KR101809241B1 - Method And Apparatus for Managing Small Cell Base Station Mobility - Google Patents

Abstract

Disclosed are a method and a device for managing mobility of a small cell base station. According to an embodiment of the present invention, the present invention relates to a method and a device, which automatically detect mobility of a small cell base station through interworking with a self-organization network device, and prevent in advance call quality degradation and equipment managing difficulty caused when the small cell base station is moved to a site different from an existing installation location. The device for managing a small cell comprises: an information collection part; a selection part; and a mobility determination part.

Description

TECHNICAL FIELD [0001] The present invention relates to a method and apparatus for managing mobility of a small cell base station,

The present embodiment relates to a method and apparatus for mobility management of a small cell base station. More particularly, the present invention relates to a method and an apparatus for solving a quality deterioration phenomenon and a management difficulty due to the occurrence of signal mixture with neighboring macro cell base stations by automatically sensing arbitrary mobility of a femtocell base station, which is a kind of small cell base station .

The contents described below merely provide background information related to the present embodiment and do not constitute the prior art.

Femtocell is a compound term of Femto which means 1 / 1,000 trillion cells and a cell which is used as a minimum unit of a service area of one base station in the mobile communication industry. A service that covers a limited area such as a house, office, etc., which is much smaller than the coverage area.

A femtocell base station is an indoor base station used in a dense area such as a closed building such as a home, an office, an apartment, or a restaurant, a cafe, or a public institution. The femtocell base station accesses a mobile communication core network through a broadband network It plays a role. The femtocell base station can improve the quality of the call and the service by reducing the distance between the transmitter and the receiver compared to the macrocell base station, and can effectively service (offload) the traffic intensively generated in the indoor. In addition, it provides a high-quality communication environment in the shade area, so that the coverage can be expanded.

Meanwhile, when the installation position of the femtocell base station is changed, the service quality of the terminal receiving the service in the coverage of the femtocell may be degraded due to interference with the surrounding macrocell. Furthermore, there is a problem that it takes a considerable time to improve the service quality degradation phenomenon due to difficulties in management of the device operation, in which the user moves the installation location of the femtocell base station arbitrarily without prior notification to the service provider.

Accordingly, there is a need for a technique for automatically detecting whether or not a femtocell base station is moving, thereby improving a call quality deterioration and a difficulty in managing a device operation, which may be caused when a user arbitrarily changes the installation location of the femtocell base station.

The present embodiment automatically detects whether or not a small cell base station is moved through interworking with a self-organizing network device, thereby reducing call quality degradation and equipment operation management that may occur when a small cell base station is moved to a place different from an existing installation location There is a main purpose in providing a method and apparatus for preventing difficulties in advance.

The present invention provides a method for managing mobility of a cell base station by a small cell management apparatus, comprising: receiving radio environment information collected from at least one small cell base station to a neighboring macro cell base station of the small cell base station; Selecting a representative macro-cell BS among the neighboring macro-cell BSs based on the radio environment information, and transmitting cell identification information for a selected representative macro-cell BS to a self-organizing network (SON); And a step of receiving location information of the representative macro cell base station calculated corresponding to the cell identification information from the self organizing network device and determining whether the small cell base station is moved based on the location information of the representative macro cell base station The mobility management method of the cell base station includes the steps of:

According to another aspect of the present invention, there is provided an information processing apparatus comprising: an information collecting unit for receiving radio environment information collected from at least one small cell base station to a neighboring macro cell base station of the small cell base station; A selector for selecting a representative macro cell base station among the neighboring macro cell base stations based on the radio environment information and transmitting the cell identification information for the selected representative macro cell base station to the self organizing network device; And a controller for receiving location information of the representative macro cell base station calculated corresponding to the cell identification information from the self-organizing network device, and for determining whether to move the small cell base station based on the location information of the representative macro cell base station And a determination unit for determining whether or not the small cell is managed by the small cell management apparatus.

As described above, according to the present embodiment, it is possible to automatically detect whether a small cell base station is moved through interlocking with a self-organizing network device, It is possible to prevent the deterioration of the communication quality and the difficulty in the management of the apparatus operation in advance.

1 is a view for explaining a service quality degradation phenomenon caused by movement of a small cell base station according to the present embodiment.
2 is a block diagram schematically showing a mobility management system of a cell base station according to the present embodiment.
3 is a block diagram schematically showing a small-sized cell management apparatus according to the present embodiment.
4 is a flowchart illustrating a mobility management method of a cell base station according to the present embodiment.
5 is a flowchart for explaining a cell base station mobility management method of the small cell management apparatus according to the present embodiment.

Hereinafter, the present embodiment will be described in detail with reference to the accompanying drawings.

1 is a view for explaining a service quality degradation phenomenon caused by movement of a small cell base station according to the present embodiment. Meanwhile, FIG. 1 illustrates a signal interference with a neighboring macro cell base station when a small cell base station is installed in a shade area of a conventional installation location, for example, a macro cell. In addition, FIG. 1 illustrates signal interference with neighboring macro cell base stations when the position of a small cell base station is shifted.

Referring to FIG. 1, it can be seen that signal interference with neighboring macro cells increases as the installation location of the small cell base station is changed. In this case, due to the interference signal of the macro cell, the signal to interference plus noise ratio (SINR) of the terminal being served within the small cell coverage may be reduced and the service quality may be deteriorated.

In order to solve such a problem, the present embodiment automatically detects whether or not the small cell base station is moved through interlocking with the self organizing network device, thereby causing the small cell base station to be moved to a place different from the existing installation position This paper proposes a method to prevent the degradation of communication quality and the difficulty of management of equipment operation in advance.

Hereinafter, in the present embodiment, a small cell is a femtocell, but it is not limited thereto.

In the present embodiment, it is described that the small-sized cell base station whose location movement has been confirmed is an arbitrary mobile small-cell base station whose location is arbitrarily shifted to the service manager without prior notification to the location manager. However, the present invention is not limited thereto.

2 is a block diagram schematically showing a mobility management system of a cell base station according to the present embodiment.

The mobility management system of the cell base station according to the present embodiment includes a small cell base station 100, a small cell management device 110, and a self organizing network device 120.

The small cell base station 100 is a device installed in a building to set a small cell coverage and to provide a communication service in a predetermined frequency band. That is, the small cell base station 100 can be located in a house (building) set as a small cell coverage with the outer wall of the building as a boundary, and can request location registration and transmit the communication service to the small cell base station 100 Lt; / RTI > For reference, the small cell base station 100 may be a femtocell base station in this embodiment. The femtocell has a power of several tens of mW, has a coverage of 10 to 20 m, is formed inside a building such as a home or an indoor space, and communicates with a small number of users (1 to 4) with a transmission capacity of several Mbps per subscriber Service.

The small cell base station 100 sets a small cell coverage for a small number of subscribers in a home (building), and communicates with a communication provider and a separate content provider through a small cell AP, (CP) to a terminal that has entered a small cell coverage.

The small cell base station 100 periodically measures the radio wave environment received by the small cell base station 100 with respect to other neighboring cells. The small cell base station 100 according to the present embodiment measures a propagation environment for a signal received from a neighboring macro cell base station. In this case, the propagation environment may be RSRQ (Reference Signal Received Quality), RSRP (Received Signal Strength Indicator), and RSSI (Received Signal Strength Indicator).

The small cell base station 100 generates radio environment information for each macro cell base station based on the propagation environment information measured for the neighboring macro cell base station and transmits the generated radio environment information to the small cell management device 110.

The small cell management device 110 refers to a device that manages the mobility of the small cell base station 100. The small cell management device 110 according to the present embodiment automatically detects whether or not the small cell base station 100 is moving through interlocking with the small cell base station 100 and the self organizing network device 120. [

The small cell management apparatus 110 selects a representative macro cell base station among neighboring macro cell base stations of the small cell base station 00 based on the radio environment information received from the small cell base station 100. [

The small cell management device 110 transmits the cell identification information for the selected representative macro cell base station to the self organizing network device 120.

The small cell management apparatus 110 receives the location information of the representative macro cell base station calculated corresponding to the cell identification information from the self organizing network device 120, and based on the location information of the received representative macro cell base station, (100) is moved.

The small cell management device 110 compares the location information of the representative macro cell base station received from the self organizing network device 120 with the previous location information of the previously received representative macro cell base station. In this case, the previous location information of the representative macro cell base station may be location information received from the self-organizing network device 120 in the process of determining whether the small cell base station 100 is moving before the present time. The previous location information of the representative macro cell base station may be location information collected through interlocking with the self organizing network device 120 in the initial operation of the small cell management device 110 according to the embodiment.

A detailed description of how the small cell management device 110 determines whether or not the small cell base station 100 is moving will be described later with reference to FIGS. 3 to 5. FIG.

The small cell management apparatus 110 according to the present embodiment may be configured such that when the small cell base station 100 is determined to have moved, the position of the small cell base station 100 is arbitrarily shifted to the service manager And classified as an arbitrary mobile small cell base station.

The small cell management device 110 provides relevant information for the small cell base station 110 classified as a certain mobile small cell base station in a form recognizable by the service manager.

The self-organizing network device 120 refers to any server device that performs the installation / optimization of an outdoor / indoor base station and provides basic parameters or data necessary for each base station.

The self organizing network device 120 has the IP addresses of all the base stations. The self-organizing network device 120 performs self-configuration and self-optimization in the femtocell or E-UTRAN system. In the self-configuration process, IP address setting, OAM detection, authentication, gateway setting, software download, neighbor list setting, parameter setting for service area and capacity are performed in the base stations. In the self-optimization process, optimization of the neighbors list and optimization of the service area and capacity are performed. The self-organizing network device 120 can manage a list of IP addresses of the base stations and can update such a list in real time when the base station status is changed, such as when a new base station is added or removed.

The self-organizing network device 120 according to the present embodiment has cell identification information for each macro cell base station. The self-organizing network device 120 stores the location information of the macro-cell base station, for example, matching the midship information with the cell identification information of the macro-cell base station. The self-organizing network device 120 is interfaced with the base station construction system and is provided with cell identification information and location information for the macro cell base station from the base station construction system. Meanwhile, the base station establishment system receives the cell identification information and the location information of the macro cell base station from the manager when the macro cell base station is initially constructed, and provides the input information to the self organizing network device 120.

When the specific cell identification information is received from the small cell management device 110, the self organizing network device 120 calculates location information of the specific macro cell base station stored in the cell matching device. The self-organizing network device 120 transmits the calculated location information of the specific macro cell base station to the small cell management device 110 so that the small cell management device 110 can transmit the location information of the small cell So as to determine whether the base station 100 is moving.

The self organizing network device 120 provides the updated information to the small cell management device 110 when the information about the previously stored macro cell base station is updated so that the reliability of the service performed from the small cell management device 110 is assured .

3 is a block diagram schematically showing a small-sized cell management apparatus according to the present embodiment.

The small cell management apparatus 110 according to the present embodiment includes a transmitting and receiving unit 300, an information collecting unit 310, a selecting unit 320, a storing unit 330, a mobility determining unit 340, and an information providing unit 350 ).

The transceiver unit 300 communicates with the self-organizing network device 120 to transmit and receive necessary information for determining whether the small cell base station 100 is moved.

The transceiver unit 300 according to the present embodiment receives the radio environment information collected from the small cell base station 100 to the neighboring macro cell base station. The transceiver unit 300 receives the cell identification information of the representative macro cell base station calculated using the selector 320, and transmits the cell identification information to the self organizing network device 120. The transceiver unit 300 receives the location information of the representative macro cell base station calculated corresponding to the cell identification information from the self organizing network device 120 and provides the received location information to the mobility determination unit 340.

The information collecting unit 310 collects radio environment information collected from the at least one small cell base station 100 to the neighboring macro cell base stations of the small cell base station 100. At this time, the radio environment information may include radio wave environment information such as RSRQ, RSRP, and RSSI.

The selector 320 selects a representative macro cell base station among neighboring macro cell base stations based on the radio environment information collected using the information collecting unit 310. [ At this time, the representative macro cell base station is used as a reference base station for determining whether or not the small cell base station 100 is moving.

The selector 320 selects the macrocell base station having the highest received power level, that is, the RSRP value, as the representative macrocell base station based on the radio environment information of the surrounding macrocell base station, but is not limited thereto. For example, the selector 320 can select one of the neighbor macrocell base stations as a representative macrocell base station according to various selection factors based on the radio environment information of the neighboring macrocell base stations.

The selector 320 primarily determines whether the small cell base station 100 is moving based on the cell identification information of the representative macro cell base station. The selector 320 compares the cell identification information of the representative macro cell base station extracted at the current time with the cell identification information of the previous representative macro cell base station extracted at the previous time, It primarily determines whether or not to move. When the small cell base station 100 moves, the propagation environment measured for the neighboring macro cell base station varies with the small cell base station 100 as a reference. Due to this point, the selector 320 determines whether the small cell base station 100 is moving by checking whether the representative macro cell base station selected through the radio environment information of the neighboring macro cell base station varies.

If the cell identification information of the representative macro cell base station extracted at the current time and the cell identification information of the previous representative macro cell base station extracted at the previous time are equal to each other, the selector 320 determines that the small cell base station 100 has not moved do.

If the cell identifier information of the representative macrocell base station extracted at the current time and the cell identification information of the previous representative macrocell base station extracted at the previous time are different from each other, the selector 320 may move the small cell base station 100 . Meanwhile, when the representative macrocell base station is selected based on the received power, the representative macrocell base station may be selected as the representative macrocell base station according to the antenna status of each macrocell base station, It may be selected as a representative macro cell base station. In this case, fluctuation may occur in the selected representative macro cell base station irrespective of whether the small cell base station 100 is moved or not. In consideration of this point, when the cell identification information for the representative macro cell base station extracted at the current time and the cell identification information of the previous representative macro cell base station extracted at the previous time are different from each other, The identification information is transmitted to the self organizing network device 120 so that a secondary procedure for determining whether the small cell base station 100 is moving can be performed.

The storage unit 330 stores necessary information necessary for determining whether the small cell base station 100 is moving.

The storage unit 330 stores information on neighboring macro cell base stations for each small cell base station 100. At this time, the information on the neighboring macro cell base station may be the cell identification information on the neighboring macro cell base station and the location information on the neighboring macro cell base station. The location information of the neighboring macro cell base station may be location information collected from the self organizing network device 120 in the process of determining whether the small cell base station 100 is moving before the present time. The location information of the neighboring macro cell base station may be location information collected through interlocking with the self organizing network device 120 in the initial operation of the small cell management device 110.

The storage unit 330 updates the information of the neighboring macro cell base station based on the received update information when receiving the update information related to the neighboring macro cell base station.

The storage unit 330 stores information about selected macrocell base stations in the process of determining whether the small cell base station 100 is moving.

The mobility determination unit 340 receives the location information of the representative macro cell base station calculated corresponding to the cell identification information from the self-organizing network device 120, and based on the received location information of the representative macro cell base station, 100) is moved.

The mobility determination unit 340 compares the location information of the representative macro cell base station with the previous location information of the corresponding representative macro cell base station previously received, and determines whether the small cell base station 100 is moving according to the comparison result. Meanwhile, the mobility determination unit 340 receives previous location information of the corresponding representative macro cell base station previously received from the storage unit 330.

The mobility determining unit 340 according to the present embodiment determines the position of the representative macrocell base station based on the position of the representative macrocell base station calculated based on the positional information of the representative macrocell base station and the previous position information of the representative macrocell base station It is determined that the small cell base station 100 has been moved.

When the small cell base station 100 is finally determined to have been moved, the information providing unit 350 provides information on whether the small cell base station 100 is moved by the service manager in a recognizable form. For example, the information providing unit 350 may generate alarm information indicating that a small cell base station in which a mobile unit has moved exists and provide the generated alarm information to the service manager. The information providing unit 350 may further provide relevant information about the small cell base station where the movement occurred. In the case of this embodiment, the service manager can utilize the information provided from the information providing unit 350 as the information for grasping the arbitrary mobile small cell base station whose location has been arbitrarily moved without notifying the service manager in advance.

4 is a flowchart illustrating a mobility management method of a cell base station according to the present embodiment.

The small cell base station 100 periodically measures the radio wave environment received by the small cell base station 100 for the neighboring macro cell base station (S402), and generates radio environment information for each macro cell base station based on the measured radio wave environment information To the small cell management device 110 (S404). The propagation environment may be Reference Signal Received Quality (RSRQ), Reference Signal Received Power (RSRP), and Received Signal Strength Indicator (RSSI).

The small cell management apparatus 110 selects a representative macro cell base station among neighboring macro cell base stations of the small cell base station 00 based on the radio environment information received from the small cell base station 100 at step S406. In step S406, the small-cell management device 110 selects a neighboring macro-cell BS having the highest received-power value based on the radio environment information of the neighboring macro-cell BS as the representative macro-cell BS.

The small cell management device 110 transmits the cell identification information of the representative macro cell base station to the self organizing network device 120 (S408). In step S408, if the cell identification information of the representative macrocell base station extracted at the current time is different from the cell identification information of the previous representative macrocell base station extracted at the previous time, And transmits the cell identification information to the self organizing network device 120.

When receiving the cell identification information of the representative macro cell base station from the small cell management device 110, the self organizing network device 120 calculates the location information of the representative macro cell base station matched with the corresponding cell identification information (S410) The location information of the calculated representative macro cell base station is transmitted to the small cell management device 110 (S412).

The small cell management apparatus 110 determines whether the small cell base station 100 is moving based on the location information of the representative macro cell base station received in step S412 (S414). In step S414, the small cell management device 110 compares the location information of the representative macro cell base station with the previous location information of the corresponding representative macro cell base station previously received, and determines whether the small cell base station 100 is moved .

When it is determined in step S414 that the small cell base station 100 has moved, the small cell management device 110 transmits alarm information on whether or not the small cell base station 100 is moving and related information of the small cell base station 100 To the service manager (S416).

5 is a flowchart for explaining a cell base station mobility management method of the small cell management apparatus according to the present embodiment.

The small cell management apparatus 110 receives the collected radio environment information from at least one small cell base station 100 to the neighboring macro cell base stations of the small cell base station 100 (S502).

In step S504, the small-cell management apparatus 110 selects a representative macro-cell BS among neighboring macro-cell BSs based on the radio environment information received in step S502, and extracts cell identification information of the selected representative macro-cell BS.

The small cell management apparatus 110 compares the cell identification information of the representative macro cell base station extracted in step S504 with the cell identification information of the previous representative macro cell base station extracted at the previous time point to confirm whether the cell identification information is the same (S506) .

If the cell identification information is different according to the result of the check in step S506, the small cell management device 110 transmits the cell identification information for the representative macro cell base station to the self organizing network device 120 (S508).

The small cell management apparatus 110 receives the location information of the representative macro cell base station calculated corresponding to the cell identification information from the self organizing network apparatus 120 and stores the location information of the received representative macro cell base station The previous position information of the representative macro cell base station is compared (S510).

The small cell management apparatus 110 calculates a difference between the positions of the representative macro cell base stations calculated based on the location information of the representative macro cell base stations and the positions of the representative macro cell base stations calculated based on the previous location information of the representative macro cell base stations It is checked whether the preset reference value is exceeded (S512).

The small cell management device 110 determines that the small cell base station 100 has moved when the difference in distance between the respective locations exceeds a predetermined reference value, And provides the related information of the cell base station 100 in a form recognizable by the service manager (S514).

In FIGS. 4 and 5, it is described that each process is sequentially executed, but it is not limited thereto. In other words, it is applicable that the process described in FIG. 4 and FIG. 5 is changed or executed in parallel or one or more processes are executed in parallel, so that FIGS. 4 and 5 are not limited to the time series order.

4 and 5 may be embodied as computer-readable codes on a computer-readable recording medium. A computer-readable recording medium includes all kinds of recording apparatuses in which data that can be read by a computer system is stored. That is, a computer-readable recording medium includes a magnetic storage medium (e.g., ROM, floppy disk, hard disk, etc.), an optical reading medium (e.g., CD ROM, And the like). The computer-readable recording medium may also be distributed over a networked computer system so that computer readable code can be stored and executed in a distributed manner.

The foregoing description is merely illustrative of the technical idea of the present embodiment, and various modifications and changes may be made to those skilled in the art without departing from the essential characteristics of the embodiments. Therefore, the present embodiments are to be construed as illustrative rather than restrictive, and the scope of the technical idea of the present embodiment is not limited by these embodiments. The scope of protection of the present embodiment should be construed according to the following claims, and all technical ideas within the scope of equivalents thereof should be construed as being included in the scope of the present invention.

100: Small cell base station 110: Small cell management device
120: Self-organizing network device 300: Transmitting /
310: Information collecting unit 320:
330: storage unit 340:
350: Information provision

Claims (8)

A method for managing mobility of a cell base station by a small cell management apparatus,
Receiving radio environment information collected from at least one small cell base station to neighboring macro cell base stations of the small cell base station;
If the cell identification information of the selected macrocell base station is different from the cell identification information of the representative macrocell base station that has been previously extracted, the representative macrocell base station is selected based on the radio environment information, Transmitting cell identification information for a cell base station to a self-organizing network (SON); And
And receiving positional information of the representative macrocell base station calculated corresponding to the cell identification information from the self-organizing network device, and receiving positional information of the representative macrocell base station and previous positional information of the representative macrocell base station previously received A process of determining whether or not the small cell base station is moved based on the comparison result
The mobility management method comprising the steps of: delete The method according to claim 1,
The determining process may include:
A distance difference between a position of the representative macro cell base station calculated based on the position information of the representative macro cell base station and a position of the representative macro cell base station calculated based on the previous position information of the representative macro cell base station exceeds a preset reference value The mobile base station determines that the small cell base station has been moved. The method according to claim 1,
Wherein the transmitting step comprises:
Wherein the neighboring macrocell base station having the highest reference signal received power (RSRP) based on the radio environment information is selected by the representative macrocell base station. delete An information collecting unit for collecting radio environment information collected from at least one small cell base station to a neighboring macro cell base station of the small cell base station;
If the cell identification information of the selected macrocell base station is different from the cell identification information of the representative macrocell base station that has been previously extracted, the representative macrocell base station is selected based on the radio environment information, A selector for transmitting cell identification information for a cell base station to a self organizing network device; And
And receiving positional information of the representative macrocell base station calculated corresponding to the cell identification information from the self-organizing network device, and receiving positional information of the representative macrocell base station and previous positional information of the representative macrocell base station previously received Based on a comparison result obtained by the mobile station,
The small-sized cell management apparatus comprising: delete The method according to claim 6,
The mobile device according to claim 1,
A distance difference between a position of the representative macro cell base station calculated based on the position information of the representative macro cell base station and a position of the representative macro cell base station calculated based on the previous position information of the representative macro cell base station exceeds a preset reference value The small cell management apparatus determines that the small cell base station has been moved.

Images