KR20000042216A - Method for servicing rescue operations using micro cell in mobile communication system - Google Patents

Abstract

PURPOSE: A method for servicing rescue operations by using a micro cell in a mobile communication system is provided to save lives of subscribers from dangerous situations, by perceiving locations of the subscribers when the subscribers are in danger. CONSTITUTION: A mobile communication system has a mobile communication subscriber, many base stations, a mobile exchange station, and a service centers. The service center connected with the mobile exchange station stores a telephone number of the mobile communication subscriber, and stores an emergency alarm message from the mobile communication subscriber. A method for servicing rescue operations by using a micro cell, comprises the steps of: making the subscriber receive a predetermined key to deliver an emergency signal to the base stations; making at least two base stations receiving the emergency signal transmit the emergency signal and base station information to the service center; making the service center receive the emergency signal and the base station information to perceive a location of the subscriber, and dial the telephone number to connect a call, then transmit the location and an emergency message.

Description

Emergency rescue service method using microcell in mobile communication system

The present invention relates to an additional service of a mobile communication system, and more particularly, to a service method that can obtain the user from an emergency by grasping the location of a subscriber when the user is informed that the user is in an emergency situation.

In general, a mobile communication system divides a call area into several small areas, and in order to improve the repetitive use of the same frequency by deliberately installing the base stations so that they do not interfere with each other. ). The cellular network can determine the area of the cell where the mobile subscriber is located through the base station. The area of this conventional cell has a radius of several Km.

However, as the demand for cellular services grows, system operators use micro cells, which are more granular cell structures, to increase system capacity. The radius of the micro cell is 0.5 km. Systems using such microcells include Digital Enhanced Cordless Telecommunication (DECT), Second Generation Cordless Telephone, and Personal Communication System (PCS).

With the rapid development of wireless communication, the mobile communication system provides many additional services such as short message service (SMS) and call forwarding service to provide better service. There is an increasing number of value-added services to provide.

Accordingly, an object of the present invention is to provide an emergency rescue service method that can help the mobile communication terminal in an emergency situation when the mobile subscriber is in an emergency situation.

In order to achieve the above object, the present invention provides a mobile communication subscriber, a plurality of base stations wirelessly connected to the mobile communication subscriber, a mobile switching station connected to the plurality of base stations, and a mobile communication subscriber connected to the mobile switching station. An emergency rescue service method using a microcell in a mobile communication system having a service center storing a phone number and an emergency notification message for the mobile communication system, the subscriber receiving a predetermined key input receives an emergency signal to the base stations. A first process of transmitting a second process, at least two base stations which have received an emergency signal among the base stations, respectively transmitting the emergency signal and its own base station information to a service center, Receiving the emergency signal and the base station information transmitted from the mobile subscriber And a third process of identifying the location of the mobile communication subscriber, connecting a dialing call to the telephone number, and transmitting the location information and the emergency message of the mobile communication subscriber.

1 is a system diagram of a mobile communication system to which the present invention is applied.

Figure 2 is a block diagram of a mobile subscriber to which the present invention is applied.

3 is a flow chart illustrating an emergency rescue service method in a mobile communication system using a micro cell according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals have the same reference numerals as much as possible even if displayed on different drawings. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 is a block diagram of a mobile communication system to which the present invention is applied.

Referring to FIG. 1, the mobile switching center 120 is connected to a general wired subscriber 170 through a public telephone exchange network 160 and is connected to a plurality of base stations 102 to 107 having a predetermined area. The base stations are connected to a plurality of mobile subscribers 100 via a radio link. In Figure 1, the mobile subscriber 100 is connected to the base station 101 via a wireless link. The base stations 102 to 107 each have a predetermined cell area. The cell to be applied in the present invention should have an area of 0.5 km or less in radius. The service center 110 stores a telephone number and an emergency notification message for notifying an emergency situation of the mobile subscriber 100 in order to provide an emergency rescue service according to the present invention.

Specifically, if the mobile communication subscriber 100 transmits an emergency signal for notifying that the user is in an emergency situation, the service center 110 transmits the emergency signal to at least two of the base stations 101 to 107. Receive via mobile switching center 120 from one or more base stations. The mobile subscriber 100 forms a radio link with the base station 101 of the cell in which it is located, but also periodically communicates with neighboring base stations 102-107 for handoff, in particular, cells within 0.5 km. Since the microcell has a radius, all adjacent base stations can receive the emergency signal. As such, when an emergency signal is received from the mobile subscriber 100, the service center 110 receives the emergency signal and base station information of each of the base stations from at least two or more base stations. Figure out. When the location of the mobile subscriber is determined, the service center 110 reads and dials a phone number to notify that the mobile subscriber 100 is set to the emergency situation, and the mobile subscriber 100 is in an emergency situation. The emergency situation notification message and the location information indicating the presence of the telephone number are transmitted to the calling party having the telephone number.

2 is a block diagram of a mobile subscriber station according to the present invention.

Hereinafter, referring to FIG. 2, the controller 10 controls the overall operation. The memory 20 stores the emergency call number according to the emergency call of the present invention. The key input unit 30 includes a plurality of numeric keys and function keys, and outputs key data of the keys to the controller 10. The display unit 40 receives and displays display data on a key input from the key input unit 30 from the controller 10, and displays an operation state and a plurality of information of mobile subscribers as icons and text. The RF unit 50 converts and outputs a radio signal received through the antenna into a signal of an intermediate frequency, and converts a predetermined intermediate frequency signal into a radio signal and transmits it through the antenna. The signal processing unit 60 converts the intermediate frequency signal input from the RF unit 50 into a digital signal and outputs it to the control unit 10 if it is general data, and converts it into a voice signal if it is voice data and outputs it to the speaker SP. . In addition, the signal processor 60 encodes a voice signal input through a microphone (MIC) and converts the signal into an intermediate frequency signal, and outputs the signal, or converts the data input from the controller 10 into an intermediate frequency signal to the RF. Output to the unit 50.

3 is a flowchart illustrating an emergency rescue service method in a mobile communication system using a micro cell according to an exemplary embodiment of the present invention.

Hereinafter, referring to FIG. 3, it is assumed that the mobile subscriber 100 in the cell of the base station 101 of FIG. 1 is in an emergency situation.

First, the control unit 10 of the mobile communication subscriber 100 checks whether an emergency key is input from the key input unit 30 in step 301. The emergency key may be configured by a separate key or by a combination of a function key and a numeric key. When the emergency key is input by the key input unit 30 in step 301, the controller 10 proceeds to step 303 and transmits an emergency signal to the base station having the strongest electric field strength. In FIG. 1, the base station with the strongest electric field strength is the base station 101. After transmitting the emergency signal, the controller 10 proceeds to step 304 and determines whether a response signal to the emergency signal is received from the base station 101.

The base station 101 checks whether an emergency signal is received in step 305. At this time, when the emergency signal transmitted by the mobile subscriber 100 in step 303 is received, the base station 101 transmits the emergency situation and the corresponding base station (base station 101) information to the mobile switching center (120). Next, the base station 101 transmits a response signal to the emergency signal to the mobile subscriber 100 in step 309.

The mobile communication subscriber 100 waits for a response signal for the emergency signal from the base station 101 in step 304, and when the base station 101 receives the response signal transmitted in step 309, the mobile communication subscriber 100 proceeds to step 311. To release the radio link with the base station 101. After releasing the radio link with the base station 101, the controller 10 proceeds to step 313 and attempts to link to another adjacent base station next to the base station 101 with a strong reception field strength. In FIG. 1, if the neighboring base station is the base station 106, the mobile subscriber 100 attempts to link to the base station 106. After the link attempt, the controller 10 proceeds to step 315 to check whether the emergency release key is input by the key input unit 30. If the emergency release key is not input in step 315, the controller 10 proceeds to step 303 and transmits an emergency signal to the base station 106.

At this time, the base station 106 performs the same operation as the process of the base station 101 described above. In particular, the base station 106 also transmits the emergency situation and information on the base station (base station 106) to the service center 110 through the mobile switching center 120 in step 307. At this time, at least two base stations must go through the above process. This is to determine the position of the mobile subscriber 100.

The service center 110 checks whether base station information is received in step 317. In this case, when the emergency situation transmitted from the base station 101 and the base station 106 and the information about the base station 101 and the 106 are received through the mobile switching center 120, the service center 110 in step 319 The emergency situation and information about the base stations 101 and 106 are all stored in an internal memory (not shown). If the information is stored, the service center 110 determines the location of the mobile subscriber 100 in step 321. If the location of the mobile communication subscriber 100 is determined in step 321, the service center 110 proceeds to step 323 and dials the set phone number to transmit the emergency situation and location information of the mobile communication subscriber 100. Here, after dialing the telephone number to connect a call, the mobile subscriber 100 should register the telephone number with the service center 110 in advance in order to transmit emergency situation and location information. This may be established by connecting the call to the service center 100 in advance by the mobile subscriber 100, or may be set by the service center 100 any telephone number. The subscriber unit may be a place such as a police station or 119.

As described above, the present invention has the advantage that the mobile communication subscriber can quickly escape from the emergency situation by being able to quickly inform the location of the mobile communication subscriber in an emergency situation such as a police station and 119.

Claims (4)

A mobile communication subscriber, a plurality of base stations wirelessly connected to the mobile communication subscriber, a mobile switching station connected to the plurality of base stations, a mobile number connected to the mobile switching station and a telephone number and emergency notification message for the mobile communication subscriber. In an emergency rescue service method using a micro cell in a mobile communication system having a service center stored therein, A first step of receiving, by the mobile subscriber, a predetermined key input and transmitting an emergency signal to the base stations; A second process of transmitting at least two base stations which have received an emergency signal among the base stations to the service center, respectively; The service center receives the emergency signal and the base station information transmitted from the mobile subscribers from the base stations to determine the location of the mobile communication subscriber, connects the dialing call to the telephone number, And a third process of transmitting the location information and the emergency message. The method of claim 1, wherein the first process, A first step of checking whether an emergency key is input from the key input unit; A second step of transmitting an emergency signal to a base station having a strong reception field strength when the emergency key is input; A third step of checking whether a response signal to the emergency signal is received from the base station which has transmitted the emergency signal; A fourth step of releasing a radio link with the base station when the response signal is received; And a fifth step of performing the process after the second step by repeating the reception field strength in a strong order to another adjacent base station after the radio link is released from the base station. The method of claim 1, wherein the second process, A first step of each of the plurality of base stations transmitting an emergency situation and their respective base station information to the service center when an emergency signal is received from the mobile communication subscriber; And transmitting a response signal to the emergency signal to the mobile subscriber, after transmitting the emergency situation and information of each base station thereof. The method of claim 1, wherein the third process, A first step of checking whether an emergency situation and base station information are received; A second step of storing an emergency situation and base station information for the base stations during the inspection and storing the location of the mobile communication subscriber from the information; And when the location of the mobile subscriber is determined, forming a call by dialing a preset telephone number and transmitting the emergency notification message and location information.