KR20080015676A - Method for emergency processing the emergency situation - Google Patents

Abstract

An emergency handling method of a communication system is provided to be capable of receiving location information of a user in an emergency so that a path can be set with the location information received in a path service device, thereby more quickly rescuing the user. If the first mobile communication terminal(100a) demands rescue, an emergency message including location information is generated and transmitted(S200-S205). The second mobile communication terminal(200a) receiving the transmitted emergency message transmits the emergency message to a path service device(300)(S207-S219). The path service device(300) sets a path to the first mobile communication terminal(100a) according to location information included in the received emergency message(S221-S225).

Description

Emergency disaster handling method of communication system {Method for emergency processing the emergency situation}

1 is a view showing a schematic configuration of a communication system of the present invention;

2 is a block diagram showing the configuration of a first mobile communication terminal of the present invention;

3 is a block diagram showing the configuration of a second mobile communication terminal of the present invention;

4 is a diagram illustrating a structure of a message to be transmitted according to the present invention;

5 is a flowchart illustrating an emergency disaster treatment process according to a first embodiment of the present invention; and

6 is a flowchart illustrating an emergency disaster treatment process according to a second embodiment of the present invention.

The present invention relates to a communication system, and more particularly, to a communication system for handling an emergency disaster of a mobile communication terminal requesting an emergency rescue.

The Global Position System (GPS) is a system that can be located anywhere in the world by 24 GPS satellites orbiting the earth at an altitude of 2000 km. GPS uses radio waves in the 1.5 GHz band, and on the ground there are coordination sensors called Control Stations that collect and synchronize information transmitted from GPS satellites. do. Such a GPS-based location tracking system is freely available to anyone, there is no limit on the number of users, it is possible to perform continuous positioning in real time, and there is an advantage that relatively accurate position measurement is possible.

On the other hand, modern society tends to increase in proportion to the occurrence of various crimes for economic and mental reasons as society develops. Moreover, recently, various injuries, assaults, etc. are frequently reported through the media. Therefore, women, the elderly, and minors are difficult to walk at night. In this regard, in the related art, when a user enters a button to make an emergency rescue request on a mobile communication terminal and the user inputs a button, the emergency rescue request can be made to a predetermined phone number, so that the emergency rescue in a user's emergency situation. The request was made possible.

However, when making a request with the conventional emergency rescue request function, if you press the emergency rescue key, you should wait until the call is connected to the predetermined number.If the call is connected, you can tell your situation directly and inform your location. In fact, there is a problem for the user who requested the emergency rescue in an emergency.

Accordingly, an object of the present invention is to provide an emergency disaster handling method of a communication system for a faster rescue by receiving the location information of a user in an emergency and setting the path to the location information received by the path providing device.

Another object of the present invention is to provide an emergency disaster handling method of a communication system for a faster rescue by transmitting location information of a user in an emergency situation to a public institution.

Another object of the present invention is to provide an emergency disaster handling method of a communication system for a faster rescue by receiving a location information of a user in an emergency and setting a path to the received location information.

In order to achieve the above object, an emergency disaster processing method of a communication system including a first mobile communication terminal and a second mobile communication terminal requesting an emergency rescue according to an embodiment of the present invention and a path providing device connected thereto are described above. When the first mobile communication terminal requests an emergency rescue, a first process of generating and transmitting an emergency message including location information, and the second mobile communication terminal receiving the transmitted emergency message transmits the emergency message to the route providing apparatus. And a third process of setting, by the route providing apparatus, a route to the first mobile communication terminal according to the location information included in the received emergency message.

According to the present invention, by receiving the user's location information and setting it as a movement route, there is an effect that can request the structure more quickly and accurately.

In the present invention, the short-range communication has been described using Bluetooth communication as an example. Of course, it is also applicable to infrared communication.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be noted that the same elements in the figures are represented by the same numerals wherever possible. In addition, detailed descriptions of well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

1 is a view showing a schematic configuration of a communication system of the present invention.

The communication system according to the present invention is connected to the first mobile communication terminal 100 including the position detecting unit RF communication unit, the second mobile communication terminal including the RF communication unit and the short range communication unit, and the second mobile communication terminal 200. It is composed of a route providing device 300. At this time, the path providing device may be provided in the second mobile communication terminal.

When the user generates the emergency rescue request signal through the keypad provided in the first mobile communication terminal 100, the position of the first mobile communication terminal 100 through the position detection unit provided in the first mobile communication terminal 100 Request and receive information. At this time, the first mobile communication terminal 100 generates an emergency message including the location information received from the location detection unit and transmits it through the wireless communication network.

The second mobile communication terminal 200 receives an emergency message transmitted from the first mobile communication terminal 100 through a wireless communication network and transmits the received emergency message to the route providing device 300 through the short range communication module. At this time, the path providing device 300 receives an emergency message through the short range communication module, and sets a destination path with reference to the received emergency message. In this case, the route providing apparatus may be provided in the second mobile communication terminal 200.

2 is a block diagram showing the configuration of a first mobile communication terminal of the present invention.

The first mobile communication terminal 100 according to the present invention includes a storage unit 110, an input unit 120, a position detector 130, a controller 140, a communication unit 150, and a display unit 160.

The storage unit 110 includes a program memory for storing a program required for operation and status of the first mobile communication terminal 100 or a control of the controller 140, and a data memory for storing data. In particular, when the emergency rescue request is input, the storage unit 110 includes an emergency call number storage area 111 for storing an emergency call number for requesting an emergency rescue in response to the emergency rescue request.

The input unit 120 may use various elements such as a keypad and a touch screen, and is used when a user selects a desired function or inputs information. In particular, the input unit 120 has an emergency rescue key 121 for requesting an emergency rescue.

The location detector 130 receives the location detection signal from the GPS satellites, and determines the location of the first mobile communication terminal 100 by latitude and longitude from the received location detection signal. In particular, the location detector 130 receives the location information of the first mobile communication terminal 100 in response to the emergency rescue request by the user.

The controller 140 controls the overall state and operation of the first mobile communication terminal 100 and may include a microprocessor or a digital signal processor (DSP). In particular, the controller 140 drives the location detector 130 in response to the emergency rescue request generated from the input unit 120 to generate an emergency message including the location information received from the location detector 130.

Although the RF communication unit 150 is not shown in the figure. In order to transmit and receive signals with a mobile communication system including a base station, a mobile switching center, and a short message sensor, a transmitter includes a transmitter including a modulator and a transmission amplifier, and a receiver including a receive amplifier and a demodulator. In particular, the RF communication unit 150 suppresses amplification of the received noise as much as possible, amplifies a desired signal, and generates a digital signal through an intermediate frequency, and the digital signal is analyzed and processed by the controller 140. In addition, the RF communication unit 150 modulates and amplifies the signal generated by the control unit 140 in a desired frequency band, and finally radiates to the antenna via a duplexer (not shown).

In particular, the RF communication unit 150 transmits an emergency message including the location information generated by the control unit 140 to the calling number stored in the storage unit 110 through the antenna.

The display unit 160 displays the state and operation process of the first mobile communication terminal 100. In particular, when an emergency rescue request is generated from the input unit 120, the display unit 160 displays an emergency situation under the control of the controller 140. In addition, when an emergency rescue request occurs, the display unit 160 stops supplying power under the control of the controller 140. In an emergency situation, by not supplying power to the display unit 160, it is possible to hide whether to request an emergency rescue to the counterpart.

3 is a block diagram showing the configuration of a second mobile communication terminal of the present invention.

The second mobile communication terminal 200 includes a storage unit 210, an input unit 220, a short range communication module 230, a control unit 240, a communication unit 250, and a display unit 260.

The storage unit 210 includes a program memory for storing a program required for the operation and status of the second mobile communication terminal 200 or the control of the controller 240 and a data memory for storing data. In particular, the storage unit 210 includes a PIN storage area 211 for storing a personal identification number (hereinafter referred to as a PIN) that is a numeric code input by a user or embedded in a Bluetooth device for security. At this time, the same PIN between the devices to communicate with must be registered.

The input unit 220 may use various elements such as a keypad and a touch screen, and is used when a user selects a desired function or inputs information.

The short range communication module 230 is a device for the second mobile communication terminal 200 to perform short range communication with another device provided with the short range communication module 230. In particular, the short-range communication module 230 transmits an 'Inquiry' message for obtaining a device address to the counterpart device when pairing, and receives a 'BD_ADDR' message from the counterpart device in response thereto. The short range communication module 230 requests a preparation for communication by transmitting a page message, and the counterpart device transmits a 'response' message indicating that preparation for communication is completed, thereby preparing for short range communication. Is complete. After the above process, the short-range communication module 230 transmits and receives data with the counterpart device.

The controller 240 controls the overall state and operation of the second mobile communication terminal 200 and may be formed of a microprocessor or a digital signal processor (DSP). In particular, the control unit 240 transmits the emergency message received from the communication unit 250 to the short-range communication module 230.

The RF communication unit 250 is not shown in the figure. In order to transmit and receive signals with a mobile communication system including a base station, a mobile switching center, and a short message sensor, a transmitter includes a transmitter including a modulator and a transmission amplifier, and a receiver including a receive amplifier and a demodulator. Specifically, the RF communication unit 250 suppresses amplification of the received noise as much as possible, amplifies a desired signal, and generates a digital signal through an intermediate frequency, which is analyzed and processed by the controller 240. In addition, the RF communication unit 250 modulates and amplifies the signal generated by the control unit 240 in a desired frequency band, and finally radiates to the antenna via a duplexer (not shown).

In particular, the RF communication unit 250 receives an emergency message transmitted from the RF communication unit 250 of the second mobile communication terminal 200.

The display unit 260 displays the state and operation process of the second mobile communication terminal 200.

4 is a diagram illustrating a structure of a message to be transmitted according to the present invention.

Referring to FIG. 4, the structure 20 of the message sent from the first mobile communication terminal 100 includes a header 21 and a data 25. At this time, the header 21 includes a calling number 22, a message identifier 23, and a receiving number 24. The message identifier 23 indicates the type of message. In particular, the message identifier 23 distinguishes between a general message and an urgent message.

Data 25 is composed of location information 26 and message content 27.

The location information 26 is location information received from the location detector 130 of the first mobile communication terminal 100.

5 is a flowchart illustrating an emergency disaster treatment process according to a first embodiment of the present invention.

2, 3 and 5, in response to an emergency rescue request (S200), the first mobile communication terminal 100a receives the location information of the first mobile communication terminal 100a from the location detector 130. It receives (S201). The first mobile communication terminal 100a generates an emergency message including the location information received in step S201 (S203) and transmits the call number stored in the storage unit 110 through the RF communication unit 150 (S205). At this time, in the present invention, the calling number stored in the storage unit 110 is preferably a telephone number corresponding to the second mobile communication terminal 200a.

The second mobile communication terminal 200a receiving the emergency message transmitted in step S205 is received (S205).

The second mobile communication terminal 200a transmits the received emergency message to the path providing apparatus 300 through the short range communication module 230. In detail, when the second mobile communication terminal 200a transmits an 'inquiry' message to the route providing apparatus 300 in order to know the device identification number of the route providing apparatus 300 (S209), the route providing apparatus (received) is received. 300, in response to this, transmits a 'BD_ADDR' message to the second mobile communication terminal 200a (S211). Upon receiving the 'BD_ADDR' message, the second mobile communication terminal 200a transmits a 'page' message to the route providing apparatus 300 to request preparation for communication (S213). In more detail, the route providing apparatus 300 is synchronized using the hopping pattern determined by the second mobile communication terminal 200a.

The route providing apparatus 300 transmits a 'response' message to inform that the communication is ready for communication (S215). The second mobile communication terminal 200a which has received this is connected to the path providing apparatus 300 for short-range communication (S217). When the short-range communication connection is completed in step S217, the second mobile communication terminal 200a transmits the emergency message received in step S207 to the route providing apparatus 300 through short-range communication (S219). The route providing apparatus 300 receiving the emergency message analyzes the received emergency message (S221) and obtains location information of the first mobile communication terminal 100a that has transmitted the emergency message (S223). In this case, the route providing apparatus 300 sets a destination route using the obtained location information (S225).

6 is a flowchart illustrating an emergency disaster treatment process according to a second embodiment of the present invention. In the second embodiment of the present invention, the second mobile communication terminal 200b includes a path providing device 300.

2, 3, and 6, in response to an emergency rescue request (S300), the first mobile communication terminal 100b receives the current location information of the first mobile communication terminal 100b from the location detector 130. Receive (S301). The first mobile communication terminal 100b generates an emergency message including the location information received in step S301 (S303) and transmits the call number stored in the storage unit 110 through the RF communication unit 150 (S305). At this time, the calling number stored in the storage unit 110 is preferably a telephone number corresponding to the second mobile communication terminal 200b.

The second mobile communication terminal 200b receives the emergency message transmitted in step S205 (S307).

The second mobile communication terminal 200b analyzes the received emergency message (S309) and obtains location information of the first mobile communication terminal 100b that has transmitted the emergency message (S311). In this case, the second mobile communication terminal 200b sets a destination path using the obtained location information (S313).

In the above, specific preferred embodiments of the present invention have been illustrated and described. However, the present invention is not limited to the above-described embodiment, and various modifications can be made by those skilled in the art without departing from the gist of the present invention attached to the claims. will be.

According to the present invention, by receiving the location information of the user in an emergency situation and setting the path to the location information, there is an effect that can be faster structure.

Claims (6)

In the emergency disaster processing method of a communication system comprising a first mobile communication terminal and a second mobile communication terminal requesting an emergency rescue and a path providing device connected thereto, A first step of generating and transmitting an emergency message including location information when the first mobile communication terminal requests an emergency rescue; A second process of transmitting, by the second mobile communication terminal receiving the transmitted emergency message, the emergency message to the route providing apparatus; And And a third step of setting, by the route providing device, the route to the first mobile communication terminal according to the location information included in the received emergency message. The method of claim 1, wherein the first process is And the first mobile communication terminal obtains location information from a base station. The method of claim 1, wherein the first process is And the first mobile communication terminal obtains location information from a location information providing server. The method of claim 1, wherein the second process is And the second mobile communication terminal has a path providing device and sets a path to the first mobile communication terminal according to the location information included in the emergency message received. The method of claim 1, wherein the second process is And the second mobile communication terminal transmits the emergency message to the route providing device through short-range wireless communication. The method of claim 1, wherein the second process is And the second mobile communication terminal transmits the emergency message to the route providing device through a wire.

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