KR101977937B1 - Base station management apparatus and control method thereof - Google Patents

Abstract

The present invention confirms the load situation (number of terminals, number of terminals in the cell boundary region, radio resource utilization rate) of the adjacent base station to the base station that distributes the radio resources to the terminal based on the preset parameters, The BS determines the parameters to have the predetermined distribution biased weights and provides them to the BS so that the BS can distribute the radio resources to the MS based on the determined / The base station control apparatus and the base station control apparatus can maintain the distribution bias of the radio resource distribution, that is, the fairness between the terminals, irrespective of the degree of interference of signals that can be changed by the base station controller.

Description

TECHNICAL FIELD [0001] The present invention relates to a base station control apparatus and a base station control apparatus,

The present invention relates to a base station control apparatus and an operation method of a base station control apparatus, and more particularly, to a radio base station control apparatus and a base station control apparatus, To a base station controller and an operation method of the base station controller.

In recent years, the growth of LTE (Long Term Evolution) network in domestic mobile communication has shifted its focus to LTE network in WCDMA, a 3G service.

The LTE base station considers the equilibrium between terminals of the radio resource allocation in an operation method of allocating / allocating radio resources to terminals connected thereto. Equity between terminals indicates how much the base station distributes radio resources to each of the terminals.

However, when the base station equally distributes the radio resources to all terminals in order to enhance the fairness between the terminals, the terminal equilibrium is improved. However, even if the receiving environment (radio channel environment, interference signal inflow amount) The average transmission rate of all UEs is lowered. On the other hand, if a relatively large amount of radio resources are allocated to a UE having a good reception environment, the average transmission rate of all UEs improves, but the fairness between UEs is degraded.

Accordingly, most LTE base stations use a proportional fairness scheduling method for ensuring both an average transmission rate and an equilibrium between terminals of all terminals.

That is, the existing LTE base station generally allocates the radio resources to the connected terminals based on the fixed parameters by fixing the parameters for equalizing the average rate of all terminals and the importance of equality between terminals .

However, the equilibrium between terminals is affected when the degree of interference of signals due to the load of adjacent base stations is changed. That is, when the existing LTE base station distributes the radio resources to the UEs using the fixed parameters as described above, there is a problem in that the fairness between the UEs can not be maintained due to the change of the interference level of the adjacent other base stations.

That is, if the LTE base station distributes the radio resources to the UEs using the fixed parameters, if the interference level of the neighboring other BSs increases, the opportunity for allocating the radio resources to the connected lower 5% UEs decreases, When the chance of allocating radio resources is increased, the equilibrium between the terminals is lowered. On the other hand, if the degree of interference of other adjacent base stations is decreased, the opportunity of allocating radio resources to the 5% The fairness between the terminals can not be maintained constantly.

Therefore, in order to solve the above-described problem, in the present invention, when the base station distributes the radio resource to the mobile station, it is possible to maintain the equilibrium between the terminals of the radio resource distribution constant, irrespective of the degree of interference of the signal changed by the load of the adjacent base station And the like.

It is an object of the present invention to provide a radio resource allocation method and a radio resource allocation method for allocating radio resources to a mobile station regardless of the degree of interference of a signal changed by a load of a neighboring base station. And to provide an operation method of a base station control apparatus and a base station control apparatus which can ensure optimal equality between terminals in terms of radio resource operation of a base station by keeping the equality between terminals constant.

According to a first aspect of the present invention, there is provided a base station control apparatus comprising: an adjacent base station identification unit for identifying a neighbor base station adjacent to a specific base station for distributing radio resources to a terminal based on a predetermined parameter; A load related information confirmation unit for confirming load related information of the adjacent base station; A parameter determination unit that determines a parameter that has a predetermined distribution biased gravity based on the checked load related information of the adjacent base station; And providing the determined parameter to the specific base station so that the specific base station distributes the radio resource to the terminal based on the determined parameter so that even if the load related information of the neighbor base station is changed, And a parameter providing unit capable of having the predetermined distribution bi-degree of weighing.

Preferably, the distribution biased weight is a ratio of the average transmission rate for all terminals connected to the specific base station and the average transmission rate for some terminals sequentially selected from the terminal having the lowest transmission rate among all the terminals, . ≪ / RTI >

Preferably, the load related information of the neighbor base stations is determined by the number of terminals connected to the neighbor base station, the number of terminals located in the cell boundary region of the terminals connected to the neighbor base station, And a radio resource utilization rate used by the connected terminal.

Preferably, the parameter determination unit may extract a parameter corresponding to the checked load-related information of the adjacent base station from the information mapped with the parameter having the predetermined distribution biased weight for each load related information of the adjacent base station .

Preferably, the parameter providing unit is configured to transmit the determined parameter when the number of the identified neighbor base stations is changed, or when the load related information of the checked neighbor base station is changed by more than a specific value, or when a predetermined period is reached To the specific base station.

According to a second aspect of the present invention, there is provided a method of operating a base station control apparatus comprising: a neighboring base station identification step of identifying a neighboring base station adjacent to a specific base station that distributes radio resources to a terminal based on a predetermined parameter; A load related information checking step of checking load related information of the adjacent base station; A parameter determining step of determining, based on the checked load related information of the adjacent base station, a parameter having a predetermined distribution biased weight; And providing the determined parameter to the specific base station so that the specific base station distributes the radio resource to the terminal based on the determined parameter so that even if the load related information of the neighbor base station is changed, And a parameter provision step capable of making the predetermined distribution biased degree of gravity with respect to the predetermined value.

Preferably, the load related information of the neighbor base stations is determined by the number of terminals connected to the neighbor base station, the number of terminals located in the cell boundary region of the terminals connected to the neighbor base station, And a radio resource utilization rate used by the connected terminal.

Preferably, in the parameter determination step, a parameter corresponding to the checked load-related information of the adjacent base station may be extracted from the information mapped with the parameter having the predetermined distribution biasing degree for each load related information of the adjacent base station have.

Preferably, the parameter providing step includes a step of, when the number of the identified neighbor base stations is changed, or when the load related information of the identified neighbor base station is changed by a specific value or more, or when a predetermined period is reached, To the specific base station.

According to the base station controller and the base station controller of the present invention, when the base station distributes the radio resources to the terminals, irrespective of the degree of interference of the signals changed by the load of the adjacent base station, and the fairness can be maintained constant.

1 is a configuration diagram illustrating a communication system including a base station control apparatus according to a preferred embodiment of the present invention.
2 is a block diagram showing a configuration of a base station control apparatus according to a preferred embodiment of the present invention.
3 is a flowchart illustrating an operational flow of a communication system including a base station control apparatus according to a preferred embodiment of the present invention.
4 is a control flowchart illustrating an operation method of a base station control apparatus 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 diagram illustrating a communication system including a base station control apparatus according to a preferred embodiment of the present invention.

As shown in FIG. 1, a communication system including a base station control apparatus according to the present invention includes a plurality of base stations 100 and a base station control apparatus 200 that provide a communication service to a terminal connected thereto.

The plurality of base stations 100 may include femtocells for providing communication services based on the LTE network, small base stations for building small cells such as picocells, and macro base stations for building macro cells. Hereinafter, the base stations 1, 2, and 3 are referred to as a plurality of base stations 100 for convenience of explanation.

The base station control apparatus 200 according to the present invention identifies a neighboring base station adjacent to a specific base station and confirms the load related information of the identified neighbor base station.

Here, the specific base station means at least one base station among the plurality of base stations 100. [ The adjacent base station means a base station that can generate interference adjacent to the specific base station among the plurality of base stations 100.

Hereinafter, for convenience of description, reference will be made to the base station 1 as a specific base station and reference to the base stations 2 and 3 as the neighbor base stations of the base station 1. [

Accordingly, the base station controller 200 can identify the base stations 2 and 3 as neighboring base stations adjacent to the specific base station, that is, the base station 1, and check the load-related information of the base stations 2 and 3 confirmed as the neighbor base stations.

For example, each of the base stations included in the plurality of base stations 100 may report its own load-related information to the base station controller 200 periodically or on a request basis.

Accordingly, the base station control apparatus 200 can collect and manage the load-related information from the base stations included in the plurality of base stations 100.

Therefore, when the base station control apparatus 200 confirms the base stations 2 and 3 as a neighboring base station adjacent to the specific base station, that is, the base station 1, the base station control apparatus 200 obtains, from the load related information of each base station to be collected and managed as described above, Can be checked.

On the other hand, the base station 1 distributes the radio resources to the terminals connected to the base station 1 based on the parameters set in the base station 1 itself.

For example, the base station 1 allocates / allocates radio resources (frequency resources and time resources) to terminals connected to the base station 1, and transmits the average rate and inter-terminal fairness (hereinafter, A proportional fairness scheduling method can be used to secure the simultaneous equilibrium.

Hereinafter, the balanced fairness scheduling method will be briefly described. A priority order according to Equation (1) is determined for each terminal connected to a base station, and resources are allocated according to the determined priority order of each terminal.

Equation 1.

은 j번째 단말의 우선순위이며,

는 j번째 단말의 특정 기간 동안의 평균전송률이며,

j번째 단말의 현재 예측 전송률이다. 그리고, α는 전술한 모든 단말의 평균전송률에 대한 중요도를 조정하기 위한 파라미터이고, β는 전술한 분배편중도에 대한 중요도를 조정하기 위한 파라미터이다.here,

Is the priority of the j-th UE,

Is an average transmission rate during a specific period of the j < th > terminal,

lt; th > terminal. And,? Is a parameter for adjusting the importance of the average transmission rate of all the terminals described above, and? Is a parameter for adjusting the importance of the biased distribution weight.

That is, the base station 1 determines the priorities according to the above-described parameters? And? Based on the parameter set in the base station 1 itself, for each terminal connected to the base station 1 according to the balanced fairness scheduling method, And distributes the radio resources according to the priority order of each terminal.

The base station control device 200 of the present invention will be described below. The base station control device 200 determines a parameter to have a predetermined distribution biasing degree based on the load related information of the base stations 2 and 3 identified as described above. It is preferable that the predetermined distribution distribution weighting is a value selected and set as an optimum distribution distribution weighting by a specific subject.

Here, the distribution biased weight indicates how much the base station distributes the radio resources to the connected terminals.

This distribution biased weight can be generally calculated using an average data rate for all terminals connected to the base station and an average data rate for some terminals sequentially selected from the terminals having the lowest data rate among all the terminals.

At this time, some terminals sequentially selected from the terminal having the lowest data rate may be the 5% terminal having the lowest data rate among all the terminals connected to the corresponding base station.

Thus, the distribution bi-weight can be calculated according to the following equation (2) based on the average transmission rate of all terminals connected to the average transmission rate of the lower 5% terminals connected to the base station 1.

Equation 2. Distribution bias = lower 5% average transmission rate of terminals / average transmission rate of all terminals

Of course, the distribution biasing can be calculated not only by the above-described formula 2 but also by the existing various distribution biasing calculation methods.

However, there is a problem that the biased distribution of the base station 1 can not be maintained constantly due to the degree of interference of signals changed according to the load variation of the adjacent base stations, that is, the base stations 2 and 3.

Therefore, the base station control apparatus 200 determines, based on the checked load-related information of the base stations 2 and 3, parameters for causing the base station 1 to have a pre-set distribution bi-level, that is, an optimum distribution bi- .

Then, the base station control apparatus 200 provides the above-described parameters? And? Determined in the above-described manner to the base station 1 so that the base station 1 distributes the radio resources to the terminals based on the determined parameters? And? 3, the base station 1 can maintain the optimal distribution biased weight with respect to the radio resource distribution.

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

The base station control apparatus 200 according to the present invention includes an adjacent base station identification unit 210 for identifying a neighbor base station adjacent to a specific base station for distributing radio resources to a mobile station based on a predetermined parameter, A parameter determination unit (230) for determining a parameter to have a predetermined distribution biasing degree based on the checked load related information of the adjacent base station, a parameter determination unit (230) The specific base station distributes the radio resource to the terminal based on the determined parameter, so that even if the load-related information of the neighbor base station changes, the specific base station transmits the predetermined distribution And a parameter providing unit 240 capable of having an unevenness degree.

Hereinafter, for convenience of description, reference will be made to the base station 1 as a specific base station and reference to the base stations 2 and 3 as the neighbor base stations of the base station 1. [

The neighboring base station identification unit 210 identifies a specific base station, that is, a neighboring base station adjacent to the base station 1, that is, the base stations 2 and 3, to distribute radio resources to the mobile station based on predetermined parameters.

At this time, the neighboring base station identification unit 210 identifies a plurality of base stations 100 based on the information obtained through interworking with the network equipment (e.g., EMS, NMS, etc.) that manages / controls each of the plurality of base stations 100 included in the communication system The neighboring base stations of the base station 1, that is, the base stations 2 and 3, can be identified from an information DB (not shown) or a storage medium (not shown) that manages neighbor base station information (e.g., Naver list) of each base station 100.

Of course, the neighboring base station identification unit 210 can also confirm the neighboring base stations of the base station 1, that is, the base stations 2 and 3 by receiving the neighboring base station information directly from the base station 1. [

The load-related information verifying unit 220 confirms the load-related information of the adjacent base stations, that is, the base stations 2 and 3 identified above.

For example, the base station control device 200 can collect and manage the load-related information from the base stations included in the plurality of base stations 100 as described above.

The load related information confirmation unit 220 can confirm the load related information of the base stations 2 and 3 from the load related information of each base station that is collected and managed with respect to the base stations 2 and 3 identified as the adjacent base stations adjacent to the base station 1 have.

Here, the load-related information includes the number of terminals connected to the base station itself, the number of terminals located in the cell boundary region of the cell area of the base station itself of the terminals connected to the base station itself, Resource utilization rate may be included.

The load related information of the base station 2, which is checked by the load related information identifying unit 220, includes information obtained from the load related information received from the base station 2, that is, the number of terminals connected to the base station 2, The number of terminals located in the cell boundary region of the base station 2 connected to the base station 2 and the radio resource utilization rate used by the terminals connected to the base station 2 may be included.

The parameter determination unit 230 determines a parameter that has a predetermined distribution biased gravity based on the load related information of the identified neighbor base station, that is, the base stations 2 and 3.

Here, it is preferable that the predetermined distribution distribution weighting is a value selected and set as an optimum distribution distribution weighting by a specific subject.

The parameter providing unit 240 provides the determined parameters to the base station 1 so that the base station 1 distributes radio resources to the terminals based on the determined parameters.

In a wireless environment, when the load on the base stations 2 and 3 adjacent to the base station 1 increases, that is, the number of terminals connected to the base stations 2 and 3 increases, in particular, the number of terminals located in the cell boundary region increases, The degree of interference of signals to be affected by the base station 1 is increased by the signals of the base stations 2 and 3. When the load of the base stations 2 and 3 is decreased, The degree of interference of the signal to be affected by the base station 1 is reduced.

In this way, when the load of the adjacent base stations 2 and 3 is reduced and the degree of interference of the signals affecting the base station 1 becomes small, the distribution bi-degree of the base station 1 is likely to be maintained at a target optimal distribution ratio. However, When the load increases and the degree of interference of the signal affecting the base station 1 becomes large, the distribution bi-degree of the base station 1 is hardly maintained at the target optimal distribution ratio.

Therefore, the parameter determination unit 230 determines the parameters for causing the base station 1 to have the predetermined distribution bi-level, that is, the optimum distribution bi-bi center based on the load-related information of the base stations 2 and 3, As the variation (increase or decrease) of the signal changes the degree of interference of the signal, it is possible to determine a parameter that causes the base station 1 to have an optimal distribution bias weight.

The parameter determination unit 230 holds the information mapped with the parameters to have the predetermined distribution biased gravity for each load related information of the adjacent base station.

More specifically, as described above, the distribution bi-degree of the base station 1 can be calculated according to Equation 2, and this distribution bi-degree of gravity can be calculated by dividing the priority of the radio resources allocated to each terminal to which the base station 1 is connected Can vary.

As a result, depending on how the values of the parameters? And? In the above-described Equation 1 are determined, i.e., to what degree the degree of importance of the biased distribution and the importance of the average transmission rate of all terminals are determined, The priority to be determined is changed, and as a result, the distribution bias due to the radio resource distribution also changes.

The above-described mapped information will be described in more detail. The values of the parameters alpha and beta for mapping the load related information of the adjacent base station to the predetermined distribution biasing degree are mapped. The mapping information has different distribution bias values Respectively.

Accordingly, the parameter determination unit 230 identifies the mapping information of the predetermined distribution biasing weights among the mapping information that are respectively configured for the different distribution biases, and obtains, from the identified mapping information, the load- The mapped parameters? And? Values can be extracted and determined.

The parameter providing unit 240 provides the parameter determined by the parameter determining unit 230 to the base station 1.

Accordingly, the base station 1 changes the previously determined parameters? And? Set in the base station 1 to the previously determined parameters? And? Provided from the base station control apparatus 200 of the present invention, And the distribution bias of the base station 1, which is identified as a result of such radio resource distribution, will have the above-described predetermined distribution bias.

On the other hand, when the number of the identified neighbor base stations is changed or the load related information of the checked neighbor base station is changed by a specific value or more, or when the predetermined period is reached, the parameter providing unit 240 sets the parameter determining unit 230 ) To the base station 1.

That is, when one of the identified neighboring base stations, that is, the base stations 2 and 3, is lost or another base station 4 is identified as a neighboring base station, or when at least one of the load related information (the number of terminals, The parameter determining unit 230 determines the parameters? And? As described above, and the parameter providing unit 240 determines the parameters? And? Determined by the parameter determining unit 230, alpha and beta to the base station 1.

Alternatively, the parameter determination unit 230 determines the parameters? And? As described above every predetermined period, and the parameter providing unit 240 supplies the parameters? And? Determined by the parameter determination unit 230 to the base station 1 .

As described above, the base station control apparatus according to the present invention controls the load conditions of the neighbor base stations (the number of terminals, the number of terminals in the cell boundary region, the radio resource utilization rate ), And determines a parameter for allowing the base station to have a preset optimal distribution biasing weight in the load condition of the neighbor base station, and provides the parameter to the base station 1 so that the base station distributes the radio resource to the terminal based on the determined / So that the distribution bias of the radio resource distribution, that is, the fairness between the terminals can be kept constant regardless of the degree of interference of the signal that can be changed by the load of the adjacent base station.

Hereinafter, an operation method of the base station control apparatus according to the present invention will be described with reference to FIG. 3 and FIG.

First, the operation flow of the communication system including the base station control apparatus according to the present invention will be described with reference to FIG. Hereinafter, for convenience of description, the present invention will be described with reference to a base station 1 among a plurality of base stations 100, and reference will be made to base stations 2 and 3 as neighboring base stations of the base station 1.

The base stations 1, 2, and 3 included in the plurality of base stations 100 may report their own load-related information to the base station controller 200 periodically or upon request (S10, S11, S12).

The base station 1 distributes radio resources to each of the terminals connected to the base station 1 based on the parameter set in itself (S15). For example, the base station 1 determines a priority according to the above-described equation (1) on the basis of the parameters set in its own, that is, the above-mentioned parameters? And?, For each terminal connected to itself in accordance with the balanced equality scheduling method, The radio resources can be distributed according to the priority of each terminal.

On the other hand, the base station control apparatus 200 confirms adjacent base stations, e.g., base stations 2 and 3, which are adjacent to the base station 1 (S20).

Then, the base station control device 200 confirms the load-related information of the base stations 2 and 3 confirmed as the adjacent base stations, and based on the checked load-related information of the base stations 2 and 3, (S30).

For example, the base station control device 200 can check the load-related information of the base stations 2 and 3 confirmed as the adjacent base station from the load-related information of each base station to be collected / managed as described above.

Then, the base station control device 200 determines parameters, that is, the above-mentioned parameters? And?, That the base station 1 has the predetermined distribution bi-degree, that is, the optimal distribution bi-mass degree, based on the load- .

Then, the base station control device 200 provides the parameters? And? Determined in the above-described manner to the base station 1 (S40).

Accordingly, the base station 1 distributes the radio resources to the respective terminals based on the determined parameters? And? (S50). Even if the load-related information of the adjacent base stations, that is, the base stations 2 and 3, is changed, The distribution bias can be maintained.

Hereinafter, an operation method of the base station control apparatus according to the preferred embodiment of the present invention will be described in detail with reference to FIG.

The operation method of the base station control apparatus according to the present invention can collect and manage the load related information from each of the base stations included in the plurality of base stations 100 (S100).

Here, the load-related information includes the number of terminals connected to the base station itself, the number of terminals located in the cell boundary region of the cell area of the base station itself of the terminals connected to the base station itself, Resource utilization rate may be included.

The method of operation of the base station control apparatus according to the present invention checks a specific base station among a plurality of base stations 100, for example, a neighbor base station of the base station 1 (S110).

In the operation method of the base station control apparatus according to the present invention, the load related information of the neighboring base stations such as the base stations 2 and 3 confirmed above is checked (S120).

Thus, in the operation method of the base station control apparatus according to the present invention, a parameter for determining a predetermined distribution bi-degree of gravity is determined based on the load-related information of the adjacent base stations, that is, the base stations 2 and 3 (S130). Here, it is preferable that the predetermined distribution distribution weighting is a value selected and set as an optimum distribution distribution weighting by a specific subject.

That is, the operation method of the base station control apparatus according to the present invention determines the parameters for causing the base station 1 to have the predetermined distribution distribution weight, that is, the optimal distribution distribution weighting degree, based on the load- (Increase or decrease) of the load of the base station 1 can change a parameter that causes the base station 1 to have an optimal distribution bias weight even if the degree of interference of the signal changes.

More specifically, the method of operating the base station control apparatus according to the present invention holds information mapped with a parameter having the above-described predetermined distribution bias weight for each load-related information of the adjacent base station.

The mapped information will be described in more detail. The values of the parameters alpha and beta for mapping the load related information of the adjacent base station to the predetermined distribution biasing degree are mapped. The mapping information is constituted by different distribution biases .

The operation method of the base station control apparatus according to the present invention checks the mapping information of the predetermined distribution biased weight among the mapping information that is configured for each different biased distribution degree, The parameters? And? Values mapped to the load-related information can be extracted and determined.

The operation method of the base station control apparatus according to the present invention provides the parameter determined in step S130 to the base station 1 (S140).

Accordingly, the base station 1 will distribute the radio resources to the terminal based on the above-mentioned determined parameters? And? By changing the parameters? And? Preset in the base station 1 to the previously determined parameters? And? The distribution biased weight of the base station 1, which is confirmed as a result of the distribution, will have the predetermined distribution bias biased above.

Meanwhile, the method of operating the base station control apparatus according to the present invention is characterized in that when the number of the identified neighbor base stations is changed, or when the load related information of the checked neighbor base station is changed by a specific value or more, The above-described steps S130 to S140 can be performed.

That is, the operation method of the base station control apparatus according to the present invention is such that when one of the identified neighboring base stations, that is, the base stations 2 and 3, is lost, another base station 4 is identified as a neighboring base station, When it is confirmed that the information (the number of terminals, the number of terminals in the cell boundary region, the radio resource utilization rate) is changed by more than a specific value, the parameters? And? Are determined as described above and the determined parameters? have.

As described above, the method for operating the base station control apparatus according to the present invention is characterized in that, for a base station that distributes radio resources to a mobile station based on preset parameters, the load status (number of terminals, The base station 1 determines a parameter for determining the optimal distribution weighting degree of the base station in the load situation of the neighbor base station that has been confirmed and provides the parameter to the base station 1, The allocation of resources enables the base station to maintain a fair distribution of the distribution of the radio resources regardless of the degree of interference of the signals that can be changed by the load of the adjacent base station. .

The method of operating the base station controller according to an embodiment of the present invention may be implemented in the form of a program command 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, and the like, alone or in combination. The program instructions recorded on the medium may be those specially designed and constructed for the present invention or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape; optical media such as CD-ROMs and DVDs; magnetic media such as floppy disks; Magneto-optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

According to the operation of the base station control apparatus and the base station control apparatus according to the present invention, when the base station distributes the radio resources to the mobile station, regardless of the degree of interference of the signals changed by the load of the adjacent base station, fairness), it is possible to carry out not only the use of the related technology but also the possibility of marketing or operating the device to be applied, as it exceeds the limit of the existing technology. It is an invention that is industrially applicable.

100: multiple base stations 200: base station control device

Claims (9)

An adjacent base station identification unit for identifying a neighbor base station adjacent to a specific base station for distributing radio resources to the terminal;
A load related information confirmation unit for confirming load related information of the adjacent base station;
A parameter determination unit for determining a parameter for causing the specific base station to have a predetermined distribution biasing degree in relation to the radio resource distribution to the terminal based on the load related information of the identified neighbor base station; And
Providing the determined parameter to the specific base station so that the specific base station distributes the radio resource to the terminal based on the determined parameter so that even if the load related information of the adjacent base station is changed, And a parameter distribution unit configured to store the distribution distribution weight,
Wherein the parameter providing unit comprises:
Wherein the control unit provides the determined parameter to the specific base station when the number of the neighbor base stations is changed or the load related information of the neighbor base station is changed by more than a specific value. The method according to claim 1,
The distribution bi-
The average rate for all terminals connected to the specific base station and the average rate for some terminals sequentially selected from the terminals having the lowest transmission rate among all the terminals are calculated with respect to the radio resource distribution. Control device. The method according to claim 1,
The load related information of the adjacent base station,
At least one of the number of terminals connected to the adjacent base station, the number of terminals located in the cell boundary region of the adjacent base stations connected to the adjacent base station, and the radio resource utilization rate used by the terminals connected to the adjacent base station, The base station control apparatus comprising: 4. The method according to any one of claims 1 to 3,
Wherein the parameter determination unit comprises:
Wherein the parameter extracting unit extracts and determines parameters corresponding to the load related information of the identified neighbor base station from the information mapped with the parameter having the predetermined distribution biased weight for each load related information of the adjacent base station. delete An adjacent base station identification step of identifying a neighbor base station adjacent to a specific base station for distributing radio resources to the terminal;
A load related information checking step of checking load related information of the adjacent base station;
A parameter determination step of determining, based on the determined load related information of the adjacent base station, a parameter that causes the specific base station to have a predetermined distribution biasing degree with respect to the radio resource distribution to the terminal; And
Providing the determined parameter to the specific base station so that the specific base station distributes the radio resource to the terminal based on the determined parameter so that even if the load related information of the adjacent base station is changed, And a parameter distribution step of determining a distribution distribution weighting degree,
The parameter providing step may include:
Wherein the control unit provides the determined parameter to the specific base station when the number of the neighbor base stations is changed or the load related information of the neighbor base station is changed by more than a specific value. delete delete delete

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