KR101986088B1 - Internet of thing device linked system for detecting abnormal bio-signals and the control method thereof - Google Patents

Abstract

The object of the present invention is to provide an apparatus and method for receiving a biometric signal of a subject Internet device, which is provided with at least one of sensors for sensing body temperature, heart rate and sweat, And a server for analyzing the biometric signal received from the mobile terminal and transmitting the biometric analysis data, wherein when the communication error with the mobile terminal occurs, To provide a system for interfacing an Internet device for detecting abnormal bio-signals to transmit a biosensing signal.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a system and method for controlling an Internet device,

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a system for interworking Internet devices for detecting abnormal biological signals and a control method thereof.

BACKGROUND ART Detection or measurement of human vital signs has been mainly studied and utilized in the medical field in the early stage. That is, detected or measured vital signs were used to check the patient's health condition or to treat the patient by measuring blood pressure, pulse, and the like.

In recent years, biological signals have been used not only in the medical field but also in the field of man-machine interface for grasping human emotional state. In particular, in order to provide more convenient and friendly communication means for human-machine interface, it is becoming essential to recognize human emotions using bio-signals. In response to this, various devices for detecting or measuring a bio-signal (or a physiological signal) and using it have been developed.

In this manner, the emotion state information recognized using the bio-signal may be provided to an external device. Thus, the external device provides a service corresponding to the emotional state of the user. At this time, the emotional state information of the user is transmitted to an external device using wired communication or wireless PAN (Personal Area Networks) communication technology such as Bluetooth or ZigBee.

A technique of collecting bio-signals of a subject by collecting and analyzing changes in electrical signals detected through electrodes attached to the body of a subject by applying the Internet of Things (IoT) technology has been proposed.

The bio-signal acquisition technology for interworking of such conventional Internet devices has grown along with the development of an electronic fabric, and has been recognized as a technology field with high growth potential in the future.

However, since the conventional biometrics technique using the object Internet device is intended to collect only bio-signals, after confirming the physical condition of the subject, it is necessary to perform follow-up necessary for urgent emergency situations (for example, dispatch of emergency personnel) It is necessary to improve the disadvantages.

In addition, although a conventional Internet device worn by a subject sends a biometric signal to a mobile terminal (for example, a smart phone, a notebook, or a tablet PC), communication between the mobile terminal and the object internet device is often interrupted The biometric information of the subject does not have continuity, so that detection of an abnormal signal or reliability of accumulated data is weakened.

Korean Patent Registration No. 10-1745760 (Jul. 2017) Korean Patent Laid-Open Publication No. 10-2016-0060535 (2016.05.30)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a method and apparatus for collecting a bio-signal of a subject, And a method of controlling the same.

In order to achieve the above object, the present invention can provide the following embodiments.

The object of the present invention is to provide an apparatus and method for detecting an object, including at least one of a sensor for detecting a body temperature, a heart rate and a sweat, A mobile terminal for outputting biological analysis data sensed by an Internet device, and a server for transmitting biometric analysis data by analyzing the biometric sense signal received from the mobile terminal. The mobile terminal transmits a biometric sense signal received from the object Internet device to a server And an application execution module for executing an application for outputting a biometric analysis data and a heat generation driving module for controlling a terminal communication unit to output a heat generation command to the object Internet device, Generates heat according to a heat generation command, communicates with the mobile terminal It is possible to provide a system for interfacing an object Internet device for detecting an abnormal biological signal that transmits a biosensor signal to a server through a remote wireless communication when an error occurs.

The present invention can transmit a bio-signal to at least one of a mobile terminal and a server so that collection of bio-signals of the subject is not interrupted, and a mobile terminal or a server can directly control the object internet device, It is possible to take prompt action in the situation, and the survival rate of the subject can be increased.

FIG. 1 is a block diagram illustrating a system for interfacing an Internet device for detecting abnormal bio-signals according to the present invention.
2 is a block diagram illustrating an object Internet device of the present invention.
FIG. 3 is a diagram illustrating an example of the object Internet device of the present invention.
4 is a block diagram illustrating a mobile terminal of the present invention.
5 is a block diagram showing a terminal control unit.
6 is a block diagram showing a server of the present invention.
FIG. 7 is a flowchart illustrating a control method of an object Internet device interworking system for detecting an abnormal biological signal according to the present invention.
8 to 10 are diagrams showing examples of an application screen executed in a mobile terminal.

Although the present invention can be variously modified and may have various embodiments, an embodiment for fixing the frames supporting the condenser used in the solar module will be described in detail with reference to the drawings.

It should be understood that the present invention is not intended to be limited to any particular embodiment and that all modifications, equivalents, and alternatives falling within the spirit and scope of the present invention for connecting and / or fixing structures extending in different directions Should be understood as being appropriate.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In this specification, the terms "comprises" or "having" and the like refer to the presence of stated features, integers, steps, operations, elements, components, or combinations thereof, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a preferred embodiment of a system for interfacing an Internet device for detecting abnormal bio-signals according to the present invention and a control method thereof will be described in detail with reference to the accompanying drawings.

FIG. 1 is a block diagram illustrating a system for interfacing an Internet device for detecting abnormal bio-signals according to the present invention.

Referring to FIG. 1, the present invention includes a things Internet device 100, a mobile terminal 200, and a server 300.

The object Internet device 100 senses a bio-signal of a subject as a device 100 worn by a subject and transmits the bio-signal to the mobile terminal 200. Here, (1) the object Internet device 100 transmits a biometric signal to the mobile terminal 200 in a short distance wireless communication (for example, Bluetooth). Also, if the communication with the mobile terminal 200 is not smooth, the object Internet device 100 transmits the biometric signal to the server 300 as long-distance communication. The detailed configuration of the object Internet device 100 for this purpose will be described later with reference to FIG. 2 and FIG.

(3) The mobile terminal 200 transmits the biometric sense signal received from the object Internet device 100 to the server 300, (4) drives the object Internet device 100 according to the abnormality biometric sense signal received at the server 300 . At this time, the mobile terminal 200 outputs the biometric analysis data analyzed by the server 300 according to the set item. Here, the mobile terminal 200 may output biometric information of the subject for each item included in the biometric analysis data, and preferably, the biometric information may be outputted so as to check the amount of change by time and date.

That is, the mobile terminal 200 outputs the biometric sensing information (for example, body temperature, heart rate) sensed by the object Internet device 100. More preferably, the mobile terminal 200 may provide additional service information such as weather information, walking distance, and frequency.

(5) The mobile terminal 200 drives and controls the object Internet device 100 when an abnormal biometric signal is received from the server 300.

The server 300 directly receives the biometric sense signal from the object Internet device 100 or receives the biometric sense signal from the mobile terminal 200. The server 300 receives the received biometric signal and transmits an abnormal biometric signal to the mobile terminal 200 when an abnormal biometric signal is detected. Or (6) The server 300 may directly control the object Internet device 100.

Fig. 2 is a block diagram showing a matter Internet device, and Fig. 3 is a diagram showing an example of a matter Internet device.

2 and 3, the object Internet device 100 according to the present invention includes sensors capable of measuring various sensors, for example, humidity, body temperature, dust, gas, heart rate, (160) are integrated.

More specifically, the object Internet device 100 includes a sensor unit 120 including a plurality of sensors, a battery 160 for supplying power, a communication unit 140 for communicating with the mobile terminal 200 and the server 300 A device control unit 110 for controlling the light emitting display unit 150 for emitting an alarm light, the heat generating unit 130 for generating heat, and the communication unit 140 to transmit a biosensor signal sensed by the sensor unit 120 .

The sensor unit 120 may include at least one of a gas sensor, a humidity sensor, a heart rate measuring sensor, a dust sensor, a body temperature sensor, and a sweat sensor, but the present invention is not limited thereto. have.

That is, the sensor unit 120 may be provided with sensors for detecting environmental information such as temperature, humidity, dust, and gas in addition to the biosensor.

The heat generating unit 130 generates heat as a power source supplied from the battery 160. Here, the heat generating unit 130 may be, for example, one or more thermoelectric elements that generate heat when power is supplied thereto. Preferably, the heat generating unit 130 may be installed in a region such as a heart that is in close contact with an important part of a human body.

The communication unit 140 includes a local communication unit 141 for communicating with the mobile terminal 200 and a remote communication unit 142 for communicating with the server 300. [

The short distance communication means 141 transmits a biometric sense signal at the time of being located within a range in which the mobile terminal 200 can communicate with, for example, Bluetooth (Blue Tooth).

The remote communication means 142 transmits the biometric sense signal to the server 300 as, for example, the DTLS / CoAP protocol.

The device control unit 110 controls the communication unit 140 to periodically transmit the sensing signal of the sensor unit 120 according to the set conditions. Here, the device control unit 110 monitors the communication connection state of the short-range communication unit 141 and controls the mobile terminal 200 or the server 300 to transmit the biometric sense signal.

That is, if the mobile terminal 200 is not detected through the short distance communication means 141, the device control unit 110 controls the long distance communication means 142 to transmit the biometric sense signal directly to the server 300. The control of the device control unit 110 can be transmitted without interruption of the biosensing signal so that the biometric change of the subject can be accurately measured.

In addition, the device control unit 110 checks the sensed signal from the sensor unit 120, particularly sensors (hereinafter collectively referred to as environmental sensors) for sensing dust and gas around the sensor, and compares the sensed signal with a set reference. The device control unit 110 controls the light emission display unit 150 to alert the subject to the hazard of the surrounding environment.

Here, the light emitting display unit 150 is installed in the clothes worn by the examinee, and is useful in that it can warn not only the subject but also the people around him.

The device control unit 110 drives the heat generating unit 130 when receiving a heat generation command from the server 300 through the mobile terminal 200 or the remote communication unit 142 through the local communication unit 141 . At this time, the device control unit 110 can operate the heat generating unit 130 within the set temperature and time. Alternatively, the device control unit 110 may continuously drive the heat generating unit 130 until an OFF command of the mobile terminal 200 or the server 300 is received.

FIG. 4 is a block diagram illustrating a mobile terminal, and FIG. 5 is a block diagram illustrating a terminal control unit.

4 and 5, the mobile terminal 200 includes a terminal communication unit 140, a display 230, a voice output unit 240, a walking / A sensing unit 250 and a terminal control unit 210.

The terminal communication unit 140 includes a first terminal communication unit 221 that performs short-range wireless communication with the object Internet device 100 and a second terminal communication unit 222 that performs long-range wireless communication with the server 300 do.

The first terminal communication unit 221 receives a biometric sense signal from the object Internet device 100 as a short-range wireless communication apparatus, for example, Bluetooth.

The second terminal communication unit 222 transmits the biometric sense signal received from the object Internet device 100 as a remote wireless communication apparatus and receives the biometric analysis data and the abnormal biometric sense signal from the server 300.

The display 230 outputs an execution screen of the app. As shown in Figs. 9 to 11, the executing app can be configured to store biometric information such as a body temperature (or a heart rate) and an average body temperature, environment information such as a waiting state and a temperature, a weather and a momentum (e.g., calorie consumption) Can be output.

The voice output unit 240 alerts an abnormal situation such as the arrival of a message of the server 300, communication disconnection with the object Internet device 100, or reception of an abnormal biometric signal. Such an alarm may be displayed as a light emission through the display 230.

The gait detecting unit 250 measures the amount of exercise. For this purpose, the gait detecting unit 250 detects the movement distance of the mobile terminal 200, the number of gaitings, etc., such as a gravity sensor, calculates calories consumed in consideration of the input weight, (210).

The terminal control unit 210 includes a registration module 211 and a signal management module 212, a heat generation drive module 213, a data synchronization module 214, an application execution module 215, and an additional service module 216 .

The registration module 211 registers the object Internet device 100. Here, the object Internet device 100 stores a unique identification code, and the registration module 211 registers a unique identification code of the object Internet device 100. [ The unique identification code is used to confirm whether the object Internet device 100 can communicate with the mobile terminal 200 and the server 300 during communication.

In addition, the registration module 211 may transmit the unique ID code of the object Internet device 100 to the server 300 and register the unique ID code.

The signal management module 212 drives the second terminal communication means 222 to transmit the biometric sense signal received from the object Internet device 100 to the server 300. [ In addition, the signal management module 212 can check the communication status with the object Internet device 100 and alarm it as the display 230 and / or the sound output unit 240.

The signal management module 212 receives the biometric analysis data received from the server 300 and stores the biometric analysis data in the storage unit 260. Here, the signal management module 212 may receive the biometric signal received from the object Internet device 100 and store the biometric signal in the terminal storage unit 260.

The heat generation driving module 213 may be configured to transmit the heat instruction to the object Internet device 100 when the abnormal body detection signal (for example, when a low body temperature is detected) is received from the server 300 221).

At this time, the signal management module 212 confirms the communication state of the first terminal communication unit 221 and transmits a communication error to the server 300 when the communication connection with the object Internet device 100 is impossible. Then, the server 300 can directly communicate with the object Internet device 100 and transmit the heat generation command.

When the application execution module 215 is activated, the data synchronization module 214 synchronizes the stored biometric analysis data with the newly generated biometric analysis data in the server 300. That is, the data synchronization module 214 checks the biometric analysis data stored in the storage unit 260 and the biometric analysis data stored in the server 300 at the same time that the application execution module 215 is driven, The server 300 requests and receives the latest biometric analysis data from the server 300.

Herein, the biometric analysis data may include accumulated biometric information in the current / time / period such as the body temperature or the heart rate of the subject and prescriptions and / or advice according to the analyzed state of the subject. That is, referring to FIG. 10, the biometric analysis data includes information on the state of the subject (for example, hypothermic symptoms) and advice (for example, a hospital visit).

The supplementary service module 216 requests and receives information received and outputted from the server 300 and the walking detection unit 250 and outputs the information to the application execution module 215. 8, the supplementary service information may include at least one of weather, temperature, walking distance, travel distance, and consumed calories (hereinafter collectively referred to as supplementary service information).

The application execution module 215 executes an application received and stored from the server 300 and outputs an application screen to the display 230. [ At this time, the application execution module 215 outputs the supplementary service information of the supplementary service module 216 and the biometric analysis data of the data synchronization module 214 (or the server 300) for each set item.

Preferably, the terminal control unit 210 may further include an analysis algorithm capable of analyzing the biosensor signal itself. That is, the terminal control unit 210 further includes an analysis module (not shown), and the analysis module (not shown) compares the bio-sensing signal received from the signal management module 212 with the set reference, And the analysis data is calculated.

Alternatively, the biometric analysis process of the mobile terminal 200 may be omitted from the server 300, instead of being omitted.

6 is a block diagram showing the server 300. As shown in FIG.

Referring to FIG. 6, the server 300 includes a server communication unit 320, a database 330, and a server control unit 310.

The server communication unit 320 communicates with the mobile terminal 200 and the object Internet device 100. That is, the communication unit 140 of the server 300 transmits a biometric sense signal from the mobile terminal 200 and the object internet device 100, and transmits an abnormality detection signal and / or a heat sensation signal to the mobile terminal 200 and the object internet device 100 Command can be transmitted.

The database 330 stores identification information such as the unique identification codes of the object Internet device 100 and the mobile terminal 200 and a biometric analysis of each subject (or mobile terminal 200 / object Internet device 100) And accumulates the data.

The server control unit 310 includes a data analysis module 311, an abnormality detection module 312, and a data management module 313.

The data analysis module 311 analyzes the biometric signal received by the server communication unit 320 and outputs the result. That is, the data analysis module 311 analyzes the bio-sensing signal to calculate bio-analysis data. And the data analysis module 311

The abnormal detection module 312 checks the biometric analysis data and controls the server communication unit 320 to transmit the abnormal biometric detection signal to the mobile terminal 200 when the abnormal data is confirmed. Here, when the mobile terminal 200 receives a signal that is not desired to communicate with the object Internet device 100, the abnormal detection module 312 may transmit the direct heat command to the object Internet device 100.

The data management module 313 stores the biometric sense signal received from the object Internet device 100 and the mobile terminal 200 and the biometric analysis data of the data analysis module 311 in the database 330. Here, the data management module 313 generates a table having items (e.g., body temperature, heart rate, abnormality detection items, and prescriptions) set for the mobile terminal 200, the object Internet device 100 and / Store information.

In particular, the data management module 313 transmits the latest analysis data stored in the database 330 at the time of data request using synchronization after the execution of the application of the mobile terminal 200.

The present invention includes such a configuration, and a control method of the object Internet device interworking system for detecting abnormal biological signals according to the present invention will now be described with reference to FIGS. 7 to 10. FIG.

FIG. 7 is a flowchart illustrating a control method of a system for interfacing an Internet device for detecting abnormal bio-signals of the present invention, FIG. 8 is a flowchart illustrating a step S310 of FIG. 7, Fig.

7, 9, and 11, the present invention includes a step S100 in which the object Internet device 100 is operated, a step S200 in which the mobile terminal 200 is operated, a step S300 in the server 300 .

In operation S100, the object is sensed by the object Internet device 100, specifically, sensing a bio-signal in operation S110, determining a communication state between the mobile terminal 200 and the mobile terminal 200, S130 for transmitting a biometric signal to the server 300 and S140 for transmitting a biometric signal to the server 300 and S150 for driving the heat generator 130 according to a driving command of the server 300 or the mobile terminal 200 .

 In step S110, the device controller 110 operates the sensor unit 120 according to a detection condition in which one or more of the date, time, and the number of times are combined, or detects the signal detected by the sensor unit 120 Receive and store.

Step S120 is a step of determining whether or not the device control unit 110 can communicate with the mobile terminal 200 via the local communication unit 141. [

If it is determined that the device control unit 110 can perform short-range communication with the mobile terminal 200 in step S120, the device control unit 110 transmits the biometric signal sensed by the sensor unit 120 to the mobile terminal 200 in step S130.

 In step S140, the device control unit 110 controls the remote communication unit 142 to transmit the biometric sense signal to the server 300 when it is determined that the device control unit 110 is not connected to the mobile terminal 200 in a short distance communication.

In step S150, the device controller 110 drives the heat generator 130 when a command to generate heat from the server 300 or the mobile terminal 200 is received. Here, the heat generation command is received from the server 300 or the mobile terminal 200 as a result of analysis of the biosensor signal of the server 300 when the subject requires heat such as low temperature. Accordingly, the device control unit 110 generates the heat generating unit 130 until a predetermined time or a temperature (body temperature) range or an OFF command of the server 300 or the mobile terminal 200 is received.

In step S200, the mobile terminal 200 transmits a heat emission command to the object Internet device 100 according to the result of the biometric analysis data of the server 300. [ More specifically, step S200 includes receiving and storing a biometric sense signal from the object Internet device 100, transmitting a biometric sense signal to the server 300, executing S230 according to the inputted command, S240 of synchronizing the biometric data, S250 of determining whether or not the abnormal bio-signal is received from the server 300, and S260 outputting the biometric information to the app screen.

 Step S210 is a step of receiving a biometric sense signal from the object Internet device 100 in the mobile terminal 200. [ The terminal control unit 210 receives the biometric sense signal through the signal management module 212 when the biometric sense signal is received through the first terminal communication unit 221 and outputs the received biometric sense signal to the storage unit 260. [ .

In operation S220, the mobile terminal 200 transmits a biometric sense signal to the server 300. FIG. The signal management module 212 deletes the biosensor signal temporarily stored in the storage unit 260 and manages the storage capacity of the storage unit 260 after a predetermined time has elapsed since the transmission of the biosensor signal to the server 300. [

In step S230, the terminal control unit 210 executes the application according to the input selection command. Here, the display 230 is a touch-type display 230, and both input and output are possible. Accordingly, the terminal control unit 210 outputs the application screen on the display 230 according to the application execution command input through the display 230 or other input device.

Here, the application execution module 215 outputs an application screen to the display 230, and outputs the selected screen through each of the display windows and / or the menus included in the application screen.

For example, in the embodiment of the present invention, the weather information, the heat state (or temperature) of the object Internet device 100, the body temperature, the heart rate, the number and distance of walking today, It can be output through the screen.

Body temperature, heart rate, fever state. The weather and the degree of air pollution correspond to the biometric analysis data and the supplementary service information received from the server 300. The number and the distance of the gait of today are calculated by the mobile terminal 200 (walking detection unit 250) to be.

In step S240, the terminal control unit 210 synchronizes the data output on the current application screen with the latest data stored in the server 300 after the execution of the application. The terminal control unit 210 requests the latest data from the server 300 to update the currently stored biometric analysis data as the latest data before outputting the stored biometric analysis data to the app screen.

That is, the data synchronization module 214 confirms whether or not the latest version of data is uploaded to the server 300 immediately after the application execution module 215 is driven, compares the biometric analysis data being output to the currently stored app screen, . The data synchronization module 214 requests the latest data from the server 300.

In step S250, the terminal control unit 210 determines whether the abnormal bio-sensing signal is received from the server 300. [ The server 300 checks the biometric signal received from the mobile terminal 200 or the object internet device 100 and transmits an abnormal biometric signal detection signal together with advice and / or a prescription when an abnormal biometric signal is detected.

Accordingly, when the mobile terminal 200 receives the abnormality biosensor signal of the server 300, the mobile terminal 200 transmits a heat generation command to the object Internet device 100. That is, the heat generation driving module 213 of the terminal control unit 210 controls the first terminal communication unit 221 to transmit a heat generation command to the thing Internet device 100.

If the communication with the object Internet device 100 is not smooth, the heat driving module 213 may transmit the communication error information to the server 300 and transmit the communication error information to the object Internet device 100 directly from the server 300 .

In addition, as another embodiment of the present invention, the heat generation command may be automatically performed by the abnormality detection of the abnormal body of the server 300 as described above and may be performed manually by the subject's selection.

That is, referring to FIG. 11, the application execution module 215 includes a mode selection menu 201 for selecting automatic heat generation and manual heat generation in the application screen, a mode display menu 201 for indicating whether the current automatic mode or the manual mode is selected, A power selection menu 204 for manually selecting power on / off of the heating unit 130, and a temperature setting menu 203 for setting a heating temperature.

That is, the heat generation driving module 213 can control the heat of the object Internet device 100 as an automatic mode and a manual mode depending on whether the menus implemented in the application screen are selected as described above.

The automatic mode is set to generate heat in a preset temperature range when an abnormality biosensor signal by the server 300 is received.

In the manual mode, a user of the subject or the mobile terminal 200 manually drives the heat generator 130 through a menu formed on the application screen. At this time, the manual mode controls the object Internet device 100 to generate heat in the temperature range selected and inputted through the temperature selection menu.

 In step S260, the terminal control unit 210 outputs biometric analysis data and supplementary service information received from the server 300 through the app. The application execution module 215 may set both the biometric analysis data and the supplementary service information on one screen or output a separate screen through each menu.

Here, the mobile terminal 200 divides the biometric analysis data into a maximum value, a minimum value, and a mean value by time and / or day, and outputs the result. That is, the mobile terminal 200 outputs the lowest body temperature, the highest body temperature, and the average body temperature, respectively, as shown in FIG. 11, and the heart rate, the walking distance, and the walking distance may also be output in the same manner.

Also, the mobile terminal 200 outputs only the current value as shown in FIG. 9, or outputs the measured value by time / day using the image 206 as shown in FIG. 10 and FIG. 11, And the prescription 207 according to the biometric analysis result can be displayed.

Accordingly, the examinee can check his / her health state by checking his / her real time and / or accumulated biometrics information through his / her mobile terminal 200, and especially, can receive quick first aid treatment upon receipt of an abnormality biosensor signal The survival rate can be increased in emergency situations.

In operation S300, the server 300 may calculate bio-analysis data in operation S310. Step S310 is a step of receiving the biometric signal received from the mobile terminal 200 or the object internet device 100 and calculating and transmitting biometric analysis data and additional service information such as weather and temperature. The step S310 will be described in more detail with reference to FIG.

8 is a flowchart showing the step S310.

Referring to FIG. 8, in operation S310, a bio-sensing data is received from the mobile terminal 200 or the object Internet device 100 to calculate biometric analysis data. In operation S312, , S313 of transmitting an abnormal biometric signal, S314 of determining whether communication with the mobile terminal 200 is possible, and S315 of transmitting a command to the object Internet device 100.

In step S311, the server 300 receives the biometric signal from the mobile terminal 200 or the object Internet device 100 and calculates biometric analysis data. The data analysis module 311 analyzes the biosensing signal received through the server communication unit 320 to calculate biometric analysis data. Here, the biometric analysis data is stored together with the unique identification information of the subject / mobile terminal 200 / object Internet device 100 / by the data management module 313.

In step S312, the abnormality detection module 312 determines whether the abnormality is detected through the result of the data analysis module 311. [ For example, the abnormality detection module 312 compares the biometric reference information stored in the database 330 with the biometric analysis data to determine whether the abnormality is abnormal.

If it is determined in step S313 that the abnormality is detected in step S312, the abnormality detection module 312 generates an abnormality biosensor signal including a warning for a low temperature, to be. At this time, the abnormality detection module 312 controls the server communication unit 320 to transmit an abnormality biosensor signal.

Step S314 is a step of determining whether or not the mobile terminal 200 can communicate with the abnormal detection module 312. [ For example, the mobile terminal 200 transmits a communication error signal to the server 300 when it is out of the communication range with the object Internet device 100.

Or the mobile terminal 200 is set to transmit a response to the reception of the abnormal biometric sense signal from the server 300. The abnormal detection module 312 receives the abnormal biometric signal from the mobile terminal 200, If a response is not received from the terminal 200, a communication error can be determined.

In step S315, when the communication error signal of the mobile terminal 200 is received or the non-response of the mobile terminal 200 is confirmed in step S314, the abnormal detection module 312 controls the server communication unit 320, To transmit the heat generation command to the heat generation unit. Here, it is preferable that the heat generation temperature of the object Internet device 100 is driven according to the set temperature condition received by the mobile terminal 200.

In addition, the data management module 313 may store information on the control process and the result of the server 300 as described above in the database 330.

As described above, the present invention can acquire biometric information of a subject via the object Internet device 100, and can prevent communication between the object Internet device 100 and the mobile terminal 200, between the object internet device 100 and the server 300 Biometric detection can proceed continuously without interruption as much as possible.

In particular, since the object Internet device 100 is applied to the heatable electronic garment, the object Internet device 100 can be directly controlled from a remote place in an emergency such as a low temperature, thereby increasing the survival rate of the subject in an emergency .

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, and that various modifications and changes may be made by those skilled in the art.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Therefore, disclosure methods should be considered from an illustrative point of view, not from a restrictive point of view. The scope of the present invention is defined by the appended claims rather than by the foregoing description, and all differences within the scope of equivalents thereof should be construed as being included in the present invention.

100: Object Internet device 110: Device control unit
120: sensor unit 130:
140: communication unit 141: short distance communication means
142: telecommunication means 150: light emitting display
160: battery 200: mobile terminal
210: terminal control unit 211: registration module
212: Signal management module 213: Heat generation drive module
214: data synchronization module 215: application execution module
216: supplementary service module 220:
221: first terminal communication means 222: second terminal communication means
230: display 240: audio output unit
250: a walking detection unit 260:
300: server 310:
311: Data analysis module 312: Abnormal detection module
313: Data management module 320: Server communication part
330: Database

Claims (9)

An object internet device (100) having at least one of sensors for detecting body temperature, heart rate, and sweat and outputting a biosensor signal;
A mobile terminal (200) for receiving a biometric signal of the object internet device (100) and outputting biometric analysis data sensed by the object internet device (100) through an application; And
And a server (300) for analyzing the biometric signal received from the mobile terminal (200) and transmitting biometric analysis data,
The mobile terminal 200
A signal management module 212 for transmitting the biometric sense signal received from the object Internet device 100 to the server 300;
A heating drive module (213) for controlling the terminal communication unit (140) and outputting a heat generation command to the thing Internet device (100); And
And an application execution module (215) for executing an application for outputting biometric analysis data,
The object Internet device 100
The mobile terminal 200 generates heat according to a heat generation command,
A system for interfacing an object Internet device for detecting an abnormal biological signal that transmits a biosensor signal to a server (300) in a remote wireless communication when a communication error with the mobile terminal (200) occurs.
The method according to claim 1, wherein the things Internet device (100)
A sensor unit 120 having a sensor for detecting at least one of body temperature, heart rate, and sweat and outputting a biosensor signal;
When the communication error with the mobile terminal 200 occurs, controls the remote wireless communication means to transmit the biometric sense signal to the server 300. In this case, the short distance wireless communication means is controlled to transmit the biometric sense signal to the mobile terminal 200, A device control unit (110) for controlling the transmission;
A heating unit 130 that generates heat under the control of the device control unit 110; And
And a battery (160) for supplying power to the object Internet device.
delete [Claim 2] The heat generating drive module according to claim 2,
An automatic setting mode for automatically outputting an abnormal biological detection signal from the server 300; And
And a manual mode according to an inputted command, and outputs a heat generation command as one of the commands.
5. The method of claim 4,
An Internet device interworking system for detecting abnormal biomedical signals including an exothermic temperature range.
The method according to claim 1, wherein the server (300)
A data analysis module 311 for analyzing the biosensing signal and calculating biometric analysis data including at least one of a current value, a time or a daily variation, and controlling the server communication unit 320 to transmit the biometric analysis data to the mobile terminal 200; And
The abnormality detecting unit 320 detects the abnormality by comparing the biometric analysis data calculated by the data analysis module 311 with the set reference information and controls the server communication unit 320 to transmit an abnormality biometric sense signal to the mobile terminal 200 when an abnormality is detected. And a detection module (312) for detecting an abnormal biological signal.
a) detecting the biometric information of the object Internet device (100) detecting biometric information including at least one of body temperature, heart rate, and sweat;
b) a transmitting step of the object Internet device (100) for transmitting a biometric signal to the mobile terminal (200);
c) a transmission step of the mobile terminal 200 receiving the biometric sense signal from the object Internet device 100 and transmitting it to the server 300;
d) transmitting an abnormality detection signal of the server (300) for transmitting an abnormality detection signal to the mobile terminal (200) when an abnormality is detected in the biopsy signal received at the mobile terminal (200); And
e) transmitting a heat generation command of the mobile terminal (200) to the object Internet device (100) when the abnormality detection signal is received from the server (300) / RTI >
8. The method of claim 7, wherein step b)
Wherein when a communication error with the mobile terminal (200) occurs in the mobile device (200), the mobile device (200) transmits the biometric signal to the server (300).
The method of claim 7, wherein step d)
A method for controlling an Internet device interworking system (100) for detecting an abnormal biomedical signal in which a server (300) confirms whether or not a communication error of a mobile terminal (200) is confirmed, and transmits a heating command directly to the object Internet device (100).

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