KR100810880B1 - System and Method for Informing Emergency Information and Mobile Terminal Applied to the System - Google Patents

Abstract

The present invention provides an emergency information notification system and method using a mobile communication network for receiving a value sensed by a sensor mounted in a mobile communication terminal from a remote place to grasp an emergency situation of a terminal user, and a mobile communication terminal applied to the system. do.

To this end, the present invention compares the mobile communication terminal to sense the impact from the outside and transmits the sensing data through the mobile communication network, and compares the sensing data from the mobile communication terminal with the database data to determine the actual emergency situation and the type of accident And an emergency information management server for notifying an emergency notification destination of an emergency situation occurring to a user of the mobile communication terminal according to a result of the judgment from the emergency information judgment server.

Mobile terminal, acceleration, sensor, emergency, accident, pattern data, cluster

Description

Emergency information notification system and method using a mobile communication network and a mobile communication terminal applied to the system {System and Method for Informing Emergency Information and Mobile Terminal Applied to the System}

1 is a view showing the configuration of an emergency information notification system using a mobile communication network according to an embodiment of the present invention;

2 is a view showing in detail the configuration of the mobile communication terminal shown in FIG.

3 is a view showing a state in which acceleration pattern data obtained by a plurality of acceleration experiment values is stored in a database according to an embodiment of the present invention;

4 is a diagram illustrating a state of determining an emergency situation by comparing acceleration sensing data from a mobile communication terminal with acceleration pattern data from a database according to an embodiment of the present invention;

5 is a flowchart illustrating an operation of an emergency information providing method using a mobile communication network according to an embodiment of the present invention;

6 is a diagram showing the configuration of an emergency information notification system using a mobile communication network according to another embodiment of the present invention;

FIG. 7 is a view illustrating a state of determining an emergency situation due to acceleration sensing of mobile communication terminals based on location detection of mobile communication terminals clustered in a certain area according to another embodiment of the present invention;

8 is a flowchart illustrating an operation of an emergency information providing method using a mobile communication network according to another embodiment of the present invention;

FIG. 9 is a view illustrating an emergency situation determination state by acceleration sensing from mobile communication terminals grouped according to a monitoring request from a specific mobile communication terminal according to another embodiment of the present invention; FIG.

FIG. 10 is a diagram illustrating a state of determining an emergency situation due to acceleration sensing of mobile communication terminals based on detection of moving positions of clustered mobile communication terminals according to another embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

10, HP1 to HPn: mobile communication terminal, 12, A1 to An: mobile communication base station,

14, B1 to Bn: base station controller, 16, C1 to Cn: mobile communication exchange,

18,50: home location register, 20, 52: short message center,

22,56: emergency information management server, 24: sensor information judgment server,

26: acceleration pattern database, 28, 60: emergency center server,

54: location information management server.

The present invention provides an emergency information notification system and method using a mobile communication network and a system for detecting an emergency situation of a terminal subscriber by detecting a shock state of a mobile communication terminal remotely through a mobile communication network and coping with the emergency situation. It relates to a mobile communication terminal applied.

In general, a mobile communication network system is capable of performing a wireless voice call, a short message, and wireless packet data transmission and reception with a desired counterpart through a mobile communication network using a small and portable mobile communication terminal.

Recently, various functions have been added in consideration of the portability of the mobile communication terminal. Among them, when a terminal user faces an emergency situation, a function for delivering emergency information to the other party through a mobile communication network has been developed and commercialized. It is in a state.

The emergency information transmission function is provided with a separate emergency key button that is responsible for emergency information transmission in a predetermined portion of the mobile communication terminal, and emergency information (e.g., a 119 report center or a police station) Voice messages or text messages) can be sent, which can be useful when a terminal user encounters an emergency such as abduction or distress.

However, since the emergency information transmission function using the conventional mobile communication terminal is capable of generating emergency information for informing an emergency situation by intentionally operating a separate emergency key button, a misoperation is performed in a state not actually an emergency situation. There is a possibility that the accident situation is sent as a mischief or mischief, but the other party receiving the emergency information cannot grasp the actual situation of the user at all.

In addition, in the conventional emergency information transmission function, the terminal user must directly operate the emergency key button to inform the emergency situation, so that the user can directly operate the emergency key button in the face of a collision situation or natural disaster of the passenger vehicle. In the absence of state, there is a problem that the delivery of emergency information can not be made efficiently.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, and an object thereof is to use a mobile communication network to receive a value sensed by a sensor mounted in a mobile communication terminal from a remote place to grasp an emergency situation of a terminal user. It is to provide an emergency information notification system and method.

Another object of the present invention is to provide a mobile communication network for determining whether an emergency situation occurs and an accident type of a terminal user through a database constructed by patterning values that can be sensed according to an emergency situation in a sensor mounted on a mobile communication terminal. It is to provide an emergency information notification system and method.

Another object of the present invention is to receive the sensed value of the emergency situation by a plurality of mobile communication terminals clustered in a certain area to determine the authenticity of the emergency situation and the emergency information using the mobile communication network to enable quick response to the accident situation To provide a notification system and method.

Another object of the present invention is a mobile sensor that senses the shock applied to the terminal user from the outside, the movement applied to the emergency information notification system using a mobile communication network that generates emergency information informing the emergency situation through the sensing value of the sensor It is to provide a communication terminal.

According to a system according to an embodiment of the present invention to achieve the above object, a mobile communication terminal for sensing the impact from the outside to transmit the sensing data through the mobile communication network, and the sensing data from the mobile communication terminal and the database data; An emergency information determination server for determining whether an actual emergency situation has occurred and an accident type, and an emergency information for notifying an emergency situation of an emergency situation which has occurred to a user of the mobile communication terminal according to a result of the determination from the emergency information determination server Provides an emergency information notification system using a mobile communication network comprising a management server.

According to an embodiment of the present invention to achieve the above object, the step of sensing the impact from the outside in the mobile communication terminal to transmit the sensing data through the mobile communication network, the sensing from the mobile communication terminal on the mobile communication network Comparing the data with database data to determine whether an actual emergency has occurred and an accident type, and notifying an emergency situation of the mobile communication terminal to an emergency notification center according to a result of the determination of whether an actual emergency has occurred and an accident type; Provides an emergency information notification method using a mobile communication network, characterized in that made.

In order to achieve the above object, according to a system according to another example of the present invention, a plurality of mobile communication groups for transmitting a sensed data through a mobile communication network by sensing the impact from the outside applied to each terminal grouped in a specific area; When receiving a terminal, a location information management server that detects a state in which the plurality of mobile communication terminals are clustered in a specific area and provides terminal information of each mobile communication terminal, and sensing data from the plurality of mobile communication terminals, And an emergency information management server configured to identify an emergency situation for each terminal user in the specific area based on the terminal information received from the location information management server and transmit emergency information to an emergency notification destination. Provide an emergency information notification system using a communication network.

According to a method according to another embodiment of the present invention to achieve the above object, detecting a state in which a plurality of mobile communication terminals are clustered in a specific area in a mobile communication network, and a plurality of mobiles clustered in the specific area The communication terminal senses each impact from the outside and transmits each to the mobile communication network, and when receiving the sensing data from the plurality of mobile communication terminal grouped in the specific area, the emergency for each terminal user in the specific area It provides an emergency information notification method using a mobile communication network comprising the step of identifying the situation and transmitting the emergency information to the emergency notification.

In order to achieve the above object, according to the mobile communication terminal according to the present invention, an acceleration sensor for sensing an acceleration value due to an impact applied from the outside and an acceleration value due to an external impact from the acceleration sensor are sensed, And a wireless communication means for wirelessly transmitting the acceleration sensing data to the mobile communication network under the control of the control means. Provided is a mobile communication terminal applied to an emergency information notification system used.

Hereinafter, an embodiment of the present invention configured as described above will be described in detail with reference to the accompanying drawings.

That is, Figure 1 is a diagram showing the configuration of an emergency information notification system using a mobile communication network according to an embodiment of the present invention.

As shown in FIG. 1, an emergency information notification system according to an embodiment of the present invention includes a mobile communication terminal 10, a mobile communication base station (BTS) 12, and a base station controller (BSC). Station Controller (14), Mobile Switching Center (MSC) (16), Home Location Register (18), Short Message Service Center (SMSC) (20), Emergency Information It consists of the management server 22, the sensor information determination server 24, the sensor information database 26, and the emergency center server 28. As shown in FIG.

The mobile communication terminal 10 is equipped with an acceleration sensor for sensing the acceleration due to the impact applied from the outside to the user carrying the terminal therein, and various accident situations (for example, the collision situation of the vehicle , An improper assault or lynch that may sufficiently fall, impact from a high place, or the like, may be sensed by an acceleration sensor to transmit acceleration sensing data to a counterpart through a mobile communication network.

As shown in FIG. 2, the mobile communication terminal 10 includes a keypad 30, a display unit 32, an acceleration sensor 34, an analog-to-digital converter (ADC) 36, and a memory 38. And a microprocessor 40, an RF transmission / reception module 42, a baseband processor 44, a microphone 46, and a speaker 48.

The keypad 30 is equipped with a plurality of number / symbol / letter key buttons and function key buttons for performing a voice call with the other party, key input for text / voice message transmission and packet data communication, and the display unit ( 32) is intended to display voice call, text / voice message transmission / reception status, and packet data communication status.

The acceleration sensor 34 is installed at a specific portion inside the mobile communication terminal, and generates an acceleration sensing signal by sensing an acceleration value due to an impact applied to the mobile communication terminal 10 from the outside.

The analog-to-digital converter 36 converts the analog signal sensed by the acceleration sensor 34 into a digital signal and outputs the digital signal to the microprocessor 40.

The memory 38 stores sensitivity setting information for extracting a sensing value due to an impact according to an accident situation from the acceleration value sensed by the acceleration sensor 34.

The microprocessor 40 determines the acceleration sensing data sensed by the acceleration sensor 34 based on the sensitivity setting information of the memory 38 to determine an acceleration value having an impact sensitivity according to an accident situation. By performing the call connection with the special number set for (22), and transmits the acceleration sensing data to the emergency information management server (22).

The RF transceiver module 42 is for transmitting and receiving an RF signal with a mobile base station through an antenna, which converts an RF signal received through the antenna into an intermediate frequency (IF) signal and the baseband processor 44 ), And converts an intermediate frequency (IF) signal from the baseband processor 44 into an RF signal and transmits the same through an antenna.

The baseband processor 44 converts the digital signal of the baseband from the microprocessor 40 into an intermediate frequency (IF) signal in an analog form and outputs it to the RF transmission / reception module 42. The RF transmission / reception module 42 Is converted into a baseband digital signal and output to the microprocessor 40.

The microphone 46 receives a voice of a terminal subscriber during a voice call, and the speaker 48 outputs voice from a counterpart subscriber during a voice call.

In FIG. 1, the mobile communication base station 12 is a network termination device that is directly connected to the mobile communication terminal 10 wirelessly, respectively, which is a baseband signal processing and wire / wireless conversion and transmission and reception of wireless signals and wireless packet data. In charge of reception.

The base station controller 14 is located between the mobile communication base station 12 and the mobile communication switch 16, respectively, and is responsible for the management and control of the base station, which is a radio channel assignment for a wireless modem of the mobile communication terminal. And a release function, a transmission output control function between a wireless modem and a base station, a transcoding and vocoding function, and an operation and maintenance function for each base station.

The mobile switching center 16 performs the incoming / outgoing call processing for exchanging information data of the subscriber to which the mobile telephone number is assigned to the mobile communication terminal 10, and performs the location registration procedure of each mobile communication terminal. For this purpose, it has a Visitor Location Register (VLR) in which subscriber information for a mobile communication terminal of a location area managed by the corresponding mobile communication switch 16 is registered.

The home location register 18 has subscriber information for the overall mobile communication service subscriber and registers location information of the mobile communication terminal through subscriber location information registered in the visitor location register (VLR).

The short message center 20 transmits an emergency status confirmation message from the emergency information management server 22 when an acceleration sensing data corresponding to an emergency situation is generated from the mobile communication terminal 10. It provides to the mobile communication terminal 10 in the form of SMS).

When the emergency information management server 22 receives the acceleration sensing data from the mobile communication terminal 10 through a mobile communication network, the emergency information management server 22 provides the acceleration sensing data to the sensor information determination server 24 to determine whether or not it is an actual emergency situation. Determination and the accident type can be determined, and if the emergency situation determination and the accident type is determined, information of the emergency situation generated in the mobile communication terminal 10 to the emergency center server 28 preset according to the accident type and Provide terminal location information.

Here, the emergency information management server 22 is an emergency situation to the mobile communication terminal 10 through the short message center 20 even before or after the determination of the emergency situation by the sensor information determination server 24. It is desirable to send a message to confirm.

The sensor information determination server 24 compares the acceleration sensing data generated from the mobile communication terminal 10 with the acceleration pattern data stored in the sensor information database 26 and determines whether or not it is an actual emergency. Type is determined, and the determination result is provided to the emergency information management server 22.

The sensor information database 26 stores acceleration pattern data on acceleration sensing values that can be sensed according to various types of accidents by the acceleration sensor 34 mounted in the mobile communication terminal 10, and determines the sensor information. Acceleration pattern data is provided for emergency determination of the server 24.

As shown in FIG. 3, the sensor information database 26 stores a database of acceleration pattern data obtained by patterning acceleration value data obtained by a plurality of acceleration sensing experiments.

In FIG. 3, under the same conditions as the acceleration sensor is mounted on the mobile communication terminal 10, for example, various situations such as a collision situation of a passenger vehicle, a fall from a high place, an improper assault or lynch that can be sufficiently generated, etc. By performing a number of acceleration sensing experiments on an accident situation, the pattern characteristics of the corresponding sensing values (e.g. falling characteristics at a height of 10 m) and emergency are included in the acceleration data obtained by the acceleration sensing experiments. Acceleration pattern data is formed by inserting information values for a situation (for example, a car crash) and an emergency notification center (for example, a 119 reporting center), and sensor information is obtained from a plurality of acceleration pattern data PD1 to PDn according to each accident situation. It is stored in the database 26.

As shown in FIG. 4, the sensor information determination server 24 receives acceleration sensing data from the emergency information management server 22 and stores the respective acceleration pattern data PD1 to PDn stored in the sensor information database 26. And the acceleration pattern comparison result is transmitted to the emergency information management server 22. The acceleration pattern comparison result is inserted into the acceleration pattern data which is determined to be most similar to the data value of the acceleration sensing data. Data about the pattern characteristics, emergency situation, and emergency notification.

In FIG. 1, the emergency center server 28 corresponds to a server operated in an emergency center such as, for example, a 119 report center, a police station, a hospital, or a fire station.

Next, an operation according to an embodiment of the present invention made as described above will be described in detail with reference to the flowchart of FIG. 5.

First, the mobile terminal 10 is accelerating sensor while the user of the terminal is facing an accident situation such as, for example, a collision of the vehicle, falling from a high place, improper assault or Lynch that can be sufficiently shocked, Through 34, the acceleration value due to the shock received by the mobile communication terminal 10 is sensed (step S10).

The microprocessor 40 of the mobile communication terminal 10 determines the acceleration sensing value sensed by the acceleration sensor 34 based on the sensitivity setting information of the sensor stored in the memory 38 to sense an impact amount according to an accident situation. It is determined whether or not the value is one (step S11).

When it is determined that the acceleration value sensed by the acceleration sensor 34 is a value of sensing an impact amount due to an accident, the microprocessor 40 of the mobile communication terminal 10 is assigned a special number assigned to the emergency information management server 22. By performing a call connection, the acceleration sensing data is transmitted to the emergency information management server 22 (step S12).

The emergency information management server 22 transmits the acceleration sensing data received from the mobile communication terminal 10 to the sensor information determination server 24 to request the determination of the sensing information (step S13). The server 24 compares the acceleration sensing data with the acceleration pattern data stored in the sensor information database 26 (step S14) to determine whether the acceleration sensing data is data that senses an actual emergency situation and an accident type. (Step S15).

Subsequently, the sensor information determination server 24 includes information on the determination result of the acceleration pattern, that is, pattern characteristics inserted in the acceleration pattern data determined most similarly to the data value of the acceleration sensing data, an emergency situation, Data about the emergency notification destination is transmitted to the emergency information management server 22 (step S16).

On the other hand, the emergency information management server 22 requests the short message center 20 to transmit a message for checking the emergency situation (step S17), and the short message center 20 is the mobile communication terminal 10 An emergency status confirmation message is transmitted in the form of a short message (step S18).

In this case, the emergency information management server 22 may transmit the emergency confirmation message before the sensor information determination server 24 determines whether the emergency information is actually an emergency situation. You can omit it as much as you like.

After the emergency information management server 22 transmits an emergency confirmation message, the mobile communication terminal 10 receives a reply message indicating that there is no response or an accident situation for a predetermined time to determine whether an emergency is confirmed. (Step S19).

As a result of the determination, if it is determined that the emergency situation with respect to the mobile communication terminal 10, the emergency center server 28 of the emergency notification destination corresponding to the accident situation according to the pattern determination result by the sensor information determination server 24 Emergency information, that is, data on the emergency situation and the location information of the mobile communication terminal 10 which can be known from the home location register 18 is transmitted (step S21).

However, when the emergency information management server 22 receives a reply message indicating that it is not an emergency from the mobile communication terminal 10 according to the determination result of step S19, the emergency is terminated (step S20).

Next, another embodiment of the present invention will be described in detail with reference to the accompanying drawings.

That is, FIG. 6 is a diagram showing a configuration of an emergency information notification system using a mobile communication network according to another embodiment of the present invention. In another embodiment of the present invention, the configuration according to the embodiment of the present invention shown in FIG. Components that perform the same function as the elements will be omitted in detail even if different reference numerals are assigned.

As shown in FIG. 6, the emergency information notification system according to another embodiment of the present invention includes a plurality of mobile communication terminals HP1 to HPn, a plurality of mobile communication base stations A1 to An, and a plurality of base station controllers ( B1 to Bn), a plurality of mobile communication exchangers C1 to Cn, home location register 50, short message center 52, location information management server 54, emergency information management server 56, emergency information database ( 58), the emergency center server (60).

The plurality of mobile communication terminals HP1 to HPn each have an acceleration sensor that senses an acceleration due to an impact applied from the outside to a user who carries the corresponding terminal in each of the plurality of mobile communication terminals HP1 to HPn. By sensing and transmits the acceleration sensing data according to the emergency information management server 56 through the mobile communication network.

Here, since the detailed configuration of each of the mobile communication terminals HP1 to HPn is the same as the detailed configuration of the mobile communication terminal according to the embodiment of the present invention shown in FIG. 2, a detailed description thereof will be omitted.

The location information management server 54 is provided to manage the location information for a plurality of mobile communication terminals (HP1 ~ HPn) from the location information registered in the home location register 50, where the home location register ( Although a cell method using 50) is used, it is also possible to apply a GPS (Global Positioning System) method using a GPS satellite.

Here, the location information management server 54 shows a state in which a plurality of mobile communication terminals (for example, at least five or more mobile communication terminals) among the plurality of mobile communication terminals HP1 to HPn are clustered within a predetermined area for a predetermined time. By detecting and providing the terminal information for the mobile communication terminal clustered in the emergency information management server 56.

The range of a predetermined area in which the location information management server 54 can determine whether the mobile communication terminals are clustered is connected to a plurality of mobile communication base stations A1 to An in order to narrow the detection range for the clustering state of the terminals. In this case, it is preferable to set the coverage area of a plurality of mobile communication repeaters forming a communication area considerably narrower than that of the base station.

The emergency information management server 56 receives terminal information on a plurality of mobile communication terminals clustered in a specific area from the location information management server 54, and a plurality of emergency communication management servers 56 are clustered. When the acceleration sensing data is received from the mobile station, the emergency situation is grasped in the area clustered by each mobile communication terminal, and emergency information is provided to the emergency center server 60.

Here, when the emergency information management server 56 receives the acceleration sensing data from a mobile communication terminal of a certain ratio (for example, 50%) or more among a plurality of mobile communication terminals clustered in a specific area, an emergency situation in a specific area may occur. It is desirable to identify.

The emergency information database 58 stores terminal information about mobile communication terminals clustered in a specific area provided from the location information management server 54.

Next, FIG. 7 is a diagram illustrating a state of determining an emergency situation due to acceleration sensing of mobile communication terminals based on detection of positions of mobile communication terminals clustered in a predetermined area according to another embodiment of the present invention. .

As shown in Fig. 7, in the case where a plurality of mobile communication terminals HP1 to HP5 are located in a specific area, the location information management server 54 is a visitor location register in the mobile communication switchboards C1 to Cn. (VLR) and the position information obtained from the home position register 50 detect that the respective mobile communication terminals HP1 to HP5 are clustered in a specific area.

The location information management server 54 provides terminal information for each of the mobile communication terminals HP1 to HP5 clustered in the specific area to the emergency information management server 56, and the emergency information management server 56. Stores terminal information for the mobile communication terminals HP1 to HP5 in the specific area in the emergency information database 58. FIG.

In this state, when a plurality of mobile communication terminals HP1 to HP5 clustered in the specific area transmit acceleration sensing data as a result of sensing an external shock from the acceleration sensor, the emergency information management server 56 Determines that an emergency situation (eg, a collision accident of a vehicle) has occurred to the users of the plurality of mobile communication terminals HP1 to HP5 grouped in the specific area, and transmits the emergency information to the emergency center server 60 accordingly.

Next, an operation according to another embodiment of the present invention made as described above will be described in detail with reference to the flowchart of FIG. 8.

First, the location information management server 54 detects a state in which a plurality of mobile communication terminals are clustered in a specific area among the plurality of mobile communication terminals HP1 to HPn (step S30), and the plurality of clustered mobile communications. When the terminal information about the terminals is transmitted to the emergency information management server 56 (step S31), the emergency information management server 56 stores the terminal information in the emergency information database 58 (step S32). ).

In this state, it is determined whether a plurality of mobile communication terminals clustered in the specific area sense an impact amount due to an accident situation through a built-in acceleration sensor (step S33), and determine that an impact amount due to an accident situation is sensed. If so, the acceleration sensing data according to the sensing result of each acceleration sensor is transmitted to the emergency information management server 56 (step S34).

The emergency information management server 56 checks whether each of the received acceleration sensing data is data from a crowded mobile communication terminal stored in the emergency information database 58 (step S35), and moves clustered within a specific area. When it is confirmed that the acceleration sensing data from the communication terminal, the short message center 52 is requested to transmit a message for confirming an emergency situation (step S36), and the short message center 52 is clustered in the specific area. An emergency confirmation message is transmitted to each mobile communication terminal in the form of a short message (step S37).

In this case, the emergency information management server 56 may be omitted if it is unnecessary to transmit a message for the emergency confirmation message.

After the emergency information management server 56 transmits an emergency situation confirmation message, each mobile communication terminal grouped within the specific area receives a reply message indicating that there is no response or an accident situation for a predetermined time, thereby confirming the emergency situation. It is determined (step S38).

As a result of the determination, if it is determined that the emergency situation is for the respective mobile communication terminals, the emergency information is transmitted to the emergency center server 60 of the emergency notification destination (step S39).

However, according to the determination result of the step S38, the emergency information management server 56 terminates the emergency situation when receiving a reply message indicating that the emergency situation is not received from the mobile communication terminal grouped in the specific area (step S40). .

Meanwhile, in another embodiment of the present invention, cluster information is collected only for a specific area for requesting clustering, not collecting all clustering information on mobile communication terminals clustered in each area in the location information management server 54. It is also possible to provide to the emergency information management server 56.

That is, as shown in FIG. 9, in a state where a plurality of mobile communication terminals HP1 to HP5 are clustered in a specific area, at least one or more mobile communication terminals among the plurality of mobile communication terminals HP1 to HP5 are specially assigned. In case of being connected to the emergency information management server 56 through the system and transmitting the monitoring request information, the emergency information management server 56 provides cluster information on a specific area where the mobile communication terminal which has transmitted the monitoring request information is located. You will be asked.

Then, the location information management server 54 detects the location of the clustered mobile communication terminals only for the specific region requested by the cluster information and provides the terminal information for each mobile communication terminal to the emergency information management server 56. It becomes possible.

When the emergency information management server 56 transmits acceleration sensing data among a plurality of mobile communication terminals HP1 to HP5 in the specific area requested for monitoring, the emergency information server 56 identifies the emergency situation in the corresponding area. Emergency information is sent to (60).

As another example, as shown in FIG. 10, in the location information management server 54, the grouping state of the plurality of mobile communication terminals HP1 to HP5 clustered in a specific area (area A) is set after a predetermined time. When it is detected that it is held in another area (area B), the plurality of mobile communication terminals HP1 to HP5, which are each grouped, are moving in a grouped state (for example, a plurality of terminal users are moving in a bus vehicle). To provide the terminal information, which is being moved to the emergency information management server 56, accordingly, and to provide the location information of the plurality of mobile communication terminals HP1 to HP5 that are changed according to the group movement. To the emergency information management server (56).

When the emergency information management server 56 transmits acceleration sensing data among a plurality of mobile communication terminals HP1 to HP5 that are moving in a group, emergency information for each mobile communication terminal to the emergency center server 60. While transmitting, it provides location information that has changed over time.

While specific embodiments of the present invention have been described and illustrated above, it will be apparent that the present invention may be embodied in various modifications by those skilled in the art. Such modified embodiments should not be understood individually from the technical spirit or the prospect of the present invention, but should fall within the claims appended to the present invention.

As described above, when the user of the mobile communication terminal faces an emergency situation by a strong shock applied from the outside while carrying the corresponding terminal, the acceleration sensor mounted in the mobile communication terminal is used according to the emergency situation. By sensing the shock and transmitting the acceleration sensing data according to the remote emergency information management server, the emergency information management server compares the data with the pattern data for the acceleration sensing and stored in advance to identify the emergency situation and identifies the accident type. By making it possible to identify and follow up, it is possible to ensure the reliability of the rescue request for an emergency and to identify the exact accident situation.

In addition, in the present invention, when receiving the acceleration sensing data according to the external shock sensing from the mobile communication terminal clustered in the specific area from the emergency information management server of the remote location, it is necessary to grasp the emergency situation in the specific area and take follow-up actions. As a result, it is possible to secure the reliability of the judgment of the emergency situation and have the effect of promptly following up on the occurrence of a medium / large accident.

Claims (32)

A mobile communication terminal for sensing an impact from the outside, extracting a sensing value due to an impact according to an accident situation from an impact value sensed by preset sensitivity setting information, and transmitting sensing data through a mobile communication network; It has a database that stores acceleration pattern data patterning acceleration values according to a number of accident types, including acceleration value data for each accident situation obtained by performing a number of shock sensing experiments for each accident situation. An emergency information determination server for comparing the sensing data from the mobile communication terminal with the acceleration pattern data of the database to determine whether an actual emergency situation has occurred and an accident type; And And an emergency information management server for notifying an emergency notification destination of an emergency situation that has occurred to a user of the mobile communication terminal according to the determination result from the emergency information determination server. The method of claim 1, The mobile communication terminal, the emergency information notification system using a mobile communication network, characterized in that it comprises an acceleration sensor for sensing the acceleration value due to external impact. delete delete delete The method according to claim 1 or 2, The acceleration pattern data is acceleration pattern data obtained by patterning an acceleration value due to an external impact, The acceleration pattern data is an emergency information notification using a mobile communication network, characterized in that the pattern characteristics of the acceleration value and information values for the emergency situation and the emergency notification destination are inserted into the acceleration value data obtained by standard for each accident situation. system. The method of claim 6, The emergency information determination server, the pattern characteristics contained in the acceleration pattern data most similar to the acceleration sensing data from the mobile communication terminal, the emergency situation, the information value of the emergency notification destination as the emergency determination result data to the emergency information management server. Emergency information notification system using a mobile communication network, characterized in that configured to transmit. The method of claim 7, wherein The emergency information management server is configured to provide the location information of the mobile communication terminal to the emergency notification destination according to the accident situation by the information value of the emergency notification destination included in the emergency determination result data from the emergency information determination server. Emergency information notification system using a mobile communication network characterized in that. The method of claim 1, It further comprises a short message center (SMSC) for transmitting a message for confirming an emergency situation to the mobile terminal in the form of a short message (SMS), The emergency information management server is an emergency information notification system using a mobile communication network, characterized in that configured to transmit a message for checking the emergency situation to the mobile terminal through the short message center. A first step of sensing a shock from the outside in the mobile communication terminal, extracting a sensing value due to an impact according to an accident situation from the sensing value based on preset sensitivity setting information, and transmitting sensing data through a mobile communication network; Acceleration pattern data stored in the database is patterned by accelerating acceleration values for each accident situation obtained by receiving a plurality of sensing data from the mobile communication terminal on the mobile communication network and performing a plurality of shock sensing experiments for each accident situation. Comparing, the second step of determining whether an actual emergency situation and an accident type; And And a third step of notifying the emergency notification destination of the emergency situation of the mobile communication terminal according to whether an actual emergency situation occurs and an accident type determination result. The method of claim 10, In the first step, the sensing data sensing the external shock is the acceleration information notification method using the acceleration sensing data, the acceleration value is sensed by the acceleration sensor of the mobile communication terminal. delete delete delete The method of claim 10 or 11, The acceleration pattern data is acceleration pattern data obtained by patterning acceleration values due to external shocks, In the acceleration pattern data, the pattern information of the acceleration value and the information value for the emergency situation and the emergency notification destination are inserted into the acceleration value data obtained by standard for each accident situation. Notification method. The method of claim 15, The second step is characterized by determining the actual emergency situation and the type of accident based on the pattern characteristics included in the acceleration pattern data most similar to the acceleration sensing data, the emergency situation and the information value of the emergency notification destination. Emergency information notification method using a mobile communication network. The method of claim 16, In the third step, the emergency notification destination according to the accident situation is identified by the information value of the emergency notification destination included in the acceleration pattern data most similar to the acceleration sensing data, and the location information of the mobile communication terminal is used as the emergency notification destination. Emergency information notification method using a mobile communication network, characterized in that made to provide. The method of claim 10, Emergency information notification method using a mobile communication network, characterized in that further comprising the step of transmitting a message for checking the emergency situation to the mobile communication terminal. A plurality of mobile communication terminals grouping in a specific area to sense an impact from the outside applied to each terminal and transmitting sensing data through a mobile communication network, respectively; A location information management server that detects a state in which the plurality of mobile communication terminals are clustered in a specific area and provides terminal information of each mobile communication terminal; And When receiving the sensing data from the plurality of mobile communication terminal, based on the terminal information received from the location information management server to grasp the emergency situation for each terminal user in the specific area and transmits the emergency information to the emergency notification destination Emergency information notification system using a mobile communication network, characterized in that configured to include an emergency information management server. The method of claim 19, The plurality of mobile communication terminals, each of the emergency information notification system using a mobile communication network, characterized in that it comprises an acceleration sensor for sensing the acceleration value of the external impact. The method of claim 19, The emergency information management server, when sensing data is received from a mobile communication terminal of a predetermined ratio or more among the plurality of mobile communication terminals, the emergency information using a mobile communication network, characterized in that the terminal user in the specific area is configured to determine the accident situation. Notification system. The method of claim 19, When the emergency information management server transmits monitoring request information from at least one mobile communication terminal among the plurality of mobile communication terminals, requests the cluster information of the specific area from the location information management server. The location information management server, the emergency information notification system using a mobile communication network, characterized in that for detecting the location information for a plurality of mobile communication terminals located in a specific area where the mobile communication terminal that has transmitted the monitoring request information. The method of claim 19, The location information management server, when detecting that a plurality of mobile communication terminals clustered in a specific area has moved to a different state after a certain time, the terminal information for the plurality of mobile communication terminal group is moved to the emergency Emergency information notification system using a mobile communication network, characterized in that for transmitting to the information management server. The method of claim 23, The location information management server, the emergency information notification system using a mobile communication network, characterized in that for providing the location information for a plurality of mobile communication terminal fluctuates by a predetermined time unit to the emergency information management server. A first step of detecting a state in which a plurality of mobile communication terminals are clustered in a specific area in a mobile communication network; A second step of sensing a shock from the outside by a plurality of mobile communication terminals grouped in the specific area and transmitting the impacts to a mobile communication network, respectively; And And receiving a sensing data from a plurality of mobile communication terminals grouped in the specific area, identifying a state of emergency for each terminal user in the specific area and transmitting emergency information to an emergency notification destination. Emergency information notification method using a mobile communication network, characterized in that. The method of claim 25, The first step may include transmitting monitoring request information from at least one mobile communication terminal among the plurality of mobile communication terminals; And detecting a state in which a plurality of mobile communication terminals located in a specific area in which the mobile communication terminal which has transmitted the monitoring request information is clustered is clustered. The method of claim 25, The first step may be configured to detect a clustered state of the plurality of mobile communication terminals that are clustered when the plurality of mobile communication terminals clustered in a specific area detect a movement to a clustered state after a predetermined time. Emergency information notification method using a mobile communication network, characterized in that. The method of claim 27, Emergency information notification method using a mobile communication network, characterized in that for acquiring the change position information of a predetermined time unit for the plurality of mobile communication terminal group. The method of claim 25, In the second step, the sensing data sensing the external shock is the acceleration information notification method, characterized in that the acceleration sensing data is sensed by the acceleration sensor of the plurality of mobile communication terminal by the acceleration sensor. . The method of claim 25, In the third step, when sensing data is received from a mobile communication terminal of a predetermined ratio or more among the plurality of mobile communication terminals, emergency information using a mobile communication network is configured to determine that a terminal user is in an accident situation. Notification method. delete delete

Images