KR20140013741A - 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

According to a method for automatically sensing and transmitting an emergency situation using a smart device to control the transmission of a danger signal by measuring a biological signal and setting a plurality of passwords suggested in the present invention, the emergency situation is automatically transmitted without the specific behavior or recognition of a user by automatically sensing and transmitting the emergency situation by using a biological signal measurement module. [Reference numerals] (100) Biological signal measurement module

Description

METHOD FOR DETECTING AND TRANSMITTING EMERGENCY SITUATIONS USING SMART DEVICE THAT CONTROL DANGER SIGNAL TRANSMISSION USING THE PHYSIOLOGICAL SIGNAL AND PLURAL PASSWORD}

The present invention relates to an automatic emergency detection and transmission method, and more specifically, to detect an emergency situation by changing a biological signal to transmit a danger signal, and to control whether or not to transmit a danger signal through a plurality of password settings, The present invention relates to an automatic emergency detection and transmission method using a smart device that controls the transmission of a danger signal by measuring a change in a biosignal and setting 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 high possibility of exposure to unexpected crime situations due to the proliferation of various incidents and accidents, including violent crimes, the technology in the field of personal emergency response does not escape from the conventional method, so that efficient and rapid response It is not happening.

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 have a problem in that an individual must press a button with a consciousness, and thus become useless when the user cannot press the button even if he or she is unconscious due to a sudden accident.

Recently, such as an emergency pager (see patent application No. 10-2009-0109655) which detects, judges and calls an emergency situation of a user wearing a device by a sensor, an emergency situation using a pulse wave and acceleration of a human body is performed. The method of judging began to be developed. However, these methods also have a problem that a separate dedicated terminal must be used, and the size of the device is too large and heavy and too expensive for improved functions such as a data transfer function beyond a simple call. In addition, since the call can be simply stopped by the will of the person who does the harm, not the user, it is difficult to function effectively in a criminal situation.

The present invention has been proposed to solve the above problems of the conventionally proposed methods, and automatically detects and transmits an emergency situation using a biosignal measurement module, thereby automatically exerting a user without recognizing or applying a specific action. It is an object of the present invention to provide an automatic emergency situation detection and transmission method using a smart device that controls the transmission of danger signals by measuring the change in the bio-signals and setting a plurality of passwords that can communicate the situation.

In addition, the present invention, by performing each step through a smart device equipped with automatic emergency detection and transmission software, it is possible to detect and transmit the emergency by simple software installation without a separate dedicated device, economical and high utilization, bio-signal Another object of the present invention is to provide an automatic emergency detection and transmission method using a smart device that controls the transmission of a danger signal by measuring change and setting a plurality of passwords.

In addition, the present invention, including the step of stopping the transmission of the dangerous signal by receiving a predetermined password, the smart device, through the biological signal change measurement and a plurality of password settings that can effectively stop unnecessary dangerous signal transmission Another object is to provide an automatic emergency detection and transmission method using a smart device that controls the transmission of danger signals.

Furthermore, the present invention sets up a plurality of passwords including a signal stop password and a signal weighted password, and implements further transmission of a threat signal when the signal weighted password is input, thereby transmitting a danger signal by a risker. Automated using a smart device that controls the transmission of dangerous signals through measurement of biosignal changes and multiple password settings, which prevents them from being stopped and that aggravated signal transmission indicates that the system is actively exposed to crime until the system is stopped. It is another object to provide an emergency detection and transmission method.

Automatic emergency detection and transmission method using a smart device for controlling the danger signal transmission by measuring the change in the bio-signals and setting a plurality of passwords according to the characteristics of the present invention for achieving the above object, automatic emergency detection and transmission software Smart device with

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

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

(3) When the difference in the numerical values compared in step (2) is outside the predetermined allowance, the danger signal and the current state data are automatically referred to as 'predetermined servers or terminals of others' (hereinafter referred to as 'designated destination'). Transmitting to; And

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

Preferably,

When the character and pattern combination other than the preset password is input in step (4), the second danger signal may be transmitted to the designated place.

Preferably,

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

The dangerous signal transmission is stopped only when the signal stop password is input among the plurality of passwords, and when the signal weighted password is input, the dangerous signal transmission is stopped on the smart device. And a threat signal may be sent further.

Preferably, the bio-signal,

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

Preferably, the smart device,

The biosignal may be transmitted from the biosignal measuring module by any one short-range communication selected from a group including WI-FI, UWB, BAN, ANT, Zigbee, infrared communication, and Bluetooth.

Preferably, the predetermined value in the step (2),

It may be a standard biosignal value according to the weight, height and age of the user, or the average biosignal value of each user's active mode.

Preferably,

The server predetermined in the step (3),

The server is provided at one or more selected from the group including the police station, fire department, and emergency medical center,

In step (3), the terminal of another person,

It may be a smart device of another user in the area where the user is located and the automatic emergency situation detection and transmission software is installed, or a mobile phone of an acquaintance designated by the user in advance.

Preferably, the step (3)

If the difference in the numerical value compared in the step (2) is out of a predetermined allowable value, it may further comprise the step of generating an alarm in the smart device.

Preferably,

The smart device is equipped with any one or more selected from the group including a GPS module, a 3G module, a 4G (LTE) module, and a WI-FI module.

Step (3),

If the difference in the values compared in step (2) is outside the predetermined tolerance, automatically activate any one or more selected from the group comprising the GPS module, 3G module, 4G (LTE) module, and WI-FI module And transmitting the user location information together with the danger signal.

Preferably,

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

Step (3),

If the difference in the values compared in the step (2) is outside the predetermined allowance, the step of automatically operating the camera module or the voice recording module to transmit the information surrounding the user recorded or recorded with the danger signal further It may include.

More preferably, the danger signal, secondary danger signal, or threat signal,

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

Preferably, the designation of step (3),

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

According to the automatic emergency detection and transmission method using a smart device that controls the transmission of danger signals through the measurement of the change in the bio-signals proposed by the present invention and the setting of a plurality of passwords, the emergency signal is automatically detected using the bio-signal measurement module. By sending and sending, the emergency situation can be automatically delivered without the user's knowledge or action.

In addition, according to the present invention, by performing each step through the smart device equipped with automatic emergency detection and transmission software, it is possible to detect and transmit the emergency by simple software installation without a separate device, economical and high utilization.

In addition, according to the present invention, the smart device may receive an input of a preset password and stop transmitting the dangerous signal, thereby effectively stopping the unnecessary dangerous signal transmission.

Furthermore, according to the present invention, by setting a plurality of passwords including a signal stop password and a signal weighted password, and transmitting a threat signal when the signal weighted password is input, the danger signal is transmitted by the person who performs the hazard. This can be prevented from being suspended, and the weighted signal transmission can indicate that the system is actively exposed to crime until the system is stopped.

1 is a diagram illustrating a system for implementing an automatic emergency detection and transmission method using a smart device that controls the transmission of a danger signal by measuring a change in a biological signal and setting a plurality of passwords according to an embodiment of the present invention.
Figure 2 is a diagram illustrating the flow of automatic emergency detection and transmission method using a smart device to control the transmission of danger signals by measuring the change in the bio-signals and setting a plurality of passwords according to an embodiment of the present invention.
3 is a diagram illustrating a process in which steps S100 to S300 are implemented in an automatic emergency detection and transmission method using a smart device that controls a danger signal transmission by measuring a change in a biosignal and setting a plurality of passwords according to an embodiment of the present invention. One drawing.
4 is a diagram illustrating a smart device that receives a predetermined password in an automatic emergency detection and transmission method using a smart device that controls risk signal transmission by measuring a change in a biosignal and setting a plurality of passwords according to an embodiment of the present invention. One drawing.
5 is a diagram illustrating a flow of an automatic emergency detection and transmission method using a smart device for controlling the transmission of a danger signal by measuring a change in a bio signal and setting a plurality of passwords according to another embodiment of the present invention.
6 is a threat of a smart device that receives a signal weighted password in an automatic emergency situation detection and transmission method using a smart device that controls a dangerous signal transmission by measuring a change in a biological signal and setting a plurality of passwords according to an embodiment of the present invention A diagram illustrating a process of transmitting a signal.
7 is a diagram illustrating the flow of an automatic emergency detection and transmission method using a smart device that controls the transmission of danger signals through the measurement of the change in bio-signals and setting 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 detection and transmission method using a smart device for controlling a danger signal transmission by measuring a change in a biosignal and setting a plurality of passwords according to another embodiment of the present invention. .
FIG. 9 is a diagram illustrating user location information transmitted through GPS in an automatic emergency detection and transmission method using a smart device for controlling a danger signal transmission by measuring a change in a biosignal and setting a plurality of passwords according to another embodiment of the present invention. A diagram illustrating the process.

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 diagram illustrating a system for implementing an automatic emergency detection and transmission method using a smart device that controls the transmission of a danger signal by measuring a change in a bio signal and setting a plurality of passwords according to an embodiment of the present invention. As shown in FIG. 1, a system for implementing an automatic emergency detection and transmission method according to an embodiment of the present invention includes a biosignal measurement module 100 and a smart device for measuring a biosignal of a user 10. 200, and a terminal 310 of a predetermined server 300 or another person 30.

The biosignal measurement module 100 is a module for measuring at least one or more selected from the group including the pulse, electrocardiogram, blood pressure, respiration signal, and body temperature of the user 10. It may be implemented in a form attached to a bracelet, anklet, or a belt. 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 detection and transmission method using a smart device that controls the transmission of a danger signal by measuring a change in a biosignal and setting a plurality of passwords according to an embodiment of the present invention. When the biosignal of the user 10 is received from the biosignal module 100 in real time, the biosignal of the user 10 is compared with a predetermined value, and the difference is out of a predetermined tolerance. It transmits a danger signal and current status data, and receives a preset password to stop transmitting a danger signal. The smart device 200 refers to a product which is not limited in function and can change or expand a large part of functions through an application program, and a smart phone that can download and install an application (software) is a typical example. . However, the present invention is not limited thereto, and any automatic emergency detection and transmission software such as an iPad or a tablet PC may be installed, and may serve as a smart device of the present invention regardless of a specific terminal type. However, the present invention is to play a role of receiving the real-time bio-signal information of the user 10, the portability is good is most preferably a smart phone carried by the general man.

The automatic emergency 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, such a smart device 200 is commonly used as described above. It simply installs the software into the system to perform automatic emergency detection and transmission. 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 another person 30 is a server provided in an institution capable of receiving the dangerous situation of the user 10 and helping the user 10, the acquaintance of the user 10. Cell phone, or another user's smart device located nearby. This will be described in detail with reference to FIG. 3.

2 is a diagram illustrating the flow of an automatic emergency detection and transmission method using a smart device that controls the transmission of a danger signal by measuring a change in a biological signal and setting a plurality of passwords according to an embodiment of the present invention. As shown in Figure 2, the automatic emergency situation detection and transmission method using a smart device according to an embodiment of the present invention, the smart device with automatic emergency situation detection and transmission software is installed, the user's biometrics from the biological signal measurement module Receiving a signal in real time (S100), comparing the numerical value of the user's biological signal with the predetermined value (S200), if the difference in the value compared in the step S200 is outside the predetermined allowance, risk automatically And transmitting the signal and the current state data to the 'predetermined server or terminal of another person' (S300), and stopping the dangerous signal transmission (S400) by receiving a preset password.

In operation S100, the smart device 200 in which the automatic emergency situation detection and transmission software is installed may receive the biosignal of the user 10 from the biosignal measurement module 100 in real time. The biosignal 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. 1. The smart device 200 may receive the biosignal from the biosignal measurement module 100 in any one short-range communication selected from the group including WI-FI, UWB, BAN, ANT, Zigbee, infrared communication, and Bluetooth. have. That is, the pulse and the like may be measured in real time from the biosignal measurement module 100 of the user 10, and the measured value may be transmitted to the smart device 200 through short-range communication.

In operation S200, the smart device 200 in which the automatic emergency situation detection and transmission software is installed may compare the numerical value of the biosignal of the user 10 received in operation S100 with a predetermined 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. According to an embodiment, the standard biosignal value may be determined 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 detection and transmission software determines whether the difference between the values compared in step S200 is outside the predetermined allowance, and automatically exits the dangerous signal and the current state data when it is out of step. Can be transmitted to a predetermined server or a terminal of another person (hereinafter referred to as a designated place). Human signals are easily changed according to the environment and the situation, so it is hard to think that the situation is in danger only by the slight change of the figures. Therefore, in the case of extreme psychological anxiety, the numerical change or the numerical change that requires the help of another person in advance is determined in advance, and no danger signal is transmitted to the subsequent change. In addition, the current state data can be transmitted together to implement the risk determination directly at the designated place.

The danger signal may be transmitted to any one selected from the group including a Short Message Service (SMS), a Multimedia Message Service (MMS), a Long Message Service (LMS) United Message Service (UMS), and a push notification. Such a transmission method may be applied to a second danger signal or a threat signal, which will be described later.

The designation destination broadly means an object to which the user 10 can ask for help, but the narrow designation destination used in the present invention may be assisted like the predetermined server 300 or the terminal 310 of another person. Refers to a device, device, etc. that delivers information to a subject who can request. Therefore, the server 300 may mean 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 that provides an emergency detection and transmission service. The terminal 310 of another person may be a protector of the user 10 or a mobile phone of an acquaintance designated by the user 10 in advance. According to an exemplary embodiment, the present invention may be a smart device of another user who exists in the area where the user 10 is located and uses the automatic emergency situation detection and transmission method proposed by the present invention. Another user's smart device is equipped with automatic emergency detection and transmission software can facilitate the delivery of dangerous situations, and because it is located close to help the user 10 more quickly.

In addition, the designated place, after receiving the danger signal and the current state data from the smart device 200, to transmit the emergency signal to any one or more selected from the group including the police station, fire department, and hospital according to whether an emergency situation occurs. It can also be implemented. For example, when the smart device 200 transmits a danger signal and current state data to the guardian's terminal 310 (designated place), the guardian looks at this and further determines whether there is a risk, and then designates an agency that needs help to make an emergency. It can be implemented to transmit a signal. If the designated place is a separate service providing server that provides an emergency detection and transmission service, the service providing server may perform risk determination and emergency signal transmission.

3 is a diagram illustrating a process in which steps S100 to S300 are implemented in an automatic emergency detection and transmission method using a smart device that controls a danger signal transmission by measuring a change in a biosignal and setting a plurality of passwords according to an embodiment of the present invention. One drawing. As shown in FIG. 3, according to an embodiment of the present invention, the biosignal measuring module 100 provided to the body in the form of a watch by the user 10 measures the pulse and body temperature of the user 10 in real time. Can be transmitted to the smart device 200. When the user 10 is threatened by the abuser 20, the pulse becomes faster due to anxiety and fear, and the smart device 200 may detect a sudden change in the biosignal of the user 10 and determine that the user is in danger. have. If it is determined that the smart device 200 is a dangerous situation, the smart device 200 may transmit the dangerous signal to the mobile phone 310 of the server 300 or the guardian 30.

In operation S400, the smart device 200 having the automatic emergency detection and transmission software installed therein may receive a preset password and stop transmitting the danger signal. Even if the user 10 is not in need of help, the biosignal may be changed and transmit a danger signal for various reasons, and may be already out of the danger situation with the help of a neighbor. In this case, the user 10 Danger signal transmission can be stopped. However, if the dangerous signal transmission is stopped by simply pressing the cancel button, the dangerous signal transmission may be stopped at the will of the perpetrator 20, not the will of the user 10, so that only the user 10 may enter a password. It can be implemented so that it can be stopped only by the user 10 will. The password may be a combination of characters or a combination of patterns used in the mobile phone lock function.

4 is a diagram illustrating a smart device that receives a predetermined password in an automatic emergency detection and transmission method using a smart device that controls risk signal transmission by measuring a change in a biosignal and setting a plurality of passwords according to an embodiment of the present invention. One drawing. 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 ended, displays a 'end of dangerous situation' message, and at the same time, Signal transmission can be stopped.

5 is a diagram illustrating the flow of an automatic emergency detection and transmission method using a smart device that controls the transmission of a dangerous signal by measuring a change in a biological signal and setting a plurality of passwords according to another embodiment of the present invention. As shown in Figure 5, according to another embodiment of the present invention according to the automatic emergency detection and transmission method using a smart device that controls the transmission of the danger signal by measuring the change in the bio-signals and a plurality of password settings, smart device ( When 200 is a character combination other than a preset password, the second danger signal may be transmitted to a designated place (S410). In other words, when the user 10 is threatened and inputs a password, or when the abuser 20 inputs a password arbitrarily, when an incorrect password is input (a combination of different characters or patterns is input). ), It can send a second danger signal that it could be a more dangerous situation. The secondary danger signal may be in the form of a message indicating that an incorrect password is being entered along with a danger signal that is already being transmitted.

Further, according to the embodiment, the signal is divided into a signal stop password and a signal weighted password, and a plurality of passwords are set in advance, and the dangerous signal transmission is stopped only when the signal stop password is input from among the plurality of passwords, and the signal weighted password is input. In this case, the dangerous signal transmission is stopped on the smart device 200, but the threat signal may be further transmitted to the designated place indicating that the dangerous signal transmission continues and is under threat. 6 is a threat of a smart device that receives a signal weighted password in an automatic emergency situation detection and transmission method using a smart device that controls a dangerous signal transmission by measuring a change in a biological signal and setting a plurality of passwords according to an embodiment of the present invention A diagram illustrating a process of transmitting a signal. For example, a plurality of signal stop passwords may be set to '5169' and a signal weighted password to '2312'. As shown in FIG. 6, when the user 10 is threatened to enter a stop password from the assailant 20, when the user enters '2312', the 'end of dangerous situation' screen appears on the smart device 200 itself. The assailant 20 can be assured. In practice, however, the server 300 may transmit a threat signal (for example, a situation under threat) to transmit a situation exposed to a crime. In addition, depending on the embodiment, even if an incorrect password is input, such as 8745, 2257, 1158 may be implemented to have the same effect.

On the other hand, Figure 7 is a diagram illustrating the flow of a method for automatic emergency detection and transmission using a smart device for controlling the transmission of danger signals through the measurement of the change in the bio-signal and setting a plurality of passwords according to another embodiment of the present invention. As shown in FIG. 7, in step S300, when the difference in the numerical value compared in step S200 is out of a predetermined allowable value, the smart device 200 issues an alarm (S310) or automatically operates the GPS module. By transmitting the user location information (S320), or by automatically operating the camera module or the voice recording module may be implemented to transmit the information around the user photographed or recorded.

FIG. 8 is a diagram illustrating a smart device for generating an alarm in an automatic emergency detection and transmission method using a smart device for controlling a danger signal transmission by measuring a change in a biosignal and setting a plurality of passwords according to another embodiment of the present invention. to be. As illustrated in FIG. 8, an alarm function may be added to the smart device 200 itself to implement an alarm such as “it is a dangerous situation” in the smart device 200. By adopting such a configuration, it is possible to hear and help the alarm sound around the user 10, there is an effect such as to make the abuser 20 anxious.

FIG. 9 is a diagram illustrating user location information transmitted through GPS in an automatic emergency detection and transmission method using a smart device for controlling a danger signal transmission by measuring a change in a biosignal and setting a plurality of passwords according to another embodiment of the present invention. A diagram illustrating the process. Since the smart device 200 may be equipped with a GPS module, when a dangerous situation is determined, the smart device 200 automatically operates the GPS module to provide the server 300 with a location information including a current location and a moving path of the user in real time. Can be sent together. By adopting such a configuration, a crime scene or an accident scene can be identified quickly. According to an embodiment, the smart device 200 may be equipped with a 3G, 4G (LTE) or WI-FI module, and automatically determines the 3G, 4G (LTE) or WI-FI module when a dangerous situation is determined. It can be operated to obtain the user location information through the access point (AP) of the local base station, and transmit the acquired location information to the server (300).

In addition, since the smart device 200 may be equipped with a camera module or a voice recording module, when a dangerous situation is determined, the smart device 200 may automatically implement the camera module or the voice recording module to shoot or record the surrounding situation. The user's surrounding information recorded or recorded is transmitted to the server 300 with a danger signal in real time, so that the police station, etc., may easily grasp the current situation and may be used as evidence later.

In recent years, the biosignal measuring apparatus has been miniaturized and inexpensive, and the smart device 200 is generally used, and thus, the emergency situation detection and transmission method proposed by the present invention is expected to significantly improve its accessibility. In addition, according to the present invention, it is possible to respond quickly to the emergency situation without the consciousness, recognition, or action of the user 10 to increase the crime arrest rate, to quickly rescue the victim, it is also possible to quickly treat the emergency patient. Therefore, the problem of becoming a victim of crime unfortunately due to the late reporting or inability to report can be solved. Furthermore, if the widespread dissemination of the automatic emergency situation detection and transmission method according to the present invention is made, it is not possible to know who is equipped with such a system, so it may also have a strong crime prevention and suppression effect such as making the psychology of the criminal uneasy. .

In addition, by adding a function of checking the health status of the user 10, the user 10 can easily check and monitor his or her health status, and it is possible to be multifunctional, such as using it as a medical equipment in conjunction with a hospital server. Its utilization is expected to 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: Offender
30: guardian 100: biological signal measurement module
200: smart device 300: server
310: another person's terminal
S100: step of receiving, by the smart device having the automatic emergency detection and transmission software, the user's bio signal from the bio signal measuring module in real time
S200: comparing the numerical value of the biological signal of the user with the predetermined value
S300: When the difference in the numerical value compared in step S200 is outside the predetermined allowance, the step of automatically transmitting the danger signal and the current state data to the 'predetermined server or another terminal' (hereinafter referred to as 'designated place')
S310: when the difference in the numerical value compared in step S200 is out of a predetermined allowable value, an alarm is issued by the smart device
S320: when the difference in the values compared in step S200 is outside the predetermined tolerance, automatically operating the GPS module to transmit the user location information with the danger signal
S330: when the difference in the values compared in step S200 is outside the predetermined allowance, automatically operating the camera module or the voice recording module to transmit the surrounding information of the user photographed or recorded with the danger signal
S400: receiving a preset password to stop transmitting a dangerous signal
S410: step of transmitting a second danger signal to a designated place when a character combination other than a preset password is inputted
S420: When the signal weighted password is input among a plurality of preset passwords, a dangerous signal transmission stop screen appears on the smart device, but further transmitting a threat signal together with the dangerous signal to a designated place.

Claims (12)

Smart devices with automatic emergency detection and transmission software
(1) receiving a user's bio signal from a bio signal measuring module in real time;
(2) comparing the numerical value of the biological signal of the user received in the step (1) with a predetermined value;
(3) When the difference in the numerical values compared in step (2) is outside the predetermined allowance, the danger signal and the current state data are automatically referred to as 'predetermined servers or terminals of others' (hereinafter referred to as 'designated destination'). Transmitting to; And
(4) detecting an emergency state by using a smart device that controls the transmission of the danger signal by measuring a change in the biosignal and setting a plurality of passwords, comprising: receiving a preset password and stopping the transmission of the danger signal; And transmission method.
The method of claim 1,
In the case of receiving a combination of characters and patterns other than the preset password in the step (4), the second danger signal is transmitted to the designated place, the danger signal through the bio signal change measurement and the plurality of password settings Automatic emergency detection and transmission method using a smart device that controls the transmission.
The method of claim 1,
The preset password in the step (4) is a plurality of including a signal stop password and a signal weighted password,
The dangerous signal transmission is stopped only when the signal stop password is input among the plurality of passwords, and when the signal weighted password is input, the dangerous signal transmission is stopped on the smart device. And the threat signal is further characterized in that the automatic emergency situation detection and transmission method using a smart device that controls the transmission of the danger signal through the measurement of the biological signal change and the plurality of password settings.
The method of claim 1, wherein the bio-signal,
Automatic emergency detection using a smart device that controls the transmission of danger signals through measurement of biosignal changes and a plurality of passwords, characterized in that at least one selected from the group including pulse, electrocardiogram, blood pressure, respiration signal, and body temperature And transmission method.
The method of claim 1, wherein the smart device,
The biosignal change is characterized in that the biosignal is transmitted from the biosignal measuring module by any one short-range communication selected from the group including WI-FI, UWB, BAN, ANT, Zigbee, infrared communication, and Bluetooth. Automatic emergency detection and transmission method using smart devices that control the transmission of danger signals through measurement and multiple password settings.
According to claim 1, wherein the predetermined value in the step (2),
It is a standard bio-signal value according to the weight, height and age of the user, or the average bio-signal value of each of the user's active mode, the risk signal transmission is controlled by measuring the change in the bio-signal and setting a plurality of passwords Automatic emergency detection and transmission using a smart device.
The method of claim 1,
The server predetermined in the step (3),
The server is provided at one or more selected from the group including the police station, fire department, and emergency medical center,
In step (3), the terminal of another person,
The biological signal change measurement and a plurality of passwords, characterized in that the smart device of another user in the area where the user is located and the automatic emergency situation detection and transmission software is installed, or a mobile phone of an acquaintance designated by the user in advance. Automatic emergency detection and transmission using smart devices that control the transmission of danger signals through settings.
2. The method of claim 1, wherein step (3)
When the difference in the numerical value compared in the step (2) is out of a predetermined allowable value, further comprising the step of generating an alarm in the smart device, the risk signal transmission through the bio-signal change measurement and a plurality of password settings Automatic emergency detection and transmission method using a smart device to control the.
The method of claim 1,
The smart device is equipped with any one or more selected from the group including a GPS module, a 3G module, a 4G (LTE) module, and a WI-FI module.
The step (3)
If the difference in the values compared in step (2) is outside the predetermined tolerance, automatically activate any one or more selected from the group comprising the GPS module, 3G module, 4G (LTE) module, and WI-FI module And transmitting the user location information together with the danger signal, and detecting and transmitting an automatic emergency situation using a smart device that controls the transmission of the danger signal by measuring a change in a bio signal and setting a plurality of passwords. Way.
The method of claim 1,
The smart device is equipped with a camera module or a voice recording module,
The step (3)
If the difference in the values compared in the step (2) is outside the predetermined allowance, the step of automatically operating the camera module or the voice recording module to transmit the information surrounding the user recorded or recorded with the danger signal further An automatic emergency detection and transmission method using a smart device that controls the transmission of the danger signal through the measurement of the change in the bio-signals and the plurality of password settings.
The method according to claim 1, wherein the danger signal, the secondary danger signal, or the threat signal,
Measurement and plurality of biological signal changes, characterized in that transmitted to any one selected from the group including Short Message Service (SMS), Multimedia Message Service (MMS), Long Message Service (LMS) United Message Service (UMS) and push notifications Automatic emergency detection and transmission method using a smart device that controls the transmission of danger signals through the password settings of.
The method of claim 1, wherein the designation of the step (3),
After receiving the danger signal and the current state data from the smart device, the emergency signal is transmitted to any one or more selected from the group including a police station, a fire station, and a hospital according to whether an emergency occurs, bio signal change measurement And Automatic emergency detection and transmission method using a smart device to control the transmission of the danger signal through a plurality of password settings.

Images