in need of help, the biological signal may be changed due to various reasons and the danger signal may be transmitted. In this case, The danger signal transmission can be stopped. However, if the danger signal transmission is stopped simply by depressing the cancel button, the risk signal transmission may be stopped by the will of the assailor 20, rather than the will of the user 10. Therefore, So that it can be stopped only by the will of the user 10. On the other hand, the password may be a combination of characters, or a combination of patterns used in a mobile phone locking function.

FIG. 4 is a block diagram illustrating a smart device that receives a predetermined password in an automatic emergency situation detection and transmission method using a smart device that controls dangerous signal transmission through measurement of a bio-signal change and a plurality of passwords according to an embodiment of the present invention. Fig. As shown in FIG. 4, when the user 10 enters a password out of a dangerous situation, the smart device 200 recognizes that the dangerous situation has been terminated, displays a 'dangerous situation end' message, The signal transmission can be stopped.

FIG. 5 is a diagram illustrating a flow of an automatic emergency situation detection and transmission method using a smart device for controlling a dangerous signal transmission through measurement of a biological signal change and setting of a plurality of passwords according to another embodiment of the present invention. As shown in FIG. 5, according to an automatic emergency situation detection and transmission method using a smart device that controls dangerous signal transmission through measurement of a bio-signal change and setting of a plurality of passwords according to another embodiment of the present invention, 200 transmits a secondary danger signal to the designated destination when it receives a character combination other than the preset password (S410). That is, in the case where the user 10 receives a threat and inputs a password, or in case a wrong password is input in response to a situation where the assailant 20 arbitrarily inputs a password (when a different character or combination of patterns is input ), It can send a second danger signal that could be a more dangerous situation. The secondary risk signal may be in the form of a message indicating that an incorrect password is being entered along with the danger signal already being transmitted.

According to the embodiment, the risk signal transmission is stopped only when a plurality of signals are divided into a signal stop password and a signal weighted password and the signal stop password is input from a plurality of passwords, and the signal weighted password is input The transmission of the danger signal is stopped on the smart device 200. However, a threat signal indicating that the danger signal transmission is continuing and the threat is being received may be further transmitted to the designation destination. FIG. 6 is a flowchart illustrating a method of detecting and transmitting an automatic emergency situation using a smart device for controlling a dangerous signal transmission through measurement of a bio-signal change and setting a plurality of passwords according to an embodiment of the present invention. And a signal is transmitted. For example, the signal stop password may be set to '5169', and the signal weighted password may be set to '2312'. 6, when the user 10 is threatened to input the stoppage password from the abuser 20, if the user inputs '2312', the smart device 200 displays a 'end of dangerous situation' screen The assailant 20 can be relieved. However, in reality, the server 300 may be further transmitted with a threat signal (e.g., a threat is received) to convey the situation of exposure to the crime. Also, depending on the embodiment, the same effect can be achieved even when an incorrect password is input, such as 8745, 2257, 1158, or the like.

Meanwhile, FIG. 7 is a diagram illustrating a flow of an automatic emergency situation detection and transmission method using a smart device for controlling a dangerous signal transmission through measurement of a biological signal change and setting of a plurality of passwords according to another embodiment of the present invention. As shown in FIG. 7, in step S300, when the difference of the compared values in step S200 exceeds a predetermined allowable value, the smart device 200 itself issues an alarm (S310) and automatically operates the GPS module (S320), or may automatically implement the camera module or the voice recording module to transmit the user's peripheral information shot or recorded.

8 is a diagram illustrating a smart device for generating an alarm in an automatic emergency situation detection and transmission method using a smart device for controlling transmission of a danger signal through measurement of a bio signal change and setting of a plurality of passwords according to another embodiment of the present invention to be. As shown in FIG. 8, an alarm function may be added to the smart device 200 itself so that an alarm such as " a dangerous situation " is generated in the smart device 200. By employing such a configuration, it is possible to listen to an alarm sound in the vicinity of the user 10, to help him, and to make the perpetrator 20 uneasy.

9 is a flowchart illustrating an automatic emergency situation detection and transmission method using a smart device for controlling a dangerous signal transmission through measurement of a biological signal change and a plurality of passwords according to another embodiment of the present invention. Fig. Since the smart device 200 can be equipped with the GPS module, when the dangerous situation is determined, the smart module automatically operates the GPS module to transmit the location information including the user's current location and the movement route to the server 300 in real- Can be transmitted together. By adopting such a configuration, it is possible to quickly identify a crime scene or an accident scene. In some embodiments, the smart device 200 may be equipped with a 3G, 4G (LTE) or WI-FI module and, if a risk condition is determined, automatically transmit a 3G, 4G To acquire user location information through the corresponding base station access point (AP), and to transmit the acquired location information to the server 300 or the like.

In addition, since the camera module or the voice recording module can be mounted on the smart device 200, when the dangerous situation is determined, the camera module or the voice recording module can be automatically operated to record or record the surrounding situation. The photographed or recorded user peripheral information is transmitted to the server 300 together with a danger signal in real time so that the police can easily grasp the current situation and can be used as evidence.

In recent years, the bio-signal measuring device has become smaller and cheaper, and the smart device 200 is becoming commonplace. Therefore, it is expected that the accessibility of the emergency detection and transmission method proposed in the present invention will be remarkably improved. Further, according to the present invention, it is possible to quickly respond to an emergency situation without the consciousness, recognition, and action of the user 10, thereby increasing the crime detection rate, quickly rescuing the victim, and prompt treatment of emergency patients. Therefore, it is possible to solve the problem that it is a scapegoat due to delayed reporting time or unreported situation. In addition, if the automatic spreading of the automatic emergency situation detection and transmission method according to the present invention is performed, it is impossible to know who is wearing such a system, and thus it is possible to prevent and suppress strong crimes such as making the psychology of the offenders unstable .

In addition, the user 10 can easily check and monitor his / her health condition by adding a function of checking the health state of the user 10, and can also be used as medical equipment in conjunction with a hospital server, It is expected that utilization will be even higher.

The present invention may be embodied in many other specific forms without departing from the spirit or essential characteristics of the invention.

10: User 20: The offender
30: Protector 100: Biological signal measurement module
200: smart device 300: server
310: Terminal of another person
S100: The smart device installed with automatic emergency situation detection and transmission software receives the user's biometric signal from the bio-signal measurement module in real time
S200: comparing the numerical value of the transmitted biological signal of the user with a predetermined numerical value
S300: When the difference between the compared values in step S200 is out of a predetermined tolerance, the risk signal and the current state data are automatically transmitted to a terminal of a predetermined server or another person (hereinafter, referred to as a "designated place")
S310: When the difference of the compared values in step S200 exceeds a predetermined allowable value, the smart device issues an alarm
S320: when the difference between the compared values in step S200 exceeds a predetermined allowable value, the GPS module is automatically operated to transmit the user location information together with the danger signal
S330: when the difference between the compared values in step S200 exceeds a predetermined allowable value, the camera module or the voice recording module is automatically operated to transmit the user peripheral information shot or recorded together with the danger signal
S400: stopping the transmission of the dangerous signal by receiving the preset password
S410: When a character combination other than a preset password is inputted, a second danger signal is transmitted to the destination
S420: When a signal-weighted password is input from among a plurality of passwords set in advance, a danger signal transmission stop screen appears on the smart device, and a threat signal is further transmitted to the designated destination along with the danger signal

Claims (12)

Smart device with automatic emergency detection and transmission software installed,
(1) receiving a user's biological signal from a bio-signal measurement module in real time;
(2) comparing the numerical value of the user's biological signal transmitted in the step (1) with a predetermined numerical value;
(3) If the difference of the compared values in step (2) exceeds a predetermined allowable value, the risk signal and the current state data are automatically set to 'predetermined terminal or server of another server'; And
(4) When a signal stop password is inputted among a plurality of passwords set in advance, the transmission of the danger signal is stopped,
When receiving the signal weighted password among the plurality of passwords set in advance, it is indicated that the danger signal transmission is stopped on the smart device, but the threat signal is further transmitted to the destination with the continuation of the danger signal transmission,
And transmitting a second danger signal to the destination when the wrong password is input, not the predetermined plurality of passwords. The method according to claim 1, wherein the risk signal transmission is controlled through measurement of the biological signal change and setting of a plurality of passwords A method for detecting and transmitting an automatic emergency situation using a smart device.
delete delete 2. The method according to claim 1,
Wherein the at least one selected from the group consisting of a heart rate monitor, a heart rate monitor, an electrocardiogram, a blood pressure, a respiration signal, and a body temperature, And transmission method.
The smart device according to claim 1,
Wherein the living body signal is transmitted from the living body signal measurement module to any one of short-range communication selected from the group including WI-FI, UWB, BAN, ANT, Zigbee, infrared communication, and Bluetooth. A method for detecting and transmitting an automatic emergency situation using a smart device for controlling transmission of a danger signal through measurement and setting of a plurality of passwords.
2. The method according to claim 1, wherein the predetermined value in the step (2)
Wherein the control unit is a control unit that controls the transmission of the danger signal through the measurement of the biological signal change and the setting of a plurality of passwords, wherein the standard biological signal value according to the user's body weight, height, A method for detecting and transmitting an automatic emergency situation using a smart device.
The method according to claim 1,
The server predetermined in the step (3)
A police station, a fire station, and an emergency medical center,
In the step (3), the terminal of the non-
Characterized in that it is a smart device of another user installed in the area where the user is located and installed with the automatic emergency situation detection and transmission software or a cell phone of an acquaintance predetermined by the user. A method for detecting and transmitting an automatic emergency situation using a smart device that controls transmission of a danger signal through a setting.
2. The method of claim 1, wherein step (3)
The method of claim 1, further comprising the step of generating an alarm at the smart device when the difference of the compared values in step (2) exceeds a predetermined allowable value. A method for detecting and transmitting an automatic emergency situation using a smart device for controlling an emergency situation.
The method according to claim 1,
The smart device includes at least one selected from the group including a GPS module, a 3G module, a 4G (LTE) module, and a WI-FI module,
The step (3)
If at least one of the GPS module, the 3G module, the 4G (LTE) module, and the WI-FI module is automatically operated in a case where the difference of the compared values in step (2) And transmitting the location information of the user together with the risk signal. The method of claim 1, wherein the automatic emergency situation detection and the emergency state detection are performed using a smart device that controls the transmission of the danger signal through the measurement of the biological signal change and the setting of a plurality of passwords. Transmission method.
The method according to claim 1,
The smart device is equipped with a camera module or a voice recording module,
The step (3)
And transmitting the peripheral information of the user who has photographed or recorded by operating the camera module or the voice recording module together with the danger signal when the difference of the compared values in the step (2) exceeds a predetermined allowable value Further comprising the steps of: measuring a change in a biological signal and controlling a risk signal transmission through setting a plurality of passwords;
The method of claim 1, wherein the risk signal, the second risk signal,
The method according to any one of Claims 1 to 3, wherein the measurement is transmitted to any one selected from the group consisting of SMS (Short Message Service), MMS (Multimedia Message Service), LMS (Long Message Service) UMS And a smart device for controlling the transmission of a dangerous signal through a password setting of the smart card.
The method according to claim 1, wherein the designation of step (3)
Wherein the emergency signal is transmitted to at least one selected from the group consisting of a police station, a fire station, and a hospital according to whether an emergency occurs after receiving the danger signal and the current state data from the smart device. And a smart device for controlling transmission of a danger signal through a plurality of password settings.

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