KR102110152B1 - Method for managing base transceiver station, and apparatus applied to the same - Google Patents

Abstract

The present invention discloses a base station management method and a server applied thereto. That is, in the environment where a plurality of small base stations are installed in the coverage of the macro base station, when the traffic is concentrated, the small base stations installed in the area where the traffic is concentrated among the plurality of small base stations are accurately selected and operated to smoothly concentrate the traffic. Can be dispersed.

Description

Base station management method and apparatus applied thereto {METHOD FOR MANAGING BASE TRANSCEIVER STATION, AND APPARATUS APPLIED TO THE SAME}

The present invention relates to a method for accurately selecting and operating a small base station located in an area where traffic is concentrated in an environment in which a plurality of small base stations are installed in the coverage of the macro base station.

The small cell technology is a technology that provides communication services in a coverage smaller than the coverage of the macro base station of the macro cell, and has been spotlighted as a major technology in the mobile communication market.

In general, a plurality of small base stations may be installed in the coverage of one macro cell, and as many small cells as the number of small base stations are formed, a terminal located in the small cell can use a mobile communication service through the small base station.

Meanwhile, in the above-described environment in which a plurality of small base stations are installed in the coverage of the macro cell, a case may occur in which traffic is concentrated in the macro cell area.

In this case, the small base station located in the area where the traffic is concentrated must be operated to distribute the traffic concentrated in the macro cell into the small cell, and for this, a method for accurately selecting the small base station installed in the concentrated area of the traffic is required.

The present invention has been created in view of the above circumstances, and an object of the present invention is to reach the traffic of the plurality of small base stations when traffic is concentrated in an environment in which a plurality of small base stations are installed in the coverage of the macro base station. By accurately selecting and operating small base stations installed in a concentrated area, the concentrated traffic is efficiently distributed.

The base station management apparatus according to the first aspect of the present invention for achieving the above object, within a coverage of a macro base station in which a plurality of small base stations are installed, a confirmation unit for confirming the location of the terminal generating the traffic; And a control unit for operating a specific small base station having the location of the identified terminal as a coverage among the plurality of small base stations to process traffic generated by the terminal at the specific small base station except for the macro base station and the remaining small base stations. It is characterized by including.

More specifically, the identification unit is characterized in that it checks the location of the terminal based on transmission time information for determining an uplink data transmission time at the terminal according to the distance between the macro base station and the terminal.

More specifically, the base station management apparatus further includes a storage unit for storing the transmission time information according to a distance from the macro base station for each of the plurality of small base stations, and the transmission time information of the specific small base station is the It is characterized in that the difference from the terminal's transmission time information is less than or equal to a preset value.

More specifically, the transmission time information is characterized in that it is information for receiving the uplink data from two or more terminals located in the macro base station at the same time at the macro base station.

A method of operating a base station management apparatus according to a second aspect of the present invention for achieving the above object includes a confirmation step of checking a location of a terminal generating traffic within a coverage of a macro base station in which a plurality of small base stations are installed; And a control step of operating a specific small base station having the location of the identified terminal as a coverage among the plurality of small base stations, and processing the traffic generated by the terminal at the specific base station except for the macro base station and the remaining small base stations. It characterized in that it comprises.

More specifically, the checking step is characterized in that the location of the terminal is determined based on transmission time information for determining an uplink data transmission time at the terminal according to the distance between the macro base station and the terminal.

More specifically, the method further includes a storage unit for storing the transmission time information according to a distance from the macro base station for each of the plurality of small base stations, wherein the transmission time information of the specific small base station is the Characterized in that the difference from the transmission time information is less than or equal to a preset value.

More specifically, the transmission time information is characterized in that it is information for receiving the uplink data from two or more terminals located in the macro base station at the same time at the macro base station.

Thus, according to the base station management method of the present invention and the server applied to it, in a environment in which a plurality of small base stations are installed in the coverage of a macro base station, when traffic is concentrated, the position of the terminal generating the traffic among the plurality of small base stations By selecting and operating a specific small base station with its own small cell coverage, the concentrated traffic can be efficiently distributed.

1 is a schematic configuration diagram of a base station management system according to an embodiment of the present invention.
2 is a view for explaining an operation example of the base station management system according to an embodiment of the present invention.
3 is a view for explaining transmission time information according to an embodiment of the present invention.
4 is a schematic configuration diagram of a base station management apparatus according to an embodiment of the present invention.
5 is a flowchart illustrating an operation flow in a base station management system according to an embodiment of the present invention.
6 is a flow chart for explaining the operation flow in the base station management apparatus according to an embodiment of the present invention.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

1 is a view showing a base station management system according to an embodiment of the present invention.

1, the base station management system according to an embodiment of the present invention, a macro base station 100 for processing traffic for a terminal located in the macro cell, installed in the macro cell overlaps the mall macro cell It has a configuration including a plurality of small base stations 200 forming each small cell, and a base station management device 300 for selectively operating the plurality of small base stations 200 installed in the macro cell.

Here, the small base station 200 may be installed in an unlimited number depending on the size of the macro cell and the wireless network environment, but in one embodiment of the present invention, for convenience of description, the small base station 200 and A are small. The environment in which two small base stations 200 corresponding to the base stations 200 and B are installed will be described.

The macro base station 100 refers to a base station device that provides a mobile communication service to a terminal located in the macro cell by forming a macro cell that typically covers a radius within a few kilometers.

Each of the plurality of small base stations 200 provides a mobile communication service to a terminal located in the small cell by forming a small cell having a radius of about several tens of m in the area overlapping the macro cell area. Refers to the device.

Here, the small cell may be, for example, a femto cell, a pico cell, a home node B, and a home EnB, but is not limited thereto.

The base station management device 300 refers to a device for selectively operating a plurality of small base stations 300 installed in a macro cell.

The base station management device 300 refers to a device supporting a Self Organizing Network (SON) function, which is a technique for controlling interference between cells in the aforementioned environment in which a plurality of small cells are superimposed in a macro cell.

For example, the base station management apparatus 300 may be a gateway, or a core network apparatus capable of communicating with a macro base station (10O), a small base station (200), and a terminal through a gateway, and is not limited thereto. Any device that supports is applicable.

Meanwhile, according to an embodiment of the present invention, in the above-described environment in which a plurality of small base stations 200 are installed in the coverage of the macro cell, when traffic is concentrated in the macro cell area, the small base station is used for the purpose of dispersing the concentrated traffic. The 200 is operated.

Here, it is assumed that in the case of a plurality of small base stations 200 installed in the coverage of the macro cell, all of them are kept in an inactive state (OFF state).

As such, when traffic is concentrated within the coverage of the macro cell, it is most important to check whether the area where the traffic is concentrated corresponds to the small cell coverage.

If, although the area where the traffic is concentrated is not the coverage of the small cell, when operating the small base station (200, B) as in Figure 2 (a), traffic distribution through the small base station (200, B) Not only can the effect not be expected, it can only cause interference between the macro cell and the small cells of the small base stations 200 and b.

In addition, in this case, as shown in FIG. 2 (b), there is a situation in which the operation of the small base stations 200 and B must be stopped and switched to the inactive state (OFF state).

As described above, in order to distribute the concentrated traffic in the above-described environment in which a plurality of small base stations 200 are installed in the coverage of the macro cell, as shown in FIG. 3 (c), the small base stations 200 and B installed in the concentrated area of traffic are used. It can be seen that it must be accurately selected and operated.

Thus, in one embodiment of the present invention, within the coverage of the macro base station 100, when the traffic is concentrated, the small base station 200 installed in the area where the traffic is concentrated among the plurality of small base station 200 installed It is intended to propose a method to accurately select and operate, and will be described in detail below.

In addition, in one embodiment of the present invention, selecting a small base station 200 installed in an area where traffic is concentrated within the coverage of a macro cell can be achieved by confirming the location of a terminal generating traffic in the macro cell. The location of the terminal can be confirmed, for example, through a TA (Timing Advance), which is used for communication with the terminal in the macro base station 100, hereinafter referred to as 'transmission time information'.

The transmission time information is included in a MAC header as scheduling information in a MAC layer related to communication in Long Term Evolution (LTE).

For example, as illustrated in FIG. 3, it may be assumed that the terminal A located close to the base station and the terminal B located far from the base station simultaneously communicate.

Here, in the case of downlink (downlink, transmitted from the base station to the terminal), the base station transmits data to the terminal A and the terminal B at the same time, and each terminal separately decodes (decoding) the data it has received, which causes a different problem. I never do that.

However, considering the uplink (uplink, the terminals are transmitted to the base station), the base station must simultaneously receive data transmitted from the terminal A and the terminal B in order to decode the data of the terminal A and the terminal B at a time.

That is, the terminal A near the base station should transmit data later than the terminal B, and the terminal B far away from the base station must transmit data earlier than the terminal A so that the data transmitted by the two terminals can reach the base station at the same time.

To this end, the base station transmits the transmission time information to the terminal A and the terminal B in order to determine the transmission time of the uplink data.

For example, by transmitting TA = 40 to UE A and TA = 50 to UE B, it is possible to inform UE B to transmit data more quickly than UE A.

Here, the value of the transmission time information TA is an offset value defined to determine the transmission time of uplink data in the terminal, and is not a value directly indicating the distance between the terminal and the base station.

The value of the transmission time information may be converted into a unit of 'km' or 'msec', which is a unit capable of directly measuring a distance between a terminal and a base station according to a defined formula.

For reference, the transmission time information may have a value from TA = 0 to TA = 63, and as a constant value, it may indirectly mean that the distance between the terminal and the base station increases.

As described above, in the case of transmission time information according to an embodiment of the present invention, it is confirmed that it can be used as information to check the location of the terminal according to the distance between the base station and the terminal. A method for accurately selecting and operating the small base station 200 installed in the will be described in detail.

First, the base station management apparatus 300 performs a function of storing transmission time information for each of the plurality of small base stations 200.

More specifically, the base station management apparatus 200 stores transmission time information according to the distance from the macro base station 200 for each of the plurality of small base stations 200 installed in the coverage of the macro cell.

Here, the transmission time information stored for each of the plurality of small base stations 200 is a macro base station 100 for each small cell when the plurality of small base stations 200 are installed (dentified) in the coverage of the initial macro cell. ).

In addition, the base station management apparatus 300 performs a function of checking the location of the terminal generating traffic within the coverage of the macro cell.

More specifically, when traffic is concentrated within the coverage of the macro cell, the base station management apparatus 300 checks the location of the terminal generating traffic from the macro base station 100.

At this time, the base station management apparatus 300 confirms the transmission time by confirming the transmission time information for determining the uplink data transmission time at the terminal according to the distance between the macro base station 100 and the terminal from the macro base station 100, The information is identified as the location of the terminal generating traffic within macro cell coverage.

In addition, the base station management apparatus 300 performs a function of operating a small base station having the location of the identified terminal as its own small cell coverage.

More specifically, when the location of the terminal generating the traffic is confirmed, the base station management apparatus 300 determines the location of the terminal generating the traffic among the plurality of small base stations 200 installed in the coverage of the macro cell in its own small cell coverage. The selected small base stations 200 and B are selected and operated.

At this time, the base station management apparatus 300 confirms the transmission time information stored for each of the plurality of small base stations 200 installed in the coverage of the macro cell, and the location of the terminal generating traffic among the plurality of small base stations 200 It is possible to select and operate specific small base stations 200 and B, which are identified as having a difference from the identified transmission time information as below.

In the end, the base station management apparatus 300 selects and operates a specific small base station 200, B, which has its own coverage as an area in which traffic is concentrated among a plurality of small base stations, thereby enabling the terminal in the specific small base station 200, B to operate. By processing the generated traffic, it is possible to distribute the concentrated traffic.

Hereinafter, the configuration of the base station management apparatus 300 according to an embodiment of the present invention will be described in more detail with reference to FIG. 4.

That is, the base station management apparatus 300 according to an embodiment of the present invention, a specific small size of the confirmation unit 320, and a plurality of small base station 200 to determine the location of the terminal generating the traffic within the macro cell coverage It has a configuration including a control unit 330 for operating the base station (200, B).

In addition to the above-described configuration, the base station management apparatus 300 according to an embodiment of the present invention further includes a storage unit 310 for storing transmission time information for each of a plurality of small base stations 200 installed in macro cell coverage. It may have a configuration to include.

Here, the whole, or part of, the configuration of the base station management apparatus 300 including the storage unit 310, the confirmation unit 320, and the control unit 320 is implemented as a hardware or software module, or a combination thereof. Can be.

The storage 310 performs a function of storing transmission time information for each of the plurality of small base stations 200.

More specifically, the storage unit 310 stores transmission time information according to a distance from the macro base station 200 for each of the plurality of small base stations 200 installed in the coverage of the macro cell.

In this case, when each of the plurality of small base stations 200 is installed within the coverage of the initial macro cell (dentifying), the transmission time information transmitted from the macro base station 100 is checked for each small cell to check the respective transmission time information. It may be made in a manner of storing as transmission time information of the small base station 200 forming each small cell.

Here, the transmission time information stored for each of the plurality of small base stations 200 has an error of a preset value, which takes into account the distance difference from the macro base station 200, which varies depending on the position within the small cell coverage. It is for sake.

For example, when the macro base station 100 stores TA = 50 as transmission time information in a specific small base station 200, B, the stored transmission time information is within the small cell coverage of the small base station 200, B. In order to take into account the difference in distance from the macro base station 200 depending on the location, an error of a preset value (-5 to +5) may be reflected, and thus, the transmission time information of the small base stations 200 and B is TA = It can be stored as 45-55.

In addition, the verification unit 320 performs a function of checking the location of the terminal generating traffic within the coverage of the macro cell.

More specifically, when traffic is concentrated within the coverage of the macro cell, the verification unit 320 checks the location of the terminal generating the traffic from the macro base station 100.

At this time, the confirming unit 320 confirms the transmission time information by confirming the transmission time information for determining the uplink data transmission time at the terminal according to the distance between the macro base station 100 and the terminal from the macro base station 100 Is identified as the location of a terminal generating traffic within macro cell coverage.

In addition, the control unit 330 performs a function of operating a small base station having the location of the identified terminal as its own small cell coverage.

More specifically, when the location of the terminal generating the traffic is confirmed, the control unit 330 specifies the location of the terminal generating the traffic among the plurality of small base stations 200 installed in the coverage of the macro cell as its own small cell coverage. The small base stations 200 and B are selected and operated.

At this time, the control unit 330 checks the transmission time information stored for each of the plurality of small base stations 200 installed in the coverage of the macro cell, as a location of the terminal generating traffic among the plurality of small base stations 200 The specific small base stations 200 and B that store the transmission time information whose difference from the confirmed transmission time information is equal to or less than a preset value are selected and operated.

For example, the transmission time information of the terminal generating the traffic is TA = 50, the preset value is TA = -5 to +5 for the difference between the transmission time information, and stored for the specific small base station 200, B When the transmission time information is confirmed to be TA = 46, the difference from the transmission time information identified as the position of the terminal is -4, which falls within the preset value, so that the specific small base station 200, B owns the position of the terminal itself. It can be selected as a small base station with small cell coverage.

As described above, selecting a specific small base station 200 in which transmission time information having a difference from transmission time information identified as a location of a terminal generating traffic is less than or equal to a preset value is stored, as described above, within the small cell coverage. This is to take into account the difference in distance from the macro base station 200, which may vary depending on the location of.

On the other hand, it may be considered a case where it is confirmed that the transmission time information of the difference between the transmission time information identified as the location of the terminal generating the traffic among the plurality of small base stations 200 is equal to or less than a preset value.

As described above, when the difference from the transmission time information identified as the location of the terminal is less than or equal to a preset value, the transmission time information is 2 or more, which may mean that the small base station 200 having the same distance from the macro base station 100 is 2 or more, In this case, in addition to the transmission time information stored for the terminal, a specific small base station 200 having the location of the terminal as its own small cell coverage may be selected using additional location information of the terminal.

Here, as the location information of the additional terminal, for example, various location related information such as location registration information for the macro base station 100 or previously accessed small base station 200 information may correspond to this, and the control unit 330 By checking the corresponding information from the macro base station 100, it will be possible to select a specific small base station 200 having the location of the terminal as its own small cell coverage.

As a result, the control unit 330 selects and operates specific small base stations 200 and B having their coverage as an area in which traffic is concentrated among a plurality of small base stations, thereby generating a terminal in the specific small base stations 200 and B. It is possible to distribute the traffic concentrated in the region by processing the traffic.

As described above, according to the base station management system according to an embodiment of the present invention, when traffic is concentrated in an environment in which a plurality of small base stations 200 are installed in the coverage of the macro base station 100, the terminal and the small base station Exactly select specific small base stations 200 and B whose location of the terminal generating the traffic is their small cell coverage among the plurality of small base stations 200 based on whether or not the transmission time information stored with respect to the information matches. By operating it, the concentrated traffic can be efficiently distributed.

Hereinafter, a method for checking call processing quality according to an embodiment of the present invention will be described with reference to FIGS. 5 and 6. Here, for convenience of description, the above-described configurations shown in FIGS. 1 and 4 will be described with reference to the corresponding reference numbers.

First, an operation flow in a base station management system according to an embodiment of the present invention will be described with reference to FIG. 5.

First, the base station management apparatus 200 stores transmission time information according to a distance from the macro base station 200 for each of the plurality of small base stations 200 installed in the coverage of the macro cell (S110).

At this time, the transmission time information stored for each of the plurality of small base stations 200, when installing (dentifying) each of the plurality of small base stations 200 in the coverage of the initial macro cell, the macro base station 100 for each small cell ).

Then, when the traffic is concentrated within the coverage of the macro cell, the base station management apparatus 300 checks the location of the terminal generating the traffic from the macro base station 100 (S120-S150).

At this time, the base station management apparatus 300 confirms the transmission time by confirming the transmission time information for determining the uplink data transmission time at the terminal according to the distance between the macro base station 100 and the terminal from the macro base station 100, The information is identified as the location of the terminal generating traffic within macro cell coverage.

Furthermore, when the location of the terminal generating the traffic is confirmed, the base station management apparatus 300 sets the location of the terminal generating the traffic among the plurality of small base stations 200 installed in the coverage of the macro cell as its own small cell coverage. The specific small base stations 200 and B are selected (S160).

At this time, the base station management apparatus 300 confirms the transmission time information stored for each of the plurality of small base stations 200 installed in the coverage of the macro cell, and the location of the terminal generating traffic among the plurality of small base stations 200 As selected, a specific small base station 200 that is identified as having a difference from the identified transmission time information is less than or equal to a preset value is selected.

Subsequently, the base station management apparatus 300 operates the specific small base stations 200 and B having their coverage as an area in which traffic is concentrated among a plurality of small base stations, thereby generating a terminal in the specific small base stations 200 and B. The traffic to be distributed is distributed by processing the traffic (S170).

Hereinafter, the operation of the base station management apparatus 300 according to an embodiment of the present invention will be described in detail with reference to FIG. 6.

First, the storage unit 310 stores transmission time information according to a distance from the macro base station 200 for each of the plurality of small base stations 200 installed in the coverage of the macro cell (S210).

Here, the transmission time information stored for each of the plurality of small base stations 200 is stored to have an error of a preset value, which takes into account the distance difference from the macro base station 200 that varies depending on the position within the small cell coverage. It is to do.

Then, when it is confirmed that the traffic is concentrated within the coverage of the macro cell, the verification unit 320 checks the location of the terminal generating the traffic from the macro base station 100 (S220-S240).

At this time, the confirming unit 320 confirms the transmission time information by confirming the transmission time information for determining the uplink data transmission time at the terminal according to the distance between the macro base station 100 and the terminal from the macro base station 100 Is identified as the location of a terminal generating traffic within macro cell coverage.

Then, when the location of the terminal generating the traffic is confirmed, the control unit 330 determines the location of the terminal generating the traffic among the plurality of small base stations 200 installed in the coverage of the macro cell as its own small cell coverage. The base stations 200 and B are selected (S250-S270).

At this time, the control unit 330 checks the transmission time information stored for each of the plurality of small base stations 200 installed in the coverage of the macro cell, as a location of the terminal generating traffic among the plurality of small base stations 200 It is possible to select specific small base stations 200 and B in which transmission time information having a difference from the identified transmission time information is less than or equal to a preset value is stored.

As described above, the control unit 330 stores a specific small base station 200 in which transmission time information having a difference from transmission time information identified as a location of a terminal generating traffic is equal to or less than a preset value (eg, -5 to +5). By sorting, the distance difference from the macro base station 200, which may vary depending on the position in the small cell coverage, is considered.

Subsequently, the control unit 330 operates the specific small base stations 200 and B selected as the coverage area of the plurality of small base stations as their own coverage, so that the terminal in the specific small base stations 200 and B By processing the generated traffic, traffic concentrated in the corresponding region is distributed (S280).

As described above, according to the base station management method according to an embodiment of the present invention, when traffic is concentrated in an environment in which a plurality of small base stations 200 are installed in the coverage of the macro base station 100, the terminal and the small base station Exactly select specific small base stations 200 and B whose location of the terminal generating the traffic is their small cell coverage among the plurality of small base stations 200 based on whether or not the transmission time information stored with respect to the information matches. By operating it, the concentrated traffic can be efficiently distributed.

Meanwhile, steps of the method or algorithm described in connection with the embodiments presented herein may be directly implemented in hardware or may be recorded in a computer readable medium by being implemented in the form of program instructions that can be performed through various computer means. The computer-readable medium may include program instructions, data files, data structures, or the like alone or in combination. The program instructions recorded on the medium may be specially designed and configured for the present invention, or may be known and available 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, DVDs, and magnetic media such as floptical disks. -Hardware devices specifically 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 high-level language codes that can be executed by a computer using an interpreter, etc., as well as machine language codes produced by a compiler. 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.

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 pertains without departing from the gist of the present invention claimed in the claims below. Anyone with ordinary knowledge in the technical idea of the present invention extends to the extent that various modifications or modifications are possible.

According to the base station management method of the present invention and a server applied thereto, in the environment in which a plurality of small base stations are installed in the coverage of a macro base station, the small base station located in the area where the traffic is concentrated is accurately selected and operated. As the limit is exceeded, it is not only the use of the related technology, but also the possibility of commercially available or sales of the applied device, as well as the degree to which it can be carried out in a realistic manner, making it an industrially applicable invention.

100: macro base station
200: small base station
300: base station management device
310: storage
320: check unit 330: control unit

Claims (8)

Within a coverage of a macro base station in which a plurality of small base stations are installed, a confirmation unit for confirming the location of the terminal generating the traffic; And
And a control unit for operating a specific small base station having coverage of the identified terminal among the plurality of small base stations to process traffic generated by the terminal in the specific small base station,
The specific small base station,
Based on the distance from the macro base station, the base station management apparatus characterized in that the transmission time information having a difference of less than or equal to a preset value is allocated to the terminal. According to claim 1,
The confirmation unit,
A base station management apparatus characterized in that the location of the terminal is checked based on transmission time information for determining a transmission time of uplink data from the terminal according to a distance between the macro base station and the terminal. According to claim 1,
The base station management device,
And a storage unit for storing the transmission time information according to the distance from the macro base station for each of the plurality of small base stations. According to claim 1,
The transmission point information,
A base station management apparatus, characterized in that it is information for receiving the uplink data from two or more terminals located in the macro base station at the same time at the macro base station. In the coverage of a macro base station in which a plurality of small base stations are installed, a confirmation step of checking the location of the terminal generating the traffic; And
And a control step of operating a specific small base station having the location of the identified terminal as a coverage among the plurality of small base stations to process the traffic generated by the terminal in the specific small base station,
The specific small base station,
A method of operating a base station management apparatus, characterized in that transmission time information having a difference equal to or less than a preset value is allocated to the terminal based on a distance from the macro base station. The method of claim 5,
The confirmation step,
A method of operating a base station management apparatus, characterized in that the location of the terminal is checked based on transmission time information for determining an uplink data transmission time at the terminal according to a distance between the macro base station and the terminal. The method of claim 5,
The above method,
Before the checking step, the operation method of the base station management apparatus further comprising a storage step of storing the transmission time information according to the distance from the macro base station for each of the plurality of small base stations. The method of claim 5,
The transmission point information,
Method for operating the base station management apparatus, characterized in that the information for receiving the uplink data from the two or more terminals located in the macro base station at the same time at the macro base station.

Images