KR20190139157A - Method for providing mobile communication service in case of disaster and system therefor - Google Patents

Abstract

The present invention relates to a method and system for providing a mobile communication service by forming an umbrella cell when a disaster occurs. According to the present invention, the method for providing a mobile communication service to a mobile terminal in a disaster response system when a disaster occurs comprises the steps of: determining whether a disaster occurs; if it is determined that a disaster has occurred, activating a deactivated base station to form an umbrella cell and accessing a backbone network; and relaying communication between the backbone network and the base station, and providing a mobile communication service to a mobile terminal located in the umbrella cell.

Description

Method for providing mobile communication service in case of disaster and system therefor}

The present invention relates to a method and system for providing a mobile communication service by forming an umbrella cell when a disaster occurs.

The mobile communication service means a service that can continuously communicate while moving, and mobile communication providers install a plurality of base stations to secure an area of the mobile communication service. Such a base station forms a cell, and when the mobile station is located in the cell, the base station forms a radio link with the mobile station to provide a mobile communication service to the mobile station.

However, in the event of an earthquake, power outage, fire, etc., when a failure occurs in the base station, a cell formed by the base station is removed, thereby generating an area where mobile communication is impossible.

In order to prepare for such a disaster situation, a technology for forming a cell of a mobile communication network by causing a mobile base station used during a disaster to be dispatched to a disaster site has appeared.

However, such a disaster coping technique has a problem in that it takes a lot of time to normalize the mobile communication service in the event of a disaster as a response after a disaster occurs.

The present invention has been proposed to solve such a conventional problem, and an object thereof is to provide a method and a system for providing a normal mobile communication service by forming an umbrella cell in advance when a disaster occurs.

Other objects and advantages of the present invention can be understood by the following description, and will be more clearly understood by the embodiments of the present invention. Also, it will be readily appreciated that the objects and advantages of the present invention may be realized by the means and combinations thereof indicated in the claims.

According to a first aspect of the present invention for achieving the above object, a method for providing a mobile communication service to a mobile terminal when a disaster occurs in a disaster response system, comprising: determining whether a disaster occurs; If it is determined that a disaster has occurred, activating the deactivated base station to form an umbrella cell and accessing the backbone network; And relaying communication between the backbone network and the base station, and providing a mobile communication service to a mobile terminal located in the umbrella cell.

The determining may include determining whether a power failure occurs, checking whether a failure occurs in the mobile communication network, and then determining that the disaster has occurred when the power failure occurs and a failure occurs in the mobile communication network.

An S1 interface may be formed between the disaster response system and the MME of the mobile communication network. In this case, in the determining, the failure of the S1 interface may be confirmed to identify the failure of the mobile communication network.

The accessing to the backbone network may be performed by using a wired section formed between the disaster response system and the backbone network to access the backbone network preferentially, and when it is impossible to connect to the backbone network through the wired section, through the satellite communication. Connect to the backbone network.

The providing of the mobile communication service may include obtaining identification information of the mobile terminal; And checking whether the identification information of the mobile terminal is registered in the subscriber database, and if the registration information is registered, providing a mobile communication service to the mobile terminal.

The providing of the mobile communication service may include: checking, in the subscriber database, a QoS corresponding to identification information of the mobile terminal; And allocating a resource corresponding to the checked QoS to the mobile terminal.

According to a second aspect of the present invention for achieving the above object, a system for normally providing a mobile communication service to a mobile terminal in the event of a disaster, the base station for selectively forming an umbrella cell during a disaster; A wired communication unit connected to the backbone network by wire; A disaster detection unit that determines whether or not a disaster occurs; And determining that a disaster has occurred in the disaster detection unit, forming an umbrella cell using the base station, connecting to a backbone network using the wired communication unit, and relaying communication between the backbone network and the base station, It includes a service control unit for providing a mobile communication service to a mobile terminal located in the cell.

The system according to an embodiment of the present invention continuously monitors whether or not a disaster occurs, and immediately forms an umbrella cell (that is, a cell used during a disaster) when it is determined that a disaster has occurred, thereby providing a mobile communication service in the event of a disaster. This has the advantage of minimizing the time for disconnection.

In addition, the system according to an embodiment of the present invention, by determining whether or not a disaster occurs by combining the power failure, the failure of the mobile communication network, there is an advantage that can detect the disaster more accurately.

In addition, the system according to the embodiment of the present invention has an advantage of operating as an independent mobile communication network when a disaster occurs, and providing a mobile communication service to a user regardless of whether the existing mobile communication network operates.

In addition, if the wired section connected to the backbone network according to the embodiment of the present invention is damaged, by connecting to the backbone network using satellite communication, the mobile communication service can be normally provided even if the wired section is destroyed.

The following drawings attached to this specification are illustrative of the preferred embodiments of the present invention, and together with the specific details for carrying out the invention serve to further understand the technical spirit of the present invention, the present invention described in such drawings It should not be construed as limited to matters.
1 is a diagram illustrating a communication environment to which a disaster response system is applied according to an embodiment of the present invention.
2 is a diagram illustrating a configuration of a disaster response system according to an embodiment of the present invention.
3 is a flowchart illustrating a method of operating a disaster response system as a mobile communication network according to a disaster occurrence according to an embodiment of the present invention.
4 is a diagram illustrating a state in which a cell is first formed in a disaster area.
5 is a flowchart illustrating a method of providing a mobile communication service to a mobile terminal in a disaster response system according to an embodiment of the present invention.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings, whereby those skilled in the art may easily implement the technical idea of the present invention. There will be. In addition, in describing the present invention, when it is determined that the detailed description of the known technology related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram illustrating a communication environment to which a disaster response system is applied according to an embodiment of the present invention.

As shown in FIG. 1, in a state where an existing mobile communication network 400 and a plurality of base stations 310, 320, and 330 are constructed, the disaster response system 200 is installed in an elevated or high-rise building.

The mobile communication network 400 includes an IP Multimedia Subsystem (IMS), a Policy and Charging Rules Function (PCRF), a Home Subscriber Server (HSS), a Mobility Management Entity (MME) 410, and the like. It provides a mobile communication service to the mobile terminal 100 located in the cell of 330. Each of the base stations 310, 320, and 330 forms a cell to form a wireless link with the mobile terminal 100 located in the cell, thereby relaying communication between the mobile terminal 100 and the mobile communication network 400.

The MME 410 is a node in charge of call processing of the mobile terminal 100, and forms an S1 interface with the base stations 310, 320, and 330, and also forms an S1 interface with a base station formed in a disaster response system.

The backbone network 500 is a backbone network in a communication system capable of processing integrated services such as a voice call service, a video call service, a multimedia service, an Internet service, and the like, and may integrate various mobile communication networks. The backbone network 500 routes data related to a voice call service, a video call service, a multimedia service, and an Internet service. The backbone network 500 may be connected to the mobile communication network 400 and may also be connected to the disaster response system 200. The backbone network 500 may be connected to the disaster response system 200 through an optical cable to perform communication. In addition, the backbone network 500 includes an antenna capable of communicating with the satellite 500, and may also communicate with the satellite 500.

The disaster response system 200 is installed in highlands such as mountains and high-rise buildings. The disaster response system 200 is provided with a battery, and is usually supplied with power through electricity, and when the power failure occurs, the power is supplied through the battery. The disaster response system 200 is usually designed to fully charge the battery through electricity. In another embodiment, the disaster response system 200 may be provided with a solar charger, which may be used to charge the battery. The disaster response system 200 does not operate normally, but when it is determined that a disaster occurs, an umbrella cell is formed to provide a mobile communication service. The umbrella cell is a cell formed by the disaster response system 200 during a disaster, and has a longer radius than a cell formed by a general base station 310, 320, 330.

When the disaster response system 200 is activated and operated, the disaster response system 200 performs a function as a mobile communication network including a base station, an MME, an IMS, and a PCRF function. The disaster response system 200 may be implemented in a backpack form and designed to facilitate movement.

2 is a diagram illustrating a configuration of a disaster response system according to an embodiment of the present invention.

As shown in FIG. 2, a disaster response system (0 is a sensing unit 210, a mobile communication network interface 220, a disaster detection unit 230, a disaster base station 240, and a subscriber) according to an embodiment of the present invention. DB 250, wired communication unit 260, satellite communication unit 270 and service control unit 280, and these components may be implemented in hardware or software, or through a combination of hardware and software.

In addition, the disaster response system 200 may include one or more processors and a memory, and the disaster detection unit 230 and the service control unit 280 may be stored in the memory in the form of a program executed by the processor. .

The sensing unit 210 includes an earthquake detection sensor and a power failure detection sensor, and detects an earthquake and a power failure by using the sensors. The sensing unit 210 may determine that a power failure occurs when power is not introduced through electricity.

The mobile communication network interface 220 is connected to the MME 410 of the mobile communication network 400 through a wired port and a wired cable to form an S1 interface with the MME 410. The mobile communication network interface 220 continuously determines whether a failure occurs in the S1 interface formed with the MME 410, thereby determining whether a failure occurs in the mobile communication network 400. The mobile communication network interface 220 periodically monitors whether a failure has occurred in the mobile communication network 400 by periodically sending a ping command to the MME 410 and confirming a message response from the MME 410.

The disaster detection unit 230 determines whether a disaster has occurred based on the situation detected by the sensing unit 210 and the failure of the mobile communication network checked by the mobile communication network interface 220. The disaster detection unit 230 may detect that a power failure is detected by the sensing unit 210 and at the same time, when the mobile communication network interface unit 220 detects a failure of the mobile communication network, it may determine that a disaster has occurred. Alternatively, the disaster detector 230 may detect both a power failure and an earthquake by the sensing unit 210, and may simultaneously determine that a disaster has occurred when the mobile communication network interface unit 220 detects a failure of the mobile communication network. . The disaster detector 230 activates the service controller 280 when detecting a disaster.

The disaster base station 240 includes one or more antennas, which form an umbrella cell using the antennas. The disaster base station 240 is set to a standby state without operating normally, but is activated by the service controller 280 to form an umbrella cell when a disaster occurs.

The subscriber DB 250 is a database in which identification information and a service policy of the mobile terminal 100 that can receive a mobile communication service in a disaster are recorded. That is, the subscriber DB 250 corresponds to a kind of home subscriber server used in a disaster. The subscriber DB 250 stores subscriber information, such as mobile terminal identification information of a fire department employee, mobile terminal identification information of a police officer, mobile terminal identification information of a soldier, and the like, which should be provided with services in the event of a disaster. In addition, the subscriber DB 250 stores a service policy for each mobile terminal. As a service policy, a quality of service (QoS) including bandwidth provided to the subscriber is recorded.

The wired communication unit 260 includes one or more physical wired ports, and is wired to the backbone network 500 using a wired port and a wired cable. The wired communication unit 260 may perform optical communication with the backbone network 500 through an optical cable.

The satellite communication unit 270 includes an antenna capable of communicating with the satellite 600 and communicates with the backbone network 500 through the satellite 600. The satellite communication unit 270 is initially deactivated, but when a failure occurs in the wired communication unit 260, the satellite communication unit 270 is activated to perform satellite communication.

The service controller 280 performs a function of providing a mobile communication service to the mobile terminal 100 when a disaster occurs. The service control unit 280 is normally set to be inactivated state, but is activated and operated when a disaster occurs.

When activated, the service control unit 280 activates one or more disaster base stations 240 forming an umbrella cell to form a cell first in a disaster area, and is connected to the backbone network 500 through a wired communication unit 260. After that, the data generated between the disaster base station 240 and the wired communication unit 260 is relayed. That is, the service control unit 280 transmits the downlink data received from the wired communication unit 260 to the mobile terminal 100 through the disaster base station 240 and of the mobile terminal 100 received from the disaster base station 240. The uplink data is transmitted to the backbone network 500 using the wired communication unit 260.

On the other hand, the service controller 280 performs a satellite communication with the satellite 600 through the satellite communication unit 270 when a failure occurs in the wired communication unit 260 (that is, when communication between the wired communication unit and the backbone network is interrupted). It connects to the backbone network 500 and relays data generated between the disaster base station 240 and the satellite communication unit 270. That is, the service control unit 280 transmits the downlink data received from the satellite communication unit 270 to the mobile terminal 100 through the disaster base station 240 and of the mobile terminal 100 received from the disaster base station 240. The uplink data is transmitted to the backbone network 500 using the satellite communication unit 270.

When an umbrella cell is formed, the service controller 280 may provide a mobile communication service by selecting a mobile terminal 100 registered in the subscriber DB 250 without allowing access of all mobile terminals 100. . That is, the service control unit 280 checks the information of the mobile terminal 100 that has been provided with the mobile communication service in the event of a disaster in the subscriber DB 250, and moves to the mobile terminal 100 registered in the subscriber DB 250. It can provide a communication service. In addition, the service control unit 280 checks the service policy of each mobile terminal 100 in the subscriber DB 250, and checks the quality of service (QoS) allowed according to the service policy of the mobile terminal 100, Resources (eg, bandwidth, etc.) corresponding to the checked QoS may be allocated to the mobile station 100.

3 is a flowchart illustrating a method of operating a disaster response system as a mobile communication network according to a disaster occurrence according to an embodiment of the present invention.

4 is a diagram illustrating a state in which a cell is first formed in a disaster area.

3 and 4, the sensing unit 210 monitors whether a power failure occurs using the built-in power failure sensor (S301). The disaster response system 200 is connected to electricity, and the sensing unit 210 may monitor whether the electricity is disconnected and monitor whether a power failure occurs. When a power failure occurs, the disaster response system 200 may receive power through an internal battery.

When it is determined that a power failure occurs in the sensing unit 210 (S303), the disaster detection unit 230 monitors whether or not a failure occurs in the mobile communication network 400 using the mobile communication network interface 220 (S305). ). The mobile communication network interface 220 forms an S1 interface with the MME 410, and checks whether or not a failure occurs in the mobile communication network 400 by checking whether the communication with the MME 410 is possible through the S1 interface. Can be determined.

When it is determined that a failure occurs in the mobile communication network 400 (S307), the disaster detection unit 230 determines that a disaster that cannot use a mobile communication service occurs, and activates the deactivated service control unit 280. That is, when the disaster detection unit 230 has a power failure and a failure occurs in the mobile communication network 400, the service is stopped at the existing base station (310, 320, 330) (that is, the cell formed in the existing base station is removed) It is determined that a disaster has occurred, and activates the service control unit 280. In another embodiment, the sensing unit 210 may additionally monitor the earthquake using an earthquake detection sensor, and the disaster detection unit 230 may detect both a power failure and an earthquake at the sensing unit 210, and at the same time, When the mobile communication network interface 220 detects a failure of the mobile communication network, it is determined that a disaster has occurred, and the service control unit 280 can be activated.

When activated, the service controller 280 supplies power to the disaster base station 240 and activates it, and the disaster base station 240 forms an umbrella cell using one or more antennas (S309). That is, the disaster base station 240 provided in the disaster response system 200 is maintained in an inactive state during normal operation, and is activated when a disaster occurs to form an umbrella cell.

4 is a diagram illustrating a state in which an umbrella cell is formed through the disaster base station 240 provided in the disaster response system 200. As shown in FIG. 4, the disaster base station 240 of the disaster response system 200 Compared with the existing base station (310, 320, 330), a wider radius of the cell is formed.

Next, the service control unit 280 uses the wired communication unit 260 to determine whether the wired section formed between the backbone network 500 and the wired communication unit 260 is normal (S311), that is, the service control unit. 280 determines whether communication with the backbone network 500 is normally possible using the wired communication unit 260.

If the wired section is normal, the service control unit 280 connects to the backbone network 500 through the wired communication unit 260 (S313).

On the other hand, if the wired section does not operate normally due to a disaster, the service control unit 280 activates the satellite communication unit 270 and connects to the backbone network 500 using the satellite communication section (S315). In detail, the service controller 280 connects to the backbone network 500 by communicating with the satellite 600 using the hypocrisy communication unit 270 when the wired section formed with the backbone network 500 is destroyed due to a disaster. . That is, the service control unit 280 is preferentially connected to the backbone network 500 using the wired communication unit 260, but not connected to the backbone network 500 using the wired communication unit 260. It connects to the backbone network 500 through communication with).

5 is a flowchart illustrating a method of providing a mobile communication service to a mobile terminal in a disaster response system according to an embodiment of the present invention.

Referring to FIG. 5, the disaster response system 200, which forms an umbrella cell and accesses the backbone network 500, receives an access request message from the mobile terminal 100 through the disaster base station 240 (S501). The access request message includes identification information of the mobile terminal 100.

Then, the service control unit 280 checks the identification information of the mobile terminal 100 in the access request message (S503), checks whether the identification information is stored in the subscriber DB (250), the mobile terminal ( It is determined whether 100 is a terminal capable of receiving a mobile communication service in a disaster (S505).

If the identification information of the mobile terminal 100 is stored in the subscriber DB 250, the service controller 280 forms a wireless link with the mobile terminal 100 by using the disaster base station 240, and the mobile terminal. The QoS mapped with the identification information of the terminal 100 is confirmed in the subscriber DB 250. Next, the service controller 280 allocates a resource (eg, a bandwidth) corresponding to QoS to the mobile terminal 100 (S509).

Subsequently, the service controller 280 provides a mobile communication service to the mobile terminal 100 by using the allocated resources (S511). That is, the service control unit 280 allocates resources such as bandwidth corresponding to the QoS to the mobile terminal 100 and transmits downlink data received from the wired communication unit 260 or the satellite communication unit 270 to the disaster base station. The mobile terminal 100 transmits the uplink data of the mobile terminal 100 received from the disaster base station 240 through the wired communication unit 260 or the satellite communication unit 270 to the backbone network 500. To pass.

On the other hand, the service control unit 280 rejects the wireless connection of the mobile terminal 100 if the identification information of the mobile terminal 100 is not stored in the subscriber DB 250 as a result of step S505, the mobile terminal 100 Do not provide a mobile communication service to the (S513).

As described above, the disaster response system 200 according to the embodiment of the present invention continuously monitors whether or not a disaster occurs, and if it is determined that a disaster has occurred, an umbrella cell is formed immediately, so that the mobile communication service in case of disaster Minimize time to disconnect. In addition, when a disaster occurs, the disaster response system 200 according to the present invention may operate as an independent network to provide a mobile communication service to a user regardless of whether an existing mobile communication network is operated.

While this specification contains many features, such features should not be construed as limiting the scope of the invention or the claims. Also, the features described in the individual embodiments herein can be implemented in combination in a single embodiment. Conversely, various features described in a single embodiment herein can be implemented individually in various embodiments or in combination as appropriate.

Although the operations are described in a particular order in the drawings, they should not be understood as being performed in a particular order as shown, or in a sequence of successive orders, or all described actions being performed to obtain a desired result. . Multitasking and parallel processing may be advantageous in certain circumstances. In addition, it should be understood that the division of various system components in the above-described embodiments does not require such division in all embodiments. The program components and systems described above may generally be packaged in a single software product or multiple software products.

The method of the present invention as described above may be implemented as a program and stored in a recording medium (CD-ROM, RAM, ROM, floppy disk, hard disk, magneto-optical disk, etc.) in a computer-readable form. Since this process can be easily implemented by those skilled in the art will not be described in more detail.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the technical spirit of the present invention for those skilled in the art to which the present invention pertains. It is not limited by the drawings.

100: mobile terminal 200: disaster response system
210: sensing unit 220: mobile communication network interface unit
230: disaster detection unit 240: disaster base station
250: subscriber DB 260: wired communication unit
270: satellite communication unit 280: service control unit
310, 320, 330: base station 400: mobile communication network
410: MME 500: backbone network

Claims (11)

As a method of providing a mobile communication service to a mobile terminal when a disaster occurs in a disaster response system,
Determining whether a disaster occurs;
If it is determined that a disaster has occurred, activating the deactivated base station to form an umbrella cell and accessing the backbone network; And
Relaying communication between the backbone network and the base station, and providing a mobile communication service to a mobile terminal located in the umbrella cell. The method of claim 1,
The determining step,
A method of providing a mobile communication service during a disaster characterized by determining whether a power failure occurs and determining whether a failure occurs in the mobile communication network, and when the power failure occurs and a failure occurs in the mobile communication network. . The method of claim 2,
An S1 interface is formed between the disaster response system and the MME of the mobile communication network,
The determining step,
And identifying a failure of the mobile communication network by checking whether a failure occurs in the S1 interface. The method of claim 1,
Connecting to the backbone network,
By using the wired section formed between the disaster response system and the backbone network preferentially connected to the backbone network, and if it is impossible to connect to the backbone network through the wireline section, characterized in that to connect to the backbone network via satellite communication How to provide mobile communication service in case of disaster. The method of claim 1,
Providing the mobile communication service,
Obtaining identification information of the mobile terminal; And
Checking whether the identification information of the mobile terminal is registered in a subscriber database, and if the registration information is registered, providing a mobile communication service to the mobile terminal. The method of claim 5,
Providing the mobile communication service,
Confirming, in the subscriber database, a QoS corresponding to the identification information of the mobile terminal; And
And allocating a resource corresponding to the checked QoS to the mobile terminal. In the system that normally provides a mobile communication service in the event of a disaster,
A base station for selectively forming an umbrella cell in a disaster;
A wired communication unit connected to the backbone network by wire;
A disaster detection unit that determines whether or not a disaster occurs; And
If the disaster detection unit determines that a disaster has occurred, the umbrella cell is formed using the base station, the wired communication unit is connected to the backbone network, and the communication between the backbone network and the base station is relayed, thereby the umbrella cell. And a service control unit providing a mobile communication service to a mobile terminal located within the disaster response system. The method of claim 7, wherein
Sensing unit for detecting whether the power failure; And
And a mobile communication network interface unit configured to detect whether a failure occurs in the mobile communication network.
The disaster detection unit,
Disaster response system, characterized in that when the sensing unit detects a power failure and the failure of the mobile communication network in the mobile communication network interface, the disaster occurred. The method of claim 8,
The mobile communication network interface unit,
And forming an S1 interface with the MME of the mobile communication network and detecting whether a failure occurs in the S1 interface to detect a failure of the mobile communication network. The method of claim 7, wherein
And a satellite communication unit communicating with an artificial satellite to connect to the backbone network.
The service control unit,
Disaster response system, characterized in that for connecting to the backbone network using the satellite communication unit, if it is impossible to connect to the backbone network using the wired communication unit. The method of claim 7, wherein
And a subscriber database storing subscriber information capable of receiving a mobile communication service in a disaster.
And the service control unit provides a mobile communication service to the mobile terminal when the mobile terminal located in the umbrella cell is stored in the subscriber database.

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