KR102232015B1 - Cell control apparatus and control method thereof - Google Patents

Abstract

The present invention discloses a cell control device capable of directly or indirectly controlling a function of a cell by a user (terminal) using a communication service in a cell, and a method of operating the cell control device.

Description

Cell control device and operation method of cell control device {CELL CONTROL APPARATUS AND CONTROL METHOD THEREOF}

The present invention relates to a cell control device, and more particularly, a cell control device capable of directly or indirectly controlling a function of a cell by a user (terminal) using a communication service within a cell, and a method of operating the cell control device It is about.

Recently, in LTE networks, a network environment in which base stations forming cells of different sizes are deployed in the same area, in addition to general macro base stations, various types of small base stations having smaller coverage (cells) have been deployed/ By coexisting, various types of base stations form macro cells and small cells in an overlapping area, and provide wireless communication services to users.

In such a network environment where macro cells and small cells coexist, small cells such as femtocells are installed by individuals indoors such as homes or offices. Is playing a role.

However, even though the small cell (= small base station) is a cell installed by an individual, after installation, the user (individual) controls the function of the cell except for the method of controlling the function of the cell by directly manipulating the small base station equipment. There was no way to do it.

Accordingly, in the present invention, in a method of controlling the function of a cell, a method of directly or indirectly controlling the function of a cell by a user (terminal) using a communication service in the cell is proposed.

Recently, in LTE networks, a network environment in which base stations forming cells of different sizes are deployed in the same area, in addition to general macro base stations, various types of small base stations having smaller coverage (cells) have been deployed/ By coexisting, various types of base stations form macro cells and small cells in an overlapping area, and provide wireless communication services to users.

In such a network environment where macro cells and small cells coexist, small cells such as femtocells are installed by individuals indoors such as homes or offices. Is playing a role.

However, even though the small cell (= small base station) is a cell installed by an individual, after installation, the user (individual) controls the function of the cell except for the method of controlling the function of the cell by directly manipulating the small base station equipment. There was no way to do it.

Accordingly, in the present invention, in a method of controlling the function of a cell, a method of directly or indirectly controlling the function of a cell by a user (terminal) using a communication service in the cell is proposed.

A cell control apparatus according to a first aspect of the present invention for achieving the above object includes: a list check unit for checking a white list for a specific cell; A terminal identification unit that checks whether a registered terminal registered in the white list exists in the specific cell; And a control unit for turning off a transmission function for transmitting a downlink signal to a base station of the specific cell when it is determined that the registration terminal does not exist in the specific cell.

Preferably, in the white list, the registered terminal of the white list may be changed, added, or deleted by a terminal to which management authority for the specific cell is granted.

Preferably, the terminal to which the management authority for the specific cell is granted may be one of the registration terminals registered in the white list.

Preferably, the terminal verification unit, when there is no registration terminal using a communication service in the specific cell and a registration terminal operating in an idle (Idel) state in the specific cell, the registration terminal does not exist in the specific cell. Can be confirmed.

Preferably, the control unit turns on the transmission function at a specific time so that the terminal confirmation unit can re-check whether a registered terminal registered in the white list exists in the specific cell, and the As a result of reconfirmation, if the registered terminal exists in the specific cell, the transmission function is maintained on, and if the registered terminal does not exist in the specific cell, the transmission function can be turned off.

Preferably, the specific time point may be at least one of a time point at which a preset period arrives and a time point at which an uplink signal from the terminal is received.

Preferably, when it is determined that the registered terminal does not exist in the specific cell and an unregistered terminal not registered in the whitelist exists in the specific cell, the unregistered terminal is being used in the specific cell. If the communication service is a specific communication service, the transmission function may be turned off after the communication service is terminated, and if the communication service is not the specific communication service, the transmission function may be immediately turned off.

Preferably, the specific communication service may be a communication service that requests continuity of a certain level or higher.

A method of operating a cell control apparatus according to a second aspect of the present invention for achieving the above object includes: a list checking step of checking a white list managed by a terminal to which management rights for a specific cell are granted; A terminal checking step of checking whether a registered terminal registered in the whitelist exists in the specific cell; And a control step of turning off a transmission function for transmitting a downlink signal to a base station of the specific cell when it is determined that the registered terminal does not exist in the specific cell.

Accordingly, according to the cell control apparatus and the operating method of the cell control apparatus according to the present invention, an effect of directly or indirectly controlling the function of the cell is derived by a user (terminal) using a communication service in the cell.

1 is a block diagram showing a communication system to which the present invention is applied.
2 is a block diagram showing the configuration of a cell control apparatus according to a preferred embodiment of the present invention.
3 is a control flow chart showing a method of operating a cell control device according to a preferred embodiment of the present invention.
4 is an authentication flowchart showing an authentication method of a small base station according to a preferred embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

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

As shown in FIG. 1, the base station 100 transmits and receives an uplink signal and a downlink signal with a terminal (eg, 1,2,3) existing in a cell C100 formed by the base station 100, : Communication service such as voice call service or data service can be provided to 1,2,3).

The base station 100 may be a macro base station forming a macro cell, or may be a small base station forming a small cell such as a femtocell.

In the case of the present invention, it is preferable that the base station 100 is a small base station forming a small cell. Hereinafter, it is assumed that the base station 100 is a small base station 100.

That is, in the case of the cell formed by the small base station 100, that is, the small cell (C100), it is installed by an individual indoors such as a home or office, and serves to expand the communication range within the building, which was a weakness of the communication service of the macro cell Are doing.

However, the cell formed by the small base station 100, that is, the small cell C100, is a cell installed by an individual, but after installation, the user (individual) directly manipulates the small base station 100 equipment to function of the cell. There was no method of controlling the function of the cell other than the method of controlling the cell.

Accordingly, in the present invention, in the method of controlling the function of the cell, a method of directly or indirectly controlling the function of the cell is proposed by a user (terminal) using a communication service within the cell, that is, the small cell C100. I want to.

Hereinafter, a configuration of a cell control apparatus according to a preferred embodiment of the present invention will be described in detail with reference to FIG. 2.

In this case, the cell control apparatus of the present invention may be a separate device that manages/controls one small cell or a plurality of small cells through interworking with one small base station or a plurality of small base stations.

Alternatively, the cell control apparatus of the present invention may be each small base station.

Hereinafter, the cell control device of the present invention will be described as being a small base station, and for convenience of explanation, the cell control device will be described as being a small base station 100 and will be described using the same reference numeral 100.

The cell control apparatus 100 according to the present invention includes a list check unit 110 that checks a white list for a specific cell, and a terminal check that checks whether a registered terminal registered in the white list exists in the specific cell. A unit 120 and a control unit 140 for turning off a transmission function for transmitting a downlink signal to a base station of the specific cell when it is determined that the registration terminal does not exist in the specific cell.

As described above, since the cell control apparatus 100 is described as the small base station 100, a specific cell will be described as the small cell C100.

In addition, the cell control device 100, that is, the small base station 100, has a terminal (eg, 1,2,3) existing in the small cell C100 formed by itself, as described above, and an uplink signal and a downlink signal. By transmitting/receiving, it is possible to provide a communication service, such as a voice call service or a data service, to a terminal (eg, 1,2,3).

Accordingly, the cell control device 100, that is, the small base station 100, is a communication module 140 for transmitting and receiving an uplink signal and a downlink signal with a terminal (eg, 1,2,3), as shown in FIG. ).

The list check unit 110 checks a white list for a specific cell, that is, a small cell C100.

At this time, the list check unit 110 is in a normal mode in which both the receiving function (Rx) for receiving the uplink signal of the communication module 140 and the transmitting function (Tx) for transmitting the downlink signal are turned on. , It is preferable to check the white list for the small cell C100 at each preset registration terminal confirmation cycle.

Here, the white list for the small cell C100 may be information stored in the cell control device 100, that is, the small base station 100, and a separate management system for managing a plurality of small cells including the small cell C100 It may be information stored in (FMS:Femto Management System).

If the white list is an embodiment in which the white list is stored in the management system (FMS), the list check unit 110 may check the white list for the small cell C100 through interworking with the management system (FMS). .

Hereinafter, for convenience of description, it is assumed that an embodiment in which a white list is stored in the small base station 100 is assumed.

On the other hand, the subject that manages the white list for the small cell C100 is a terminal (hereinafter, referred to as a management authority terminal) that has been granted management authority for a specific cell, that is, the small cell C100.

That is, in the white list for the small cell C100, the registration terminal of the white list may be changed, added, or deleted by the management authority terminal.

More specifically, it is preferable that an application for whitelist management (hereinafter, a management app) is pre-installed on the management authority terminal.

Thus, by running the management app on the management authorization terminal, the management authorization terminal can be connected to the small base station 100 through an app server (not shown), and based on this connection, the whitelisted registration terminal through the management app. By changing, adding, or deleting, the white list for the small cell C100 stored in the small base station 100 may be managed.

Here, it is preferable that the terminal to which management authority for the small cell C100 is granted, that is, the management authority terminal, is one of the registered terminals registered in the white list.

For example, if the terminal 1, 2, and 3 are registered in the white list for the small cell C100, each of the terminals 1, 2, and 3 can perform its role as a management authority terminal. .

The terminal verification unit 120 checks whether the registered terminal registered in the white list checked by the list verification unit 110 exists in a specific cell, that is, the small cell C100.

Hereinafter, for convenience of explanation, it is assumed that terminals 1, 2, and 3 are registered terminals in the white list for the small cell C100.

In this case, the terminal identification unit 120 checks whether even one of the registration terminals 1, 2, and 3 exists in the small cell C100.

More specifically, when there is no registration terminal using a communication service in a specific cell, that is, a small cell C100, and a registration terminal operating in an idle state in the small cell C100, the terminal identification unit 120 , It can be confirmed that the registration terminal does not exist in the small cell C100.

For example, first, the terminal identification unit 120 may check whether there is a registration terminal using a communication service among the whitelisted registration terminals 1, 2, and 3 in the small cell C100.

Accordingly, if there is a registration terminal using the communication service, the terminal identification unit 120 confirms that the registration terminal exists in the small cell C100.

On the other hand, if there is no registration terminal using the communication service, the terminal verification unit 120 checks whether there is a registration terminal operating in an idle (Idel) state among the registration terminals 1, 2, and 3 of the white list in the small cell C100. You can check whether or not.

For example, the terminal identification unit 120 transmits a paging message to confirm the terminal in an idle state, and checks whether a response message corresponding to the paging message is returned from the registered terminals 1, 2, and 3 of the white list, In the small cell C100, it is possible to check whether there is a registration terminal operating in an idle (Idel) state among the registration terminals 1, 2, and 3 of the white list.

Accordingly, if there is a registration terminal to which a response message is returned among the registration terminals 1, 2, and 3, the terminal verification unit 120 confirms that the registration terminal exists in the small cell C100, and the response message is returned. If there is no terminal, it is confirmed that the registered terminal does not exist in the small cell C100.

As a result, the terminal verification unit 120, when there is no registration terminal using the communication service in the small cell (C100) and there is no registration terminal operating in the idle (Idel) state in the small cell (C100), the registration terminal is It is confirmed that it does not exist in the small cell C100.

When the terminal identification unit 120 determines that the registered terminal does not exist in a specific cell, that is, the small cell C100, the control unit 140 transmits a downlink signal to the base station of the small cell C100, that is, the small base station 100. The transmission function that transmits is turned off.

In other words, when the terminal identification unit 120 determines that the registered terminal does not exist in a specific cell, that is, the small cell C100, the control unit 140 communicates with a transmission function (Tx) and a reception function (Rx). The transmission function (Tx) of the module 140 is turned off.

When the transmission function Tx of the communication module 140 is turned off as described above, a procedure for turning the transmission function Tx on again is required.

To this end, the control unit 140 turns off the transmission function (Tx) of the communication module 140 as described above, and then turns on the transmission function (Tx) at a specific time, so that the terminal identification unit 120 It is possible to re-check whether the registered terminal registered in the white list exists in the small cell C100.

In this case, the specific time point is preferably at least one of a time point at which a preset period arrives and a time point at which an uplink signal from the terminal is received.

In other words, the control unit 140 turns off the transmission function (Tx) of the communication module 140 as described above, and then a preset period (eg, the registration terminal confirmation period described above, or a separate period) arrives, or When an uplink signal from the terminal is received through the reception function Rx of the communication module 140 in the On state, the transmission function Tx may be turned on at that time.

In this way, when the transmission function (Tx) of the communication module 140 is turned on (On), the terminal is checked in a normal mode in which both the reception function (Rx) and the transmission function (Tx) of the communication module 140 are turned on (On). As described in detail above, the unit 120 may re-check whether or not the registered terminal registered in the white list for the small cell C100 exists in the small cell C100.

As a result of the reconfirmation of the terminal identification unit 120, the control unit 140 maintains the on state of the transmission function Tx when the registered terminal is present in the small cell C100.

On the other hand, the control unit 140, as a result of the reconfirmation of the terminal identification unit 120, if the registered terminal does not exist in the small cell (C100), turns off the transmission function (Tx) again, as described above, a specific time point When this happens, the transmission function (Tx) will be turned on and the subsequent operation will be repeated.

As described above, the present invention is a method of on/off control of the transmission function (Tx) of the small base station 100 according to whether or not a registered terminal registered in the white list for the small cell C100 exists. The effect of indirectly controlling the function of the small cell (C100), in particular the transmission function (Tx), is obtained by the registration terminal (user) using the communication service within C100), thereby consuming unnecessary power of the small base station (100). Can lead to savings.

On the other hand, in the present invention, regardless of whether a terminal that has been granted management authority for the small cell C100, that is, a management authority terminal, has a registered terminal registered in the whitelist for the small cell C100, the small base station ( It is also possible to control the on/off of the transmission function (Tx) of 100).

That is, by running the management app on the management authorization terminal, the management authorization terminal can be connected to the small base station 100 through an app server (not shown), and is transmitted to the small base station 100 through the management app based on this connection. By providing the function Tx on or off command, the transmission function Tx of the small base station 100 can be controlled on/off.

As described above, the present invention obtains the effect of directly controlling the function of the small cell C100, particularly the transmission function (Tx), by a management authority terminal (user) who has been granted management authority for the small cell C100. , This can lead to a result of reducing unnecessary power consumption of the small base station 100.

In addition, when the transmission function (Tx) of the small cell C100 is directly or indirectly turned off by a management authority terminal (user) who has been granted management authority for the small cell C100, unnecessary power consumption is reduced as well as hacking ( Hacking) can lead to a result that can even reduce the risk.

On the other hand, the cell control apparatus 100 of the present invention, that is, the small base station 100, can provide a communication service only to a registered terminal registered in the white list for the small cell C100.

In this case, only the registration terminals registered in the white list for the small cell C100, for example, the above-described registration terminals 1, 2, and 3, can normally use the communication service in the small cell C100.

On the other hand, the cell control apparatus 100 of the present invention, that is, the small base station 100, provides communication service for not only registered terminals registered in the white list for small cells C100, but also unregistered terminals not registered in the white list. can do.

In this case, when the transmission function (Tx) of the small base station 100 forming the small cell C100 is turned on/off according to whether or not there is a registered terminal registered in the white list as described above, the small cell ( All unregistered terminals using communication services within C100) will suddenly stop using communication services.

At this time, if an unregistered terminal is using a communication service where continuity is very important, such as a voice call service or a video call service, the sudden interruption causes great inconvenience.

In view of this, hereinafter, in the present invention, the transmission function (Tx) of the small base station 100 forming the small cell C100 is turned on/off according to whether or not there is a registered terminal registered in the white list. In order to indirectly control the function of the small cell C100, especially the transmission function Tx, by a registered terminal (user) using a communication service within the small cell C100, an embodiment considering even an unregistered terminal will be described.

First, an embodiment considering even an unregistered terminal will be described.

It is assumed that the small cell C100 is a cell that supports the CSG (Closed Subscriber Group) function. In this case, the registered terminal registered in the white list for the small cell C100 is a terminal that allows access to the small cell C100 according to the CSG function, and in other words, may be referred to as a subscription terminal.

The CSG function can be divided into three operating modes: Open mode, Hybrid mode, and Close mode. Open mode is a mode that allows access to any terminal without being restricted to the registration terminal (= subscriber terminal), the Close mode is a mode that only the registered terminal (= subscriber terminal) can access, and the hybrid mode is the capacity of the cell. It operates like open mode until the maximum is reached, and when the capacity of the cell reaches the maximum, the connection of the registered terminal (= subscriber terminal) is prioritized by disconnecting from the unregistered terminal (= unregistered terminal) among the previously connected terminals. It is a mode that does it.

That is, the embodiment of the present invention considering the unregistered terminal using the communication service in the above-described small cell (C100), when the small cell (C100) is a CSG function support cell, when operating in the open mode, or when in the hybrid mode. It will be possible.

Specifically, the controller 130 assumes that the terminal identification unit 120 does not exist in the small cell C100 and an unregistered terminal not registered in the white list exists in the small cell C100. If confirmed, the unregistered terminal checks whether the communication service being used in the small cell C100 is a specific communication service.

That is, the terminal identification unit 120 has no registration terminal using the communication service in the small cell C100, and no registration terminal operating in the idle (Idel) state in the small cell C100, but the small cell C100 ), it is confirmed that the registered terminal does not exist in the small cell C100 and an unregistered terminal not registered in the white list exists in the small cell C100.

When the terminal identification unit 120 confirms this, the control unit 130 checks whether the communication service being used in the small cell C100 by the unregistered terminal is a specific communication service.

Here, the specific communication service is a communication service that requests continuity of a certain level or higher. For example, a specific communication service may include a voice call service, a video call service, a real-time game service, and a streaming service.

There may be various ways to check whether it is a specific communication service, for example, as follows.

The control unit 130 may check a QoS Class Indicator (QCI) assigned to the call session in the process of connecting a call session so that a communication service can be used for an unregistered terminal.

At this time, for example, QCI #1 for a voice call service, QCI #2 for a video call service, QCI #3 for a real-time game service, and QCI #4 for a streaming service may be assigned.

Accordingly, if one of QCI #1, #2, #3, and #4 is given to the call session connected for the communication service for the unregistered terminal using the communication service in the small cell C100, the controller 130 , It can be confirmed that the communication service being used is a specific communication service.

When it is determined that the communication service being used is a specific communication service for the unregistered terminal using the communication service in the small cell C100, the control unit 130 waits until the communication service in use of the unregistered terminal is terminated and communicates. After the service is terminated, the transmission function (Tx) of the small base station 100 is turned off. If there are multiple unregistered terminals using a specific communication service, the transmission function (Tx) will be turned off after the communication service for all of the multiple unregistered terminals is terminated.

The control unit 130 immediately turns off the transmission function (Tx) of the small base station 100 when it is confirmed that the communication service being used is not a specific communication service for an unregistered terminal using the communication service in the small cell C100. Let it.

As described above, in the cell control apparatus according to the present invention as a small base station forming a small cell, the function of the small cell, especially the transmission function (Tx), is directly or indirectly by a registration terminal (user) using a communication service in the small cell. ) Can be controlled, which can lead to a result of reducing unnecessary power consumption of small base stations.

Hereinafter, a method of operating the cell control apparatus according to the present invention will be described with reference to FIG. 3.

Hereinafter, the cell control device of the present invention will be described as being a small base station, and for convenience of explanation, the cell control device will be described as being a small base station 100 and will be described using the same reference numeral 100.

In the operating method of the cell control apparatus 100, that is, the small base station 100 according to the present invention, a white list for the small cell C100 formed by itself can be managed (S100).

Here, the subject that manages the white list for the small cell C100 is a terminal (hereinafter, referred to as a management authority terminal) to which management authority for the small cell C100 is granted.

That is, in the white list for the small cell C100, the registration terminal of the white list may be changed, added, or deleted by the management authority terminal.

More specifically, it is preferable that an application for whitelist management (hereinafter, a management app) is pre-installed on the management authority terminal.

Thus, by running the management app on the management authorization terminal, the management authorization terminal can be connected to the small base station 100 through an app server (not shown), and based on this connection, the whitelisted registration terminal through the management app. By changing, adding, or deleting, the white list for the small cell C100 stored in the small base station 100 may be managed.

Here, it is preferable that the terminal to which management authority for the small cell C100 is granted, that is, the management authority terminal, is one of the registered terminals registered in the white list.

For example, if the terminal 1, 2, and 3 are registered in the white list for the small cell C100, each of the terminals 1, 2, and 3 can perform its role as a management authority terminal. .

In the method of operating the small base station 100 according to the present invention, a white list for the small cell C100 managed as described above is checked (S110).

For example, the operation method of the small base station 100 according to the present invention is a preset registration in a normal mode in which both the reception function (Rx) and the transmission function (Tx) of the communication module 140 are turned on. It is desirable to check the white list for the small cell C100 every terminal verification cycle.

In the method of operating the small base station 100 according to the present invention, it is checked whether the registered terminal registered in the white list checked in step S110 exists in the small cell C100 (S120).

Hereinafter, for convenience of explanation, it is assumed that terminals 1, 2, and 3 are registered terminals in the white list for the small cell C100.

In this case, the operation method of the small base station 100 according to the present invention is to check whether even one of the registration terminals 1, 2, and 3 exists in the small cell C100 (S120).

More specifically, the operation method of the small base station 100 according to the present invention includes a registration terminal using a communication service in the small cell C100 and a registration terminal operating in an idle (Idel) state in the small cell C100. If there is no, it can be confirmed that the registration terminal does not exist in the small cell C100 (S120 No).

For example, first, in the operation method of the small base station 100 according to the present invention, it is possible to check whether there is a registered terminal using a communication service among the registered terminals 1, 2, and 3 of the white list in the small cell C100. .

Accordingly, if there is a registration terminal using a communication service, the operation method of the small base station 100 according to the present invention confirms that the registration terminal exists in the small cell C100 (S120 Yes).

On the other hand, if there is no registration terminal using the communication service, the operation method of the small base station 100 according to the present invention is in an idle (Idel) state among the registered terminals 1, 2, and 3 of the white list in the small cell C100. You can check whether there is a registered terminal in operation.

For example, in the operation method of the small base station 100 according to the present invention, a paging message is transmitted to confirm the terminal in an idle state, and a response message corresponding to the paging message is returned from the registered terminals 1, 2, and 3 of the white list. By checking whether or not, it is possible to check whether there is a registration terminal operating in an idle (Idel) state among the registration terminals 1, 2, and 3 of the white list in the small cell C100.

Accordingly, in the method of operating the small base station 100 according to the present invention, among the registration terminals 1, 2, and 3, if there is a registration terminal to which a response message is returned, it is confirmed that the registration terminal exists in the small cell C100 ( S120 Yes), if there is no registration terminal to which the response message is returned, it is confirmed that the registration terminal does not exist in the small cell C100 (S120 No).

As a result, in the method of operating the small base station 100 according to the present invention, there is no registration terminal using the communication service in the small cell C100 and no registration terminal operating in the idle (Idel) state in the small cell C100. If not, it is confirmed that the registration terminal does not exist in the small cell C100.

In the operation method of the small base station 100 according to the present invention, when it is confirmed that the registered terminal does not exist in the small cell C100 (S120 No), it checks whether an unregistered terminal exists in the small cell C100 ( S130).

In the method of operating the small base station 100 according to the present invention, when it is confirmed that an unregistered terminal does not exist in the small cell C100 (S130 No), the transmission function Tx of the communication module 140 is turned off (S150). ).

On the other hand, the operation method of the small base station 100 according to the present invention, when it is confirmed that the unregistered terminal exists in the small cell (C100) (S130 Yes), the communication service that the unregistered terminal is using in the small cell (C100) is It is checked whether it is a specific communication service (S140).

Here, the specific communication service is a communication service that requests continuity of a certain level or higher. For example, a specific communication service may include a voice call service, a video call service, a real-time game service, and a streaming service.

A method of checking whether a specific communication service may be used may vary. For example, the operation method of the small base station 100 according to the present invention includes, for an unregistered terminal using a communication service in the small cell C100, If one of QCI #1, #2, #3, and #4 is assigned to the call session connected for communication service, it can be confirmed that the communication service being used is a specific communication service (S140 Yes).

In the method of operating the small base station 100 according to the present invention, for an unregistered terminal using a communication service in the small cell C100, when it is confirmed that the communication service being used is a specific communication service (S140 Yes), the non-registered terminal It waits until the end of the communication service being used (S145 No), and after the communication service is terminated (S145 Yes), the transmission function (Tx) of the small base station 100 is turned off (S150).

The operation method of the small base station 100 according to the present invention is, for an unregistered terminal that is using the communication service in the small cell C100, if it is confirmed that the communication service being used is not a specific communication service (S140 No), The transmission function (Tx) of the base station 100 is turned off (S150).

The operation method of the small base station 100 according to the present invention is to turn off the transmission function (Tx) of the communication module 140 as described above (S150), and then turn on the transmission function (Tx) at a specific time. , It is checked again whether the registered terminal registered in the white list exists in the small cell C100 (A160).

In this case, the specific time point is preferably at least one of a time point at which a preset period arrives and a time point at which an uplink signal from the terminal is received.

In other words, in the method of operating the small base station 100 according to the present invention, after turning off the transmission function (Tx) of the communication module 140 as described above, a preset period (e.g., the registration terminal confirmation period described above, or A separate period) arrives or when an uplink signal from the terminal is received through the reception function (Rx) of the communication module 140 in an on state, the transmission function (Tx) is turned on at that time. I can make it.

In this way, when the transmission function (Tx) of the communication module 140 is turned on (On), the present invention in the normal mode in which both the reception function (Rx) and the transmission function (Tx) of the communication module 140 are turned on (On). In the method of operating the small base station 100 according to the above, as in step S120 described above, it is possible to re-check whether the registered terminal registered in the white list for the small cell C100 exists in the small cell C100 (S170). ).

The operation method of the small base station 100 according to the present invention maintains the on state of the transmission function (Tx) when the registration terminal is present in the small cell C100 (S170 Yes) as a result of reconfirmation in step S170. (S180).

On the other hand, in the operation method of the small base station 100 according to the present invention, if the registration terminal does not exist in the small cell C100 as a result of reconfirmation in step S170 (S170 No), the transmission function Tx is turned off again. As described above (S150), the transmission function (Tx) is turned on at a specific point in time as described above, and the subsequent operation will be repeated (S160 to S170).

As described above, the operation method of the cell control apparatus according to the present invention as a small base station forming a small cell is directly or indirectly by a registration terminal (user) using a communication service within the small cell, in particular the function of the small cell, in particular transmission. The effect of being able to control the function (Tx) is obtained, which can lead to a result of reducing unnecessary power consumption of the small base station.

Meanwhile, for the cell control apparatus 100, that is, the small base station 100 of the present invention set above, authentication is essential at the initial stage of installation.

At this time, in the existing small base station authentication method, when the power is first turned on after installation of the small base station, the small base station transmits its serial number to the management system (FMS) through the via node, and the management system (FMS) This is a method of authenticating the small base station by determining whether the transmitted serial number matches the registered serial number of the legitimate small base station.

That is, the conventional small base station authentication method is an authentication method that simply relies only on the serial number of the small base station, so there is a problem in that security is weak.

Accordingly, the cell control device 100 of the present invention, that is, the small base station 100, can realize an authentication method that improves the security vulnerability of the conventional small base station authentication method described above, and more specifically, the small base station 100 At the same time, USIM is adopted and an improved authentication method based on USIM is to be realized.

Hereinafter, with reference to FIG. 4, the small base station 100 of the present invention adopts a USIM, and an authentication flow according to the USIM-based authentication method proposed in the present invention will be described in detail.

First, when the small base station 100 of the present invention is initially powered on after installation, it may access the authentication server 300 (AAA) through a pass-through node, such as a gateway 200 (SeGW: Secure GateWay). In this case, the process of accessing the small base station 100 to the authentication server 300 is a connection process for connecting a session between the existing small base station 100 and the authentication server 300, so a detailed description will be omitted.

Thereafter, when the small base station 100 adopting the USIM is connected, the authentication server 300 transmits an EAP (Extensible Authentication Protocol)-request message to the small base station 100 (S10), and an EAP-request message Is transmitted to the small base station 100 through the gateway 200 (S20).

As the small base station 100 receives the EAP-request message, it receives a RADIUS-based EAP authentication request.

The USIM-based small base station 100 transmits an EAP-response message including NAI information to the gateway 200 in response to the EAP-request message (S30).

At this time, NAI (Network Access Identifier) information is a connection ID (Access ID) managed by the authentication server 300, the manufacturer ID, the serial number of the small base station 100, the ID of the USIM (e.g., IMSI) , Operational network identification factors (eg, @femto.sktelecom.com), etc. may be included.

The gateway 200 transmits an EAP-response message from the small base station 100 to the authentication server 300 to request NAI information-based authentication for the small base station 100 (S40).

Thus, the authentication server 300, based on the NAI information identified from the authentication request to the small base station 100, stored in the authentication server 300 or interworking with a separate UCMS (not shown) and AuC (not shown) An authentication procedure (Access_challenge, EAP-request/AKA-challenge) to determine whether to compare/match with RAND (Random Number) function, authentication key, IMSI, etc. obtained through it is performed (S50).

As a result of performing the authentication procedure as in step S50, the authentication server 300 inserts a failure cause (e.g. AKA_NOTI_CODE_NOT_EXIST_IDENTITY parameter, AKA_NOTI_CODE_GENERAL_FAILURE parameter) into the EAP-Failure message indicating authentication failure when authentication fails. Through 200 (S60), it can be transmitted to the small base station 100 (S70).

In this process, the gateway 200 manages the authentication failure information including the information of the small base station 100 (eg, manufacturer ID, the serial number of the small base station 100) and the failure cause of the authentication failure. It can be transmitted to (40, FMS) (S80).

Of course, as a result of performing the authentication procedure as in step S50, the authentication server 300 will transmit an EAP-Success message indicating authentication success to the small base station 100 through the gateway 200 when authentication is successful. In the gateway 200, the authentication success information including information of the small base station 100 (eg, manufacturer ID, serial number of the small base station 100) that has been successfully authenticated will be transmitted to the management system 40 (FMS).

As described above, according to the USIM-based small base station (small cell) authentication method proposed in the present invention, EAP message transmission and reception based on the USIM and EAP-AKA based on this, that is, security is enhanced. By enabling mutual authentication, it is possible to solve the security vulnerability of the existing small base station authentication method, and in addition, it is possible to determine which small base station (small cell) in the management system (40, FMS) failed due to what problem. You can even get an effect that makes you aware.

A method of operating a cell control device according to an embodiment of the present invention may be implemented in the form of program commands that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, etc. alone or in combination. The program instructions recorded in the medium may be specially designed and configured for the present invention, or may be known and usable to those skilled in computer software. Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks, and magnetic tapes, optical media such as CD-ROMs and DVDs, and magnetic media such as floptical disks. -A hardware device specially configured to store and execute program instructions such as magneto-optical media, and ROM, RAM, flash memory, and the like. Examples of program instructions include not only machine language codes such as those produced by a compiler, but also high-level language codes that can be executed by a computer using an interpreter or the like. The hardware device described above may be configured to operate as one or more software modules to perform the operation of the present invention, and vice versa.

Until now, the present invention has been described in detail with reference to preferred embodiments, but the present invention is not limited to the above-described embodiments, and the technical field to which the present invention belongs without departing from the gist of the present invention claimed in the following claims. Anyone of ordinary skill in the art will say that the technical idea of the present invention extends to the range in which various modifications or modifications are possible.

According to the cell control device and the operating method of the cell control device according to the present invention, a limitation of the existing technology is limited in that the function of the cell can be directly or indirectly controlled by a user (terminal) using a communication service in the cell. This invention has industrial applicability because it is not only the use of the related technology, but also the possibility of marketing or sales of the applied device as well as the degree that it can be implemented clearly in reality.

100: cell control device
110: list confirmation unit 120: terminal confirmation unit
130: control unit 140: communication module

Claims (8)

A list check unit for checking a white list for a specific cell;
A terminal identification unit that checks whether a registered terminal registered in the white list exists in the specific cell; And
When it is confirmed that the registered terminal does not exist in the specific cell, the transmission function for transmitting the downlink signal to the base station of the specific cell is turned off, and the transmission function is turned off according to the operation mode. At the point of time, if an unregistered terminal not registered in the whitelist is using a specific communication service in the specific cell, the transmission function is turned off after the communication service is terminated, and a communication service other than the specific communication service is being used. in immediate cell control device comprises a control unit is turned off to the transmission function. The method of claim 1,
The white list is:
The cell control apparatus, characterized in that the registered terminals of the whitelist are changed, added, or deleted by a terminal to which management authority for the specific cell is granted. The method of claim 1,
The terminal verification unit,
Cell control, characterized in that when there is no registration terminal using a communication service in the specific cell and a registration terminal operating in an idle (Idel) state in the specific cell, it is confirmed that the registration terminal does not exist in the specific cell. Device. The method of claim 1,
The control unit,
By turning on the transmission function at a specific point in time, the terminal check unit can re-check whether the registered terminal registered in the white list exists in the specific cell,
Cell, characterized in that, as a result of the reconfirmation, if the registration terminal is in the specific cell, the transmission function is maintained in an on state, and when the registration terminal is not in the specific cell, the transmission function is turned off. Control device. The method of claim 4,
The specific point in time,
Cell control apparatus, characterized in that at least one of a time point when a preset period arrives and a time point at which an uplink signal from the terminal is received. delete The method of claim 1,
The specific communication service is a cell control device, characterized in that the communication service that requests to ensure continuity of a certain level or higher. A list checking step of checking a white list managed by a terminal to which management authority for a specific cell is granted;
A terminal checking step of checking whether a registered terminal registered in the whitelist exists in the specific cell; And
When it is confirmed that the registered terminal does not exist in the specific cell, the transmission function for transmitting the downlink signal to the base station of the specific cell is turned off, and the transmission function is turned off according to the operation mode. At the point of time, if an unregistered terminal not registered in the whitelist is using a specific communication service in the specific cell, the transmission function is turned off after the communication service is terminated, and a communication service other than the specific communication service is being used. And a control step of immediately turning off the transmission function.

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