WO2014104837A1

WO2014104837A1 - Terminal for happiness keeper and method for operating same

Info

Publication number: WO2014104837A1
Application number: PCT/KR2013/012343
Authority: WO
Inventors: 안헌일
Original assignee: Ahn Heon Il
Priority date: 2012-12-31
Filing date: 2013-12-27
Publication date: 2014-07-03
Also published as: KR101378564B1

Abstract

A method for operating a terminal for a happiness keeper, according to one embodiment of the present invention, comprises the steps of: generating impact state information according to an impact by sensing the impact applied to a terminal; determining a degree of risk according to the impact state information; and generating surrounding area information depending on an area to which the degree of risk corresponds among a plurality of danger level areas. The method for operating the terminal for the happiness keeper, according to the one embodiment of the present invention, enables an operation according to an exact state of a user to be carried out by sensing an impact even without a separate operation and determining whether the impact is caused by a normal action of the user.

Description

Happiness Keeper Terminal and Its Operation Method

Embodiments according to the concept of the present invention relates to a happy protector terminal and a method of operating the same, and more particularly to a happy protector terminal and its operation method that can automatically detect and operate the user's state accurately.

With the recent surge in violent crimes against children and women, development of various self-defense apparatuses and electronic device products has been actively developed. Simple self-defense devices and electronic device products can be said to be effective in combating criminals when used properly, but can be difficult to use for children or in emergency situations. In particular, a child user is often inefficient because of malfunction due to immature operation.

Therefore, it is necessary to develop an automatic system that can accurately and quickly deliver the current user's status to the guardian accordingly.

The technical problem to be achieved by the present invention is to provide a happy guard terminal and its operation method that can detect the shock and analyze the current state of the user and quickly deliver it to the guardian.

According to an embodiment of the present invention, there is provided a method of operating a happy protector terminal, comprising: detecting a shock applied to a terminal, generating shock state information according to the shock, determining a risk level according to the shock state information, and a plurality of risk levels Generating surrounding situation information according to which of the danger level sections corresponds to.

According to an embodiment, the impact state information includes the direction, magnitude, and speed of the impact.

According to an embodiment of the present disclosure, the determining of the risk may include comparing the shock state information with pre-stored behavior pattern information and determining the risk according to a comparison result.

According to an embodiment, the plurality of risk level sections are determined differently according to the gender of the user of the terminal.

The generating of the surrounding situation information may include obtaining image information about the surroundings of the terminal using a camera, obtaining voice information about the surroundings of the terminal using a microphone, and using the terminal. Obtaining location information of the.

According to an embodiment, the method may further include automatically outputting an alarm sound using a speaker according to the impact state information.

According to an embodiment, the method may further include transmitting the risk level and the surrounding situation information to the outside of the terminal through a wireless communication method.

According to an embodiment, the wireless communication method is either a Wi-Fi direct method or a Wi-Fi network.

The happy protector terminal according to an embodiment of the present invention is a shock sensor for generating a shock state information according to the shock by detecting a shock applied to the happy protector terminal, a control unit for determining the risk according to the impact state information and the risk degree And a monitoring unit configured to generate surrounding situation information according to which section of the plurality of dangerous level sections.

According to an embodiment, the controller compares the impact state information with pre-stored behavior pattern information and determines the risk according to the comparison result.

According to an embodiment, the monitoring unit may include a camera that acquires image information about the periphery of the terminal, a microphone that acquires voice information about the periphery of the terminal, and a GPS that acquires location information of the terminal.

According to an embodiment, the apparatus may further include a speaker for automatically outputting an alarm sound according to the impact state information.

The wireless communication device may further include a wireless communication unit configured to transmit the risk and the surrounding situation information to the outside of the terminal through a wireless communication method.

Terminal control system according to an embodiment of the present invention includes a shock sensor for generating shock status information according to the impact, determine the risk based on the shock status information, and generates the surrounding situation information based on the risk A happy guard terminal and a guardian terminal for generating a terminal control signal for remotely controlling the happy guard terminal and receiving the surrounding situation information, wherein the happy guard terminal generates the surrounding situation information according to the terminal control signal; do.

According to an embodiment, the happy guard terminal generates the surrounding situation information according to which section of the plurality of risk level sections the risk level corresponds to.

According to an embodiment, when the happy guard terminal and the guardian terminal can directly communicate, the risk, the terminal control signal and the surrounding situation information are transmitted and received in a Wi-Fi direct manner.

According to an embodiment, when the happy guard terminal and the guardian terminal cannot communicate directly, the happy guard terminal and the happiness server relay the transmission and reception of the risk and the terminal control signal through the Wi-Fi network method and the happiness. It further comprises a media server for relaying the transmission and reception of the surrounding situation information between the guard terminal and the guardian terminal in a Wi-Fi network method.

The happy protector terminal according to an embodiment of the present invention includes a sensor unit for generating terminal state information according to the surrounding condition of the happy protector terminal, a controller for determining a risk level according to the terminal state information, and the risk level among a plurality of risk level sections. It includes a monitoring unit for generating the surrounding situation information according to which section.

According to an embodiment, the terminal state information includes at least one of impact state information, proximity state information, illuminance state information, temperature and humidity state information, motion state information, and voice recognition information, and the sensor unit is applied to the happy protector terminal. An impact sensor for generating the shock state information that is the direction, magnitude, and speed of the impact; a proximity sensor for generating the proximity state information; information about whether the user is close to the terminal; An illumination sensor for generating state information, a temperature and humidity sensor for generating the temperature and humidity state information that is information about temperature and humidity around the terminal, and the motion state information for generating information about an operation state of the terminal itself; And a motion sensor, wherein the controller is configured to provide voice information about the periphery of the terminal. The voice recognition information, which is information on the converted text, is generated.

According to an embodiment, the controller compares the terminal state information with prestored behavior pattern information and determines the risk according to the comparison result.

According to an embodiment, the monitoring unit may include a camera that acquires image information about the periphery of the terminal, a microphone that acquires audio information about the periphery of the terminal, and a GPS (Global Positioning System) that acquires location information of the terminal. .

The apparatus may further include a speaker for automatically outputting an alarm sound and outputting terminal operation information according to the terminal state information.

According to an embodiment, the wireless communication method is 2G (2 Generation), 3G (3 Generation), 4G (4 Generation), Mobile WiMAX (WiBro), Wi-Fi direct (WI-FI direct). ) Or a WI-FI network.

According to the happy protector terminal according to an embodiment of the present invention, by detecting a shock without a separate operation to determine whether the shock is a shock due to the normal behavior of the user to perform the operation according to the exact user's state There is.

According to a terminal control system including a happy protector terminal according to an embodiment of the present invention, according to the happiness protector according to its own judgment or the control of the guardian terminal, the happy protector transmits the risk and surrounding information of the terminal to the Wi-Fi Direct or Wi-Fi network. Effective monitoring is effective.

According to the happy protector terminal according to an embodiment of the present invention, by detecting a variety of states around the terminal without any additional operation to determine whether the state is a state of the user's normal behavior to perform the operation according to the exact user's state It can work.

1 is a block diagram illustrating a happy protector terminal according to an embodiment of the present invention.

FIG. 2 is a block diagram illustrating a terminal control system including the happy protector terminal illustrated in FIG. 1.

3 is a flowchart illustrating a method of operating a happy protector terminal illustrated in FIG. 1.

4 is a block diagram illustrating a happy protector terminal according to another embodiment of the present invention.

5 is a flowchart illustrating a method of operating a happy protector terminal illustrated in FIG. 4.

FIG. 6 is a diagram for describing in detail the step of generating the surrounding situation information illustrated in FIG. 3 or FIG. 5.

Specific structural to functional descriptions of the embodiments of the present invention disclosed in the specification or the application are only illustrated for the purpose of describing the embodiments according to the present invention, and the embodiments according to the present invention may be embodied in various forms. It should not be construed as limited to the embodiments set forth herein or in the application.

Since the embodiments according to the present invention can be variously modified and have various forms, specific embodiments will be illustrated in the drawings and described in detail in the present specification or application. However, this is not intended to limit the embodiments in accordance with the concept of the present invention to a particular disclosed form, it should be understood to include all changes, equivalents, and substitutes included in the spirit and scope of the present invention.

Terms such as first and / or second may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another, for example, without departing from the scope of rights in accordance with the inventive concept, and the first component may be called a second component and similarly The second component may also be referred to as the first component.

When a component is referred to as being "connected" or "connected" to another component, it may be directly connected or connected to that other component, but it may be understood that other components may be present in the middle. Should be. On the other hand, when a component is said to be "directly connected" or "directly connected" to another component, it should be understood that there is no other component in between. Other expressions describing the relationship between components, such as "between" and "immediately between," or "neighboring to," and "directly neighboring to" should be interpreted as well.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. As used herein, the terms "comprise" or "having" are intended to indicate that there is a feature, number, step, action, component, part, or combination thereof that is described, and that one or more other features or numbers are present. It is to be understood that the present invention does not exclude, in advance, the possibility or possibility of the presence of a step, an operation, a component, a part, or a combination thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art. Terms such as those defined in the commonly used dictionaries should be construed as having meanings consistent with the meanings in the context of the related art, and are not construed in ideal or excessively formal meanings unless expressly defined herein. Do not.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Like reference numerals in the drawings denote like elements.

'Happy Keeper Terminal' is a portable electronic communication device, and it is a name indicating the purpose and characteristics of the present invention for protecting happiness of the socially disadvantaged by quickly and accurately conveying an urgent and dangerous situation of a terminal user to a guardian.

Referring to FIG. 1, the happy protector terminal 100 includes a control unit 110, an impact sensor 120, a monitoring unit 130, a wireless communication unit 140, a memory 150, and a universal serial bus (USB) 160. It may include.

The controller 110 may control the overall operation of the happy protector terminal 100, and may be implemented as, for example, a central processor unit (CPU), an application processor, or the like.

The controller 110 may generate various signals using various information collected by the shock sensor 120 and the monitoring unit 130, and may communicate with the outside through the wireless communication unit 140 and the USB 160. In addition, the controller 110 may read or write the various information in the memory 150 or read or write a program required for the operation of the terminal 100. Detailed operations of the controller 110 will be described later with reference to operations of the shock sensor 120, the monitoring unit 130, the wireless communication unit 140, the memory 150, and the USB 160.

The shock sensor 120 may detect a shock applied to the happy protector terminal 100, generate shock state information SI according to the shock, and transmit the shock state information SI to the controller 110. The shock sensor 120 may be implemented as, for example, an accelerometer. The acceleration vibration sensor may measure the vibration acceleration by measuring the inertial force acting on the piezoelectric element when the mass attached to the piezo-electric material moves, and dividing the inertial force by the inertial mass.

The shock state information SI may include information about the direction, magnitude, and speed of the shock applied to the happiness protector terminal 100.

The controller 110 may compare the shock state information SI and the behavior pattern information PI from the shock sensor 120, and determine the risk DA based on the comparison result.

The behavior pattern information PI may refer to information on a general behavior pattern of a user of the happy guard terminal 100. For example, the behavior pattern information PI may include information about the direction, magnitude, and speed of the impact of the happiness guardian on the terminal 100 when the user of the happiness guardian 100 normally walks, and / or time accumulate therein. Information. Alternatively, the behavior pattern information PI may indicate that the user of the happy protector terminal 100 has an unusual behavior pattern (for example, jumping 3-4 times high when feeling good or suddenly sitting down when feeling bad). In this case, the happy guard may be information on the direction, magnitude, and speed of the shock applied to the terminal 100 and / or time accumulation information thereof.

That is, the controller 110 determines whether the behavior pattern information PI coincides with the impact state information SI (for example, 90% (%) or more similar or 50% (%) or less similar). In comparison, the risk (eg, relative value based on 100, DA) may be determined according to the comparison result. For example, as a result of the comparison, the risk DA may be determined to be higher as the shock state information SI does not match the behavior pattern information PI.

The behavior pattern information PI may be previously stored in the memory 150 and may be defaulted even after the reset of the terminal 100 may be happy. According to an embodiment, the behavior pattern information PI may be changed at the request of the user. The user's request may be made by a user inputting a happiness protector directly through an input interface (not shown) of the terminal 100 or by a program update through the USB 160. The monitoring unit 130 may include a camera 132. ), A microphone 134, and a GPS 136.

Under the control of the controller 110, the camera 132 may obtain image information Im about the vicinity of the happy protector terminal 100 and transmit the image information Im to the controller 110. The camera 132 may be implemented as a Charge Coupled Device (CCD) camera or a Complementary Metal-Oxide Semiconductor (CMOS) camera, and the image information Im may acquire two-dimensional or three-dimensional image information Im. .

The microphone 134 may obtain voice information So about the surroundings of the happy protector terminal 100 under the control of the controller 110 and transmit the received voice information So to the controller 110. That is, the microphone 134 may detect sound waves or ultrasonic waves and generate voice information So, which is an electrical signal according to the vibration.

The GPS 136 may obtain the location information Lo of the happy protector terminal 100 under the control of the controller 110 and transmit the location information Lo to the controller 110. For example, the GPS 136 estimates the location of the terminal 100 by measuring the exact time and distance from three satellites, and using the triangulation method of three different distances, and comparing the estimated position with one other satellite. The happy guard can obtain the location information Lo of the terminal 100 by correcting the distance.

The controller 110 may control the monitoring unit 130 to automatically obtain the surrounding situation information CI according to which section of the plurality of risk level sections. The surrounding situation information CI may include a picture automatically photographed in the vicinity of the happy guard terminal 100, an automatically recorded image, an automatically recorded voice, and an automatically collected position, that is, the image information Im, the Voice information So and the location information Lo.

For example, the plurality of danger level sections may include a first level section 1 to 25, a second level section 26 to 50, a third level section 51 to 75, and a fourth level section 76 to 100. The controller 110 may control the monitoring unit 130 to obtain the surrounding situation information CI only when the risk DA corresponds to any one of the second level section and the fourth level section. In addition, the type of the surrounding situation information CI collected by the monitoring unit 130 may be determined differently according to which section of the second level section to the fourth level section. This operation will be described in detail with reference to FIG. 4.

The control unit 110 controls the monitoring unit 130 to obtain the surrounding situation information CI or the speaker 170 to output an alarm sound according to the terminal control signal TCI received through the wireless communication unit 140. Can be.

The controller 110 may determine a predetermined phone number (eg, a guardian terminal 400) through a call module (not shown) when the risk DA corresponds to a predetermined section (eg, a third level section or more) among the plurality of dangerous level sections. Phone number, 112 number, 113 number, 119 number, private security number, etc.). If the call connection is successful, the call module (not shown) may enable the call to the terminal of the predetermined telephone number using the microphone 134 and the speaker 170. The controller 110 has a plurality of risks DA. When a certain level (eg, above the third level section) of the dangerous level section corresponds to a predetermined phone number (eg, a phone number of the guardian terminal 400, a number of a private security company, etc.) through a text message module (not shown) ) Can automatically send text messages. The content of the text message may include brief information including information such as 'emergency situation, rescue request, current location' and the like.

The wireless communication unit 140 may include a Wi-Fi direct 142 and an antenna 144.

The Wi-Fi Direct 142 may determine whether to directly communicate with the parental terminal 400 shown in FIG. 2 (eg, within a distance of 200 meters). That is, if it is necessary to communicate with the guardian terminal 400, the Wi-Fi Direct 142 attempts to connect to the control server 200 in a Wi-Fi network method (for example, a Wi-Fi network provided by a wireless communication provider) and at the same time, the Wi-Fi Direct method. (Direct connection with the terminal within a certain distance without passing through the server) may attempt to connect to the parental terminal 400 of the preset list.

If the Wi-Fi Direct 142 can directly communicate with the parental terminal 400, the risk DA and surrounding situation information CI may be transmitted in a Wi-Fi direct manner without passing through the control server 200 or the terminal control signal TCI. Can be received. If the Wi-Fi Direct 142 cannot communicate directly with the guardian terminal 400, the risk server DA and the surrounding situation information CI may be transmitted through the Wi-Fi network via the control server 200 or the media server 300, or the terminal. The control signal TCI may be received.

The antenna 144 may directly transmit and receive signals when the Wi-Fi Direct 142 communicates with the control server 200 or the guardian terminal 400.

The memory 150 may store various types of information (for example, shock state information, risk DA, behavior pattern information, etc.) and program data processed by the controller 110, and the various types of information may be stored under the control of the controller 110. And program data to the controller 110. In addition, the memory 150 stores a predetermined number and a text message to which the call module (not shown) or the text message module (not shown) attempts to send the call or the text message, thereby storing the call module (not shown) or the text message module (not shown). Not shown). The memory 150 is implemented as non-volatile memory such as flash memory, resistive random access memory (RRAM), magnetic random access memory (MRAM), or phase-change random access memory (PRAM). Can be.

The USB 160 may provide an input / output interface so that program data or behavior pattern information stored in the controller 110 and the memory 150 may be updated by connecting to an external device (not shown). In addition, the USB 160 may be connected to an external device (not shown) to supply power for charging a power supply unit (not shown) for supplying driving power of the happy guard terminal 100.

The speaker 170 may automatically output an alarm sound when the happiness protector included in the shock state information SI applied to the terminal 100 is greater than or equal to a predetermined size under the control of the controller 110. According to an embodiment, the alarm sound type and size may be determined differently according to the magnitude of the shock. The alarm sound may function to prevent the crime by causing the happy guard to promptly notify the user of the terminal 100 or a neighbor of the user about the danger, or to embarrass the happy guard to threaten the terminal 100 user.

1 and 2, the terminal control system 10 includes a

happy guard terminal

100 or 100 ′, a control server 200, a media server 300, and a guardian terminal 400 illustrated in FIG. 1 or 4. ) May be included.

When the

happy guard terminal

100 or 100 ′ can directly communicate with the guardian terminal 400, the guardian terminal 400 transmits the risk DA and the surrounding situation information CI or controls the terminal from the guardian terminal 400. May receive a signal TCI.

The happy guard terminal 100 or 100 'transmits a risk DA to the control server 200 when it is not able to communicate directly with the guardian terminal 400 and receives a terminal control signal TCI from the control server 200. can do. In this case, the happy guard terminal 100 or 100 'may transmit the surrounding situation information CI to the media server 300.

The control server 200 may be a Wi-Fi network method, a wireless mobile communication method (eg, 2G (Generation), 3G (Generation), 4G (Generation)), Mobile WiMAX (or WiBro), and SMS (Short Message). Service), the happy guard can control the data transmission between the terminal (100 or 100 ') and the guardian terminal 400 in a PUSH manner.

In detail, the control server 200 may receive the risk DA from the

happy guard terminal

100 or 100 ′ and transmit the risk DA to the guardian terminal 400. The control server 200 may receive a terminal control signal (TCI) from the guardian terminal 400 and transmit it to the happy guard terminal (100 or 100 ').

The control server 200 may receive a data view authentication request signal DRC from the guardian terminal 400. The control server 200 determines whether the guardian terminal 400 is authorized to view the surrounding situation information CI of the happy guard terminal 100 or 100 'and transmits data to the media server 300 according to the determination result. The permission signal DTA may be transmitted.

The media server 300 may be implemented as a server including a large hard disk, and the happy guard may receive and store the surrounding situation information CI from the terminal 100 or 100 '.

The media server 300 compares the data read request signal DRR received from the guardian terminal 400 with the data transfer permission signal DTA received from the control server 200, and the corresponding happy guard terminal according to the comparison result. Peripheral context information CI of 100 or 100 ′ may be transmitted to the guardian terminal 400.

The guardian terminal 400 receives the risk DA from the control server 200 when the happiness guardian cannot directly communicate with the terminal 100 or 100 ', and transmits a terminal control signal TCI to the control server 200. Can be. In addition, the guardian terminal 400 may transmit a data view authentication request signal DRC to the control server 200 and transmit a data view request signal DRR to the media server 300. The guardian terminal 400 may receive the surrounding situation information CI of the

happiness guard terminal

100 or 100 ′ from the media server 300.

The guardian terminal 400 receives a risk DA and surrounding situation information CI from the happiness guard terminal 100 or 100 'when the happiness guardian can directly communicate with the terminal 100 or 100', and the happiness guard terminal. The terminal control signal (TCI) may be transmitted to (100 or 100 ').

The guardian terminal 400 may be implemented as a smart phone or a smart pad, and may install and drive an application related to the terminal control system 10. The user of the guardian terminal 400 executes the application as necessary to transmit the risk DA, the terminal control signal TCI, and the data view authentication request signal DRC, or receive the surrounding situation information CI. Can be.

The terminal control signal (TCI) may be generated when the guardian terminal 400 needs to remotely control the terminal 100 or 100 'regardless of the risk DA received by the guardian terminal 400. have. For example, when the user of the guardian terminal 400 wishes to monitor the current state of the user of the happy protector terminal 100 or 100 ', the monitoring unit 130 of the happy protector terminal 300 transmits a terminal control signal (TCI). Alternatively, the speaker 170 may be controlled to operate.

According to an embodiment, when the user of the guardian terminal 400 wants to talk to the user of the happy guard terminal 100 or 100 ', the happy guard is transmitted by the terminal control signal TCI and the microphone 134 and the speaker of the terminal 300. 170 may be controlled to operate.

According to a terminal control system including a happy protector terminal according to an embodiment of the present invention, the happy protector monitors the risk DA and surrounding situation information CI of the happy protector according to the self-determination of the terminal or control of the guardian terminal. Effective monitoring via Wi-Fi Direct or Wi-Fi network is effective.

1 to 3, the shock sensor 120 may detect a shock applied to the happy protector terminal 100, generate shock state information SI according to the shock, and transmit the generated shock state information SI to the controller 110 (S200). ).

The speaker 170 may automatically output an alarm sound when the happiness protector included in the shock state information SI applied to the terminal 100 is greater than or equal to a predetermined size under the control of the controller 110 (S210). .

The controller 110 may compare the shock state information SI and the behavior pattern information PI from the shock sensor 120, and determine the risk DA based on the comparison result (S220 and S230).

The monitoring unit 130 may generate the surrounding situation information CI under the control of the controller 110 according to which section of the plurality of danger level sections the danger DA corresponds to (S240). In addition, the controller 110 may control the monitoring unit 130 to obtain the surrounding situation information CI according to the terminal control signal TCI.

The wireless communication unit 140 may transmit the risk DA and the surrounding situation information CI to the outside of the happy guard terminal 100 in a wireless communication method of a Wi-Fi direct method or a Wi-Fi network method (S250).

1 and 4, the happy protector terminal 100 ′ may include a control unit 110 ′, a sensor unit 180, a monitoring unit 130 ′, a wireless communication unit 140 ′, a memory 150, and a USB ( 160).

The controller 110 ′ is substantially the same as the controller 110 illustrated in FIG. 1, but includes a sensor unit 120, a monitoring unit 130, a wireless communication unit 140, a memory 150, and a USB 160. There are some differences with respect to the operation of the above, which will be described later. In addition, the configurations of the happy guard terminal 100 'are substantially the same as the configurations of the happy guard terminal 100 shown in FIG. 1 except for the following differences.

The sensor unit 180 may include an impact sensor 181, a proximity sensor 182, an illuminance sensor 183, a temperature and humidity sensor 184, and a motion sensor 185. The sensor unit 180 may generate sensor information SEI, and the sensor information SEI may include impact state information, proximity state information, illuminance state information, and temperature generated by the plurality of sensors 181 to 185, respectively. And humidity state information and motion state information.

The shock sensor 181 has substantially the same function and operation as the shock sensor 120 shown in FIG. 1. The proximity sensor 182 may generate proximity state information that is information about whether the user and the happy guardian are near. For example, the proximity sensor 182 detects an induced current generated in an object approaching the high frequency magnetic field generated by the detection coil to determine whether there is a detection object, or an object approaching a pole plate charged with a constant voltage. It can be implemented as a capacitive proximity sensor for detecting the presence of a detection object by detecting a change in capacitance due to the polarization phenomenon.

The illuminance sensor 183 may generate illuminance state information which is information on illuminance around the happy guard terminal 100 ′. For example, the illuminance sensor 183 may be implemented as CDS photoconductive cells whose internal resistance varies according to the amount of incident light. The light conducting cell has a property close to the insulator when no light is incident to pass the current, but when the incident light reaches a threshold value, the internal resistance decreases to pass a constant current.

The temperature and humidity sensor 184 may generate temperature and humidity state information that is information about temperature and humidity around the happy guard terminal 100 ′. The temperature and humidity sensor 124 uses a temperature sensor capable of measuring a resistance value depending on an ambient temperature and a temperature sensor capable of measuring temperature, and a property in which a resistance value dielectric constant of an organic polymer or ceramic changes due to water vapor in the atmosphere. It may include a humidity sensor for electrically detecting. According to an embodiment, the temperature sensor and the humidity sensor may be implemented as one module.

The motion sensor 185 may generate motion state information that is information about a three-dimensional movement of the happiness guard terminal 100 ′ itself. For example, the motion sensor 185 may be implemented with two or more gyroscope sensors capable of measuring angular velocity, and the happy guard may measure three-dimensional movement (tilt, direction, speed, etc.) of the terminal 100 'itself. Can be.

The controller 110 ′ may generate voice recognition information based on voice information So of the microphone 134, which will be described later. That is, the controller 110 ′ may generate voice recognition information by converting the voice information So into a text (or word) using a voice recognition module (not shown). The speech recognition module (not shown) is implemented as a speaker independent system capable of speech recognition of an unspecified speaker, a speaker dependent system capable of speech recognition for a specific speaker, and a speaker adaptation system which is an intermediate form between the speaker independent system and the speaker dependent system. Can be. The speaker adaptation system may be implemented as Maximum Likelihood Linear Regression (MLLR) using a class tree or Maximum A Posteriori (MAP) using prior probability.

The controller 110 ′ compares the terminal state information including the sensor information SEI from the sensor unit 180 with the voice recognition information based on the voice information So and the behavior pattern information PI, and according to the comparison result. The risk DA can be determined.

The behavior pattern information PI may refer to information about a behavior pattern in a user's normal or exceptionally safe state associated with the terminal state information.

For example, the behavior pattern information PI may include information about the direction, magnitude, and speed of the impact of the happiness protector applied to the terminal 100 'when the user of the terminal 100' normally walks with respect to the impact state information. And / or temporal cumulative information therefor. Alternatively, the behavior pattern information PI may indicate that the user of the happy protector terminal 100 ′ has an unusual behavior pattern (for example, jumping high about 3-4 times when feeling good or suddenly sitting down when feeling bad). If so, the happy guard may include information on the direction, magnitude, and speed of the shock applied to the terminal 100 'and / or time accumulation information thereof.

For example, the behavior pattern information PI may include information about whether the happiness guardian is near when the user of the terminal 100 'is normally walking or standing with respect to the proximity state information, and / or It may include the cumulative information about the time. Alternatively, the behavior pattern information PI may indicate whether the happiness guardian is close to the terminal 100 'and the user when the user of the happiness guardian 100' has a unique behavioral pattern (eg, when playing a joke). Information and / or temporal cumulative information therefor.

For example, the behavior pattern information PI may include information about the illumination around the terminal 100 'according to the weather condition when the user of the happiness guardian terminal 100' normally goes to school or disembarks with respect to the illumination state information. It may include. Alternatively, the behavior pattern information PI may be an illuminance around the happiness guard terminal 100 'when the user of the happiness guard terminal 100' has an unusual behavior pattern (for example, when put in a bag or playful). It may include information about.

For example, the behavior pattern information (PI) is the happiness keeper according to the weather conditions when the user of the happy keeper terminal 100 'is usually going to school or dismissal in relation to the temperature and humidity state information temperature and humidity around the terminal 100' It may include information about. Or, the behavior pattern information (PI) is the happiness guard terminal when the user of the happiness guard terminal 100 'has a unique behavior pattern (for example, temporarily moving to a place where temperature and humidity conditions are different during dismissal). 100 ') may include information about ambient temperature and humidity.

For example, the behavior pattern information PI may include information about the happiness protector when the user of the terminal 100 'normally walks or stands in relation to the motion state information. have. Alternatively, the behavior pattern information PI indicates that the happy guard terminal 100 'itself when the user of the happy guard terminal 100' has an unusual behavior pattern (for example, when joking around with the terminal). It may include information about the three-dimensional motion of.

For example, the behavior pattern information PI may include information about words that may occur when the user of the happy guardian terminal 100 'normally goes to or from school in relation to the voice recognition information. Alternatively, the behavior pattern information PI may include information about words when the happiness guardian has an unusual behavior pattern (eg, a friend who frequently uses abusive language) of a user or neighbors of the terminal 100 '.

That is, the controller 110 ′ compares the behavior pattern information PI with the terminal state information (for example, 90% or more similar or 50% or less similar). Based on the comparison result, the risk (eg, relative value based on 100, DA) can be determined. For example, as a result of comparison, as the terminal state information does not match the behavior pattern information PI, the risk DA may be determined to be higher.

Accordingly, the controller 110 ′ may accurately determine whether the user is in danger by comparing the terminal state information with behavior pattern information PI, which is information on a normal or exceptionally safe situation.

The behavior pattern information PI may be previously stored in the memory 150 and may be defaulted even after the reset of the terminal 100 may be happy. In some embodiments, the behavior pattern information PI may be changed by a user's request and / or weather update. The user's request and / or weather update may be made by a user inputting the happiness guard directly through an input interface (not shown) of the terminal 100 or by a program update through the USB 160.

The controller 110 ′ may control the monitoring unit 130 ′ to acquire the surrounding situation information CI according to which section of the plurality of risk level sections. The surrounding situation information CI includes image information Im, voice information So, and location information Lo.

According to an embodiment, the voice information So may be generated regardless of the risk DA for the generation of the voice recognition information.

The wireless communication unit 140 'may include a wireless communication module 142' and an antenna 144 '.

The wireless communication module 142 'may determine whether it can communicate directly with the guardian terminal 400 shown in FIG. 2 (eg, within a distance of 200 meters). That is, when it is necessary to communicate with the guardian terminal 400, the wireless communication module 142 ′ may use various network methods (eg, a Wi-Fi network provided by a wireless communication provider, 2G (Generation), 3G (Generation), and 4G (Generation)). ), Attempting to connect to the control server 200 via Mobile WiMAX (or WiBro)) and at the same time, the guardian terminal of the preset list by the Wi-Fi direct method (direct connection with the terminal within a certain distance without passing through the server). Attempt to connect to 400.

When the wireless communication module 142 ′ can directly communicate with the guardian terminal 400, the wireless communication module 142 ′ transmits the risk DA and the surrounding situation information CI through the Wi-Fi direct method without passing through the control server 200 or the terminal control signal ( TCI) can be received. The wireless communication module 142 ′ may not directly communicate with the guardian terminal 400 via the control server 200 or the media server 300. Generation (DA), 3G (Generation), 4G (Generation), Mobile WiMAX (or WiBro)) to transmit risk (DA) and ambient information (CI) or receive terminal control signals (TCI). Can be.

The antenna 144 ′ may directly transmit and receive signals when the wireless communication module 142 ′ communicates with the control server 200 or the guardian terminal 400.

The speaker 170 ′ may automatically output an alarm sound when the happiness protector included in the terminal state information applied to the terminal 100 ′ is greater than or equal to a predetermined size under the control of the controller 110 ′. According to an embodiment, the alarm sound type and size may be determined differently according to the magnitude of the shock. The alarm sound may function to prevent the crime by causing the happy guard to promptly notify the user of the terminal 100 or a neighbor of the user about the danger, or to embarrass the happy guard to threaten the terminal 100 user.

In addition, the speaker 170 ′ may output terminal operation information under the control of the controller 110 ′. The terminal operation information generated by the control unit 110 'is a happy guardian when the battery for the operation of the terminal 100' needs to be charged, and when it is determined that the user is mischievous when determining the risk DA, for one day It means a warning message suitable for the situation such as when the taken photos and videos need to be backed up.

1 to 5, the sensor unit 180 may include impact state information, proximity state information, illuminance state information, temperature and humidity state information, and motion state information generated by the plurality of sensors 181 to 185, respectively. The sensor information SEI may be generated and transmitted to the controller 110 ′. In addition, the controller 110 ′ may generate voice recognition information based on the voice information So, and generate terminal state information including the sensor information SEI and the voice recognition information (S300).

The speaker 170 may automatically output an alarm sound and output terminal operation information under the control of the controller 110 (S310).

The controller 110 ′ may compare the terminal state information and the behavior pattern information PI and determine the risk DA according to the comparison result (S320 and S330).

The monitoring unit 130 ′ may generate the surrounding situation information CI under the control of the controller 110 ′ according to which section of the plurality of danger level sections the risk DA corresponds to (S340). In addition, the controller 110 ′ may control the monitor 130 ′ to acquire the surrounding situation information CI according to the terminal control signal TCI.

The wireless communication unit 140 ′ may transmit the risk DA and the surrounding information CI to a Wi-Fi direct method or various network methods (eg, a Wi-Fi network provided by a wireless carrier, 2G (Generation), 3G (Generation), and 4G ( Generation can be transmitted to the outside of the terminal 100 'in the wireless communication method of the mobile WiMAX (Mobile WiMAX; or WiBro) (S350).

1 to 6, it is assumed that a plurality of danger level sections are divided into a total of three sections. In other words, the plurality of risk level sections may include a first level section (risk 1 to 3), a second level section 4 to 6, and a third level section 7 to 10. Are divided into)). The plurality of risk level intervals may be determined differently according to gender. For example, the first level section may be set to 1 to 4 for men and 1 to 2 for women.

When the risk DA corresponds to the first level section, the

controller

110 or 110 ′ may control the

camera

132 or 132 ′ to take a picture twice. In addition, the

controller

110 or 110 ′ may control the

GPS

136 or 136 ′ to obtain location information Lo of the

happy guard terminal

100 or 100 ′. In this case, the surrounding situation information CI may include image information Im and location information Lo corresponding to the photograph photographed twice.

When the risk DA corresponds to the second level section, the

controller

110 or 110 ′ may control the

camera

132 or 132 ′ to take a picture three times and to take a video twice every 10 seconds. The

controller

110 or 110 ′ may control the

microphone

134 or 134 ′ to acquire voice information So while the

camera

132 or 132 ′ captures a video. In addition, the

controller

110 or 110 ′ may control the

GPS

136 or 136 ′ to obtain location information Lo of the

happy guard terminal

100 or 100 ′. In this case, the surrounding situation information CI includes image information Im corresponding to a picture taken three times and a video of 20 seconds, voice information So corresponding to the video of 20 seconds, and location information Lo. It may include.

When the risk DA corresponds to the third level section, the

controller

110 or 110 ′ may control the

camera

132 or 132 ′ to take a picture four times and to take a video three times for 10 seconds. The

controller

110 or 110 ′ may control the

microphone

134 or 134 ′ to acquire voice information So while the

camera

132 or 132 ′ captures a video. In addition, the

controller

110 or 110 ′ may control the

GPS

136 or 136 ′ to obtain location information Lo of the

happy guard terminal

100 or 100 ′. In this case, the surrounding situation information CI includes image information Im corresponding to a picture taken four times and a video of 30 seconds, voice information So corresponding to the video of 30 seconds, and location information Lo. It may include.

The invention can also be embodied as computer readable code on a computer readable recording medium. The computer-readable recording medium includes all kinds of recording devices in which data that can be read by a computer system is stored.

Examples of computer-readable recording media include ROM, RAM, Flash Memory, CD-ROM, magnetic tape, floppy disk, optical data storage device, and the like. Program code for performing the object information estimation method according to the present invention. May be transmitted in the form of a carrier wave (eg, transmission over the Internet).

The computer readable recording medium can also be distributed over network coupled computer systems so that the computer readable code is stored and executed in a distributed fashion. And functional programs, codes and code segments for implementing the present invention can be easily inferred by programmers in the art to which the present invention belongs.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

The present invention can be applied to an electronic communication device that is portable by a user.

Claims

In the happy guard terminal,

A sensor unit generating terminal state information according to the surrounding situation of the happy guard terminal;

A controller for determining a risk level according to the terminal state information;

A monitoring unit for automatically generating surrounding situation information according to which of the plurality of danger level sections the risk level corresponds to; And

It includes a wireless communication unit for transmitting the risk and the surrounding situation information to the outside of the terminal in a wireless communication method,

The controller automatically attempts to connect a call to any one of a guardian terminal, a police officer, and an emergency rescue agency having a predetermined number when the risk level corresponds to a predetermined section among a plurality of risk level sections.

The control unit is to send a text message notifying the danger to the terminal of a predetermined number automatically when the risk level corresponds to the predetermined interval,

The surrounding situation information is a picture automatically taken in the vicinity of the terminal, an automatically recorded voice, an automatically recorded video, and an automatically collected location,

The terminal state information includes at least one of impact state information, proximity state information, illuminance state information, temperature and humidity state information, motion state information, and voice recognition information;

The sensor unit

A shock sensor for generating the shock state information, which is a direction, a magnitude, and a speed of the shock applied to the happy guard terminal;

A proximity sensor for generating the proximity state information, which is information on whether a user is close to the terminal;

An illuminance sensor generating the illuminance state information which is information on the illuminance around the terminal;

A temperature and humidity sensor for generating the temperature and humidity state information, which is information about temperature and humidity around the terminal; And

It includes a motion sensor for generating the motion state information which is information on the operation status of the terminal itself,

The control unit is a happy protector terminal for generating the speech recognition information that is information on the converted text information of the surroundings of the terminal.
The method of claim 1,

The controller compares the terminal state information with pre-stored behavior pattern information and determines the risk according to the comparison result.
The method of claim 1,

The plurality of risk level intervals are happy guardian terminal determined differently according to the gender of the user of the terminal.
The method of claim 1,

The monitoring unit

A camera for acquiring image information about the periphery of the terminal;

A microphone for obtaining voice information about the periphery of the terminal; And

Happy protector terminal comprising a Global Positioning System (GPS) for obtaining the position information of the terminal.
The method of claim 1,

And a speaker for automatically outputting an alarm sound and outputting terminal operation information according to the terminal state information.
The method of claim 1,

The wireless communication method is 2G (2 Generation), 3G (3 Generation), 4G (4 Generation), Mobile WiMAX, WI-FI direct or WI-FI network ) Is one of the happy guardian terminal.
Detecting shock applied to a terminal and generating shock status information according to the shock;

Comparing the impact state information with previously stored behavior pattern information;

Determining a risk according to the comparison result; And

Generating surrounding situation information according to which of the plurality of danger level sections the risk level corresponds to;

The behavior pattern information includes information about a user's normal behavior patterns and unusual behavior patterns,

The plurality of risk level intervals are happy to be determined differently according to the gender of the user of the terminal operation method of the terminal.
The method of claim 7, wherein

And the shock state information includes the direction, magnitude, and speed of the shock.
The method of claim 7, wherein

Generating the surrounding situation information

Acquiring image information about the surroundings of the terminal using a camera;

Acquiring voice information about the surroundings of the terminal using a microphone; And

A method of operating a happy protector comprising the step of obtaining position information of the terminal using a Global Positioning System (GPS).
The method of claim 7, wherein

And automatically outputting an alarm sound using a speaker according to the impact state information.
The method of claim 7, wherein

And transmitting the risk and the surrounding situation information to the outside of the terminal in a wireless communication method.
The method of claim 11,

The wireless communication method is one of a WI-FI direct method or a WI-FI network.
In the happy guard terminal,

A shock sensor for detecting a shock applied to the happy guard terminal and generating shock state information according to the shock;

A control unit for comparing the impact state information with pre-stored behavior pattern information and determining a risk according to a comparison result; And

And a monitoring unit generating surrounding situation information according to which of the plurality of danger level sections the risk level corresponds to.

The behavior pattern information includes information about a user's normal behavior patterns and unusual behavior patterns,

The plurality of risk level intervals are happy guardian terminal determined differently according to the gender of the user of the terminal.
The method of claim 13,

The shock state information is happy guard terminal including the direction, magnitude and speed of the impact.
The method of claim 13,

The monitoring unit

A camera for acquiring image information about the periphery of the terminal;

A microphone for obtaining voice information about the periphery of the terminal; And

Happy protector terminal comprising a Global Positioning System (GPS) for obtaining the position information of the terminal.
The method of claim 13,

And a speaker for automatically outputting an alarm sound according to the impact state information.
The method of claim 13,

And a wireless communication unit for transmitting the risk and the surrounding situation information to the outside of the terminal in a wireless communication method.
The method of claim 17,

The wireless communication method is a happy protector terminal which is either a WI-FI direct method or a WI-FI network.
And a shock sensor for generating shock status information according to a shock, comparing the shock status information with pre-stored behavior pattern information, determining a risk according to a comparison result, and the risk corresponds to any one of a plurality of danger level sections. A happy guard terminal for generating surrounding situation information depending on whether the mobile terminal is configured to be connected; And

A guardian terminal generating a terminal control signal for remotely controlling the happy guard terminal and receiving the surrounding situation information;

The happy guard terminal generates the surrounding situation information according to the terminal control signal,

The behavior pattern information includes information about a user's normal behavior patterns and unusual behavior patterns,

The plurality of risk level intervals are determined differently according to the gender of the user of the terminal.
The method of claim 19,

When the happiness guard terminal and the guardian terminal can directly communicate, the terminal control system for transmitting and receiving the risk, the terminal control signal and the surrounding situation information in a Wi-Fi direct method.
The method of claim 19,

If the happy guard terminal and the guardian terminal is unable to communicate directly,

A control server for relaying transmission and reception of the risk and the terminal control signal between the happy guard terminal and the guardian terminal in a Wi-Fi network method; And

And a media server for transmitting and receiving the surrounding situation information between the happy guard terminal and the guardian terminal in a Wi-Fi network manner.