KR102025914B1 - Base station apparatus and control method thereof - Google Patents

Abstract

According to the present invention, resource allocation information of a base station in which one base station is proactively organized by self-organization among base stations in a situation where base stations are irregularly installed, and without an administrator or a user without a separate central control unit is configured. And a method of operating a base station apparatus and a base station apparatus capable of minimizing inter-cell interference by determining and / or updating resource allocation information of itself and / or neighboring base stations based on load information.

Description

BASE STATION APPARATUS AND CONTROL METHOD THEREOF

The present invention relates to a base station apparatus and a method of operating the base station apparatus, and more particularly, in the situation where the base station is irregularly installed, the base station itself and / or adjacent to the base based on the resource allocation information of the base station adjacently dominated A base station apparatus and a method of operating a base station apparatus capable of minimizing inter-cell interference by generating and / or updating resource allocation information of a base station.

Current wireless communication services are facing an exponential increase in data traffic demands of users using smart phones, tablet PCs, and the like. In such a situation, in order to increase the capacity of a wireless network using limited frequency resources, a method of increasing the frequency reuse rate has been discussed as the most realistic solution.

Therefore, a method of increasing the density of the base station per unit area as a method of increasing the frequency reuse rate, in particular, a method of increasing the density of the base station per unit area by using a relatively low cost small base station is mainly used.

In the case of this method, however, the capacity increase is limited by the inter-cell interference problem of the base station. In other words, the signal emitted by one base station acts as interference to neighboring cells. In order to solve this problem, it is very important to effectively manage the resources used by each base station to minimize the interference on the cells controlled by other base stations. Do.

In the case of small base stations, however, it is difficult to systematically respond to the inter-cell interference problem because it is irregularly installed at the request of subscribers or regions where data demand is expected to be high without a special installation plan by the operator.

Therefore, in the present invention, in a situation where the base stations are irregularly installed, the base stations interoperate by generating and / or updating the resource allocation information of itself and / or adjacent base stations based on the resource allocation information of adjacent base stations. We propose a method to minimize interference.

The present invention has been made in view of the above circumstances, and an object of the present invention is to reach and / or adjoin based on resource allocation information of a base station to which the base station is proactively in a situation where the base station is irregularly installed. The present invention provides a base station apparatus and a method of operating a base station apparatus capable of minimizing inter-cell interference by generating and / or updating resource allocation information of a base station.

A base station apparatus according to a first aspect of the present invention for achieving the above object includes an interference base station identification unit for identifying an interference base station that generates signal interference; A resource allocation information acquisition unit for acquiring resource allocation information of the interfering base station; Based on the resource allocation information, the resource allocation information of the base station apparatus is generated so as to minimize the signal interference with the interfering base station, the resource allocation information of the interfering base station is updated, or the resource allocation information of the base station apparatus is changed. And a resource allocation control information determination unit for determining resource allocation control information for generating and updating the resource allocation information of the interfering base station.

Preferably, the resource allocation information includes frequency resource allocation information for a frequency band allocated to a cell center region of a cell region of the interference base station or the base station apparatus and frequency resource allocation information for a frequency band allocated to a cell boundary region. It may include.

Preferably, the frequency band allocated to the cell boundary region may be a part of a frequency band obtained by dividing a frequency band corresponding to the cell boundary region according to a frequency reuse coefficient associated with the cell boundary region.

Preferably, the resource allocation control information determining unit determines that a specific frequency band not allocated to at least one of a cell center region and a cell boundary region of the interfering base station is determined, and the cell boundary of the base station apparatus is determined. The resource allocation control information may be determined to allocate to an area.

Preferably, the resource allocation control information determining unit determines the resource allocation control information differently according to whether the frequency reuse factor related to the cell boundary region of the interfering base station is equal to or less than a specific reference coefficient when the specific frequency band is not identified. You can decide.

Preferably, the resource allocation control information determining unit, when the frequency reuse factor of the interference base station is less than the specific reference coefficient, increases the frequency reuse factor and increases the frequency band corresponding to the cell boundary region to the increased frequency reuse factor. The resource allocation control information may be determined so as to divide according to the allocation and allocate a portion of the divided frequency bands to a cell boundary region of the base station apparatus and allocate another portion to a cell boundary region of the interfering base station.

Preferably, the resource allocation control information determining unit, when the frequency reuse factor of the interference base station is not equal to or less than the specific reference coefficient, the frequency band allocated to the cell boundary region of the interference base station having the smallest received signal strength among the interference base stations. The resource allocation control information can be determined so as to allocate a value to the cell boundary area of the base station apparatus.

Preferably, the apparatus may further include an interference load information acquisition unit for obtaining interference load information related to the existence of a terminal located in each of the cell boundary region and the cell center region of the interference base station.

Preferably, the resource allocation control information determination unit, based on the interference load information, if it is confirmed that the terminal does not exist in the cell boundary region of the interference base station, the base station apparatus irrespective of the signal interference with the interference base station The resource allocation control information may be determined to allocate at least a portion of frequency bands corresponding to the cell boundary region of the cell boundary region to the cell boundary region of the base station apparatus.

Preferably, the resource allocation control information determining unit, based on the interference load information, if it is confirmed that the terminal exists only in the cell boundary region of the interfering base station, the frequency band of the interfering base station to the entire frequency band associated with the interfering base station; The resource allocation control information may be determined to divide according to a reuse factor and to allocate a portion of the divided frequency bands to a cell boundary region of the base station apparatus and to allocate a portion of the divided frequency bands to a cell boundary region of the interfering base station.

A method of operating a base station apparatus according to a second aspect of the present invention for achieving the above object includes an interference base station identification step of identifying an interference base station causing signal interference; Acquiring resource allocation information for acquiring resource allocation information of the interfering base station; Based on the resource allocation information, the resource allocation information of the base station apparatus is generated so as to minimize the signal interference with the interfering base station, the resource allocation information of the interfering base station is updated, or the resource allocation information of the base station apparatus is changed. And resource allocation control information determination step of generating and assigning resource allocation control information for updating the resource allocation information of the interfering base station.

Preferably, the resource allocation information includes frequency resource allocation information for a frequency band allocated to a cell center region of a cell region of the interference base station or the base station apparatus and frequency resource allocation information for a frequency band allocated to a cell boundary region. The frequency band allocated to the cell boundary region may be a portion of a frequency band obtained by dividing a frequency band corresponding to the cell boundary region according to a frequency reuse coefficient associated with the cell boundary region.

Preferably, in the resource allocation control information determining step, if a specific frequency band is not assigned to at least one of a cell center region and a cell boundary region of the interfering base station, the specific frequency band is assigned to a cell of the base station apparatus. The resource allocation control information may be determined to allocate to a boundary area.

Preferably, the resource allocation control information determination step, if the specific frequency band is not confirmed, determining whether the frequency reuse factor related to the cell boundary region of the interference base station is less than a specific reference coefficient, and the determination result If the frequency reuse factor of the interference base station is less than or equal to the specific reference coefficient, increase the frequency reuse factor, divide a frequency band corresponding to the cell boundary region according to the increased frequency reuse factor, and partially divide the frequency band. Determining the resource allocation control information to allocate to a cell boundary region of the base station apparatus and to assign a portion of the cell boundary region of the interfering base station;

If the frequency reuse factor of the interference base station is not equal to or less than the specific reference coefficient, the frequency band allocated to the cell boundary region of the interference base station having the smallest received signal strength among the interference base station is allocated to the cell boundary region of the base station apparatus. And determining the resource allocation control information.

Preferably, the method may further include an interference load information acquisition step of acquiring interference load information related to the presence or absence of a terminal located in each of the cell boundary region and the cell center region of the interference base station.

Preferably, the resource allocation control information determination step, if it is confirmed that the terminal does not exist in the cell boundary region of the interference base station based on the interference load information, the base station apparatus irrespective of the signal interference with the interference base station The resource allocation control information may be determined to allocate at least a portion of frequency bands corresponding to the cell boundary region of the cell boundary region to the cell boundary region of the base station apparatus.

Preferably, in the resource allocation control information determining step, when it is confirmed that the terminal exists only in the cell boundary region of the interfering base station based on the interference load information, the entire frequency band associated with the interfering base station is determined. The resource allocation control information may be determined to divide according to a frequency reuse coefficient and to allocate a portion of the divided frequency bands to a cell boundary region of the base station apparatus and to allocate a portion to a cell boundary region of the interfering base station.

Therefore, according to the operation method of the base station apparatus and the base station apparatus of the present invention, in a situation where the base stations are irregularly installed in a compact manner, the base station is based on the resource allocation information of the base station adjacent to the base station itself and / or of the adjacent base station Inter-cell interference may be minimized by generating and / or updating resource allocation information.

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

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

1 is a diagram illustrating a communication system including a base station apparatus according to a preferred embodiment of the present invention.

As shown in FIG. 1, the communication system including the base station apparatus according to the present invention includes a plurality of base stations 10 and the base station apparatus 100 of the present invention.

Here, the plurality of base stations 10 may include a small base station apparatus for constructing a small cell, such as a femtocell and a picocell, or may include a macro base station apparatus for constructing a macro cell. For the description will be described with reference to base stations 1,2.

For example, the plurality of base stations 10 may refer to a base station apparatus that provides a communication service to a terminal that is pre-installed and located in its cell area.

The base station apparatus 100 of the present invention is a base station apparatus having an interference control function that can proactively determine or update resource allocation information of itself and / or an interfering base station.

The base station apparatus 100 may refer to a base station apparatus newly installed in an area where a plurality of base stations 10 are pre-installed.

The base station apparatus 100 identifies the interfering base station causing the signal interference and acquires resource allocation information of the confirmed interfering base station.

The base station apparatus 100 generates its own resource allocation information, updates its resource allocation information, or generates its own resource allocation information so that signal interference with the interfering base station is minimized. The resource allocation control information for updating the resource allocation information is determined.

For example, the base station apparatus 100 discloses an interference control function that can proactively determine or update resource allocation information of itself and / or an interference base station at a specific time point. In this case, the specific time point may be a time point when the base station apparatus 100 is newly installed and starts driving, or may be a time point when a preset interference control period is reached.

Thus, the base station apparatus 100 identifies the interfering base station that generates signal interference adjacent to itself. For convenience of explanation, base stations 1 and 2 will be referred to as the identified interfering base stations.

Thereafter, the base station apparatus 100 obtains the resource allocation information of the identified interfering base station, that is, the base stations 1,2.

Here, the resource allocation information of the interfering base station includes the frequency reuse coefficient set for the interference control area, that is, the cell boundary area, the frequency resource allocation information for the frequency band allocated to the cell center area of the interfering base station, and the interfering base station. It may include frequency resource allocation information for the frequency band allocated to the cell boundary region of.

Accordingly, the base station apparatus 100 allocates a certain frequency resource to the cell center region for each of the base stations 1 and 2 based on the resource allocation information of the base stations 1,2, and what frequency reuse coefficient is in the cell boundary region. You will see if you are allocating resources.

Accordingly, the base station apparatus 100 generates the resource allocation information of the base station apparatus 100 itself based on the resource allocation information of the base stations 1,2 and the base station apparatus 100 so as to minimize signal interference with the base stations 1,2. It updates itself according to the determined resource allocation control information by updating the resource allocation information or by determining the resource allocation control information for generating the resource allocation information of the base station apparatus 100 and updating the resource allocation information of the base stations 1,2. And / or the resource allocation information of neighboring base stations 1,2 may be determined or updated.

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

The base station apparatus 100 according to the present invention includes an interference base station identification unit 110 for identifying an interference base station that causes signal interference, a resource allocation information acquisition unit 120 for acquiring resource allocation information of the interference base station, and Based on the resource allocation information, the resource allocation information of the base station apparatus 100 is generated, the resource allocation information of the interfering base station is updated, or the resource allocation information of the base station apparatus 100 is minimized so that the signal interference with the interfering base station is minimized. And a resource allocation control information determining unit 130 for determining resource allocation control information for generating and updating the resource allocation information of the interfering base station.

The interfering base station confirming unit 110 confirms the interfering base station causing the signal interference.

In more detail, the base station apparatus 100 may obtain neighbor base station information associated with an adjacent base station.

For example, the base station apparatus 100 receives a downlink signal from an adjacent base station periodically or when a predetermined measurement event occurs, and receives a base station identifier (Cell ID) and a signal reception power from the base station (RSRP). ) Can be measured. Accordingly, the base station apparatus 100 may obtain neighbor base station information including a base station identifier (Cell ID) and a signal reception power (RSRP) in relation to at least one adjacent base station as described above.

The interference base station identification unit 110, through the interworking with the base station information DB 200 shown in Figure 1, can identify the base station that supports the interference control function of the adjacent base stations confirmed based on the neighbor base station information.

Here, the base station information DB 200 may be a device for storing / managing information about each of the plurality of base stations 10, for example, whether each base station supports an interference control function, and IP information of each base station.

As a result, the interference base station identification unit 110 may identify the base station that supports the interference control function among the adjacent base stations identified using the neighbor base station information as the interference base station. Hereinafter, for convenience of description, a case where base stations 1,2 are identified as an interference base station will be described.

The resource allocation information acquisition unit 120 may acquire resource allocation information of the interfering base station.

In more detail, the resource allocation information acquisition unit 120 obtains the resource allocation information of the interference base station, i.e., the base stations 1 and 2, confirmed by the interference base station identification unit 110.

For example, the resource allocation information acquisition unit 120 may obtain IP information of the base stations 1 and 2 identified as the interference base station from the base station information DB 200, and may be connected to the base stations 1 and 2 using the obtained IP information. . For example, the resource allocation information acquisition unit 120 may also connect the X2 interface with the base stations 1,2 using IP information.

Thus, the resource allocation information acquisition unit 120 may obtain resource allocation information from each of the connected base stations 1 and 2.

Here, referring to the base station 1 to describe the resource allocation information of the base station 1, the resource allocation information is assigned to the frequency reuse coefficient set for the interference control region, that is, the cell boundary region of the cell region of the base station 1, the cell center region of the base station 1 Frequency resource allocation information for the frequency band to be included and the frequency resource allocation information for the frequency band allocated to the cell boundary region of the base station 1.

Here, the frequency band allocated to the cell boundary region means a part of frequency bands obtained by dividing a frequency band corresponding to the cell boundary region according to a frequency reuse factor. For example, when the frequency reuse factor is 3, the frequency band allocated to the cell boundary region may mean one of the frequency bands corresponding to the cell boundary region divided into three frequency bands.

The resource allocation control information determination unit 130 generates resource allocation information of the base station apparatus 100 such that signal interference with the base stations 1,2 is minimized based on the obtained resource allocation information of the base stations 1,2, or the base station. The base station apparatus 100 may be updated by determining resource allocation control information for updating the resource allocation information of the base stations 1 and 2 or generating the resource allocation information of the base station apparatus 100 and updating the resource allocation information of the base stations 1 and 2. And / or an interference control function for determining or updating resource allocation information of base stations 1,2.

Hereinafter, a detailed process of the resource allocation control information determination unit 130 performing the interference control function will be described.

When the resource allocation control information determining unit 130 identifies a specific frequency band not allocated to at least one of the cell center region and the cell boundary region of the interfering base station, the resource allocation control information determining unit 130 selects the identified specific frequency band of the cell of the base station apparatus 100. Resource allocation control information can be determined to allocate to the boundary area.

For example, the resource allocation control information determining unit 130 is not allocated to at least one of the cell center region and the cell boundary region of the base stations 1,2 based on the resource allocation information of the base stations 1,2 identified as the interference base station. Check whether or not a specific frequency band exists.

In this case, the base station apparatus 100 including the base stations 1 and 2, in allocating frequency resources to its cell center region and cell boundary region, allocates a frequency band so as not to overlap the cell center region and cell boundary region. There is a second method of allocating a frequency band overlapping a cell center region and a cell boundary region.

Here, if the base station apparatus 100 including the base stations 1 and 2 supports the above-described first method, the resource allocation control information determining unit 130 may determine the resource allocation information of the base stations 1 and 2 identified as the interference base station. Based on this, the base station apparatus 100 checks whether there is a specific frequency band which is not allocated to both the cell center region and the cell boundary region of the base stations 1 and 2 among the frequency bands corresponding to the cell boundary region. Here, the frequency band corresponding to the cell boundary region may mean all frequency bands of frequency resources allocable by the base station apparatus 100 according to the first method of allocating the frequency bands so that the cell center region and the cell boundary region do not overlap. Can be.

On the other hand, if the base station apparatus 100 including the base stations 1 and 2 supports the above-described second method, the resource allocation control information determining unit 130 is based on the resource allocation information of the base stations 1 and 2 identified as the interference base station. On the basis of this, the base station apparatus 100 checks whether there is a specific frequency band which is not allocated to the cell boundary regions of the base stations 1 and 2 among the frequency bands corresponding to the cell boundary region. Here, the frequency band corresponding to the cell boundary region is a part of frequency bands which are preset to be allocated to the cell boundary region among all the frequency bands according to the second scheme of allocating the frequency bands overlapping the cell center region and the cell boundary region. It may mean.

Accordingly, the resource allocation control information determination unit 130 determines whether a specific frequency band exists according to the case in which the first scheme or the second scheme is supported. The resource allocation control information is determined to allocate to the cell boundary area of the device 100.

That is, the resource allocation control information determination unit 130 determines the resource allocation control information for generating the resource allocation information of the base station apparatus 100.

In more detail, the resource allocation control information determination unit 130 has the same frequency reuse coefficient as the base stations 1 and 2 and the same frequency band as the cell center regions of the base stations 1 and 2 in the cell center region of the base station apparatus 100. Frequency resource allocation for allocating the frequency band to which the specific frequency band identified above belongs among frequency band allocation information to be allocated and frequency bands corresponding to the cell boundary region of the base station apparatus 100 according to the frequency reuse factor. Resource allocation control information for generating resource allocation information of the base station apparatus 100 including the information may be determined.

In other words, the resource allocation control information determining unit 130 is a frequency resource used in a cell center region which is less affected by signal interference from the interfering base station among the cell regions of the base station apparatus 100 and is the same frequency as the cell center region of the interfering base station. It is to determine the resource allocation control information for allocating a band and allocating a frequency band not allocated by the interfering base station as a frequency resource used in a cell boundary region affected by signal interference from the interfering base station.

Thus, according to the resource allocation control information determined by the resource allocation control information determining unit 130, the resource allocation information set in the base station 1,2, is not updated, the base station apparatus 100 to minimize the signal interference with the base station 1,2 Resource allocation information will be generated.

On the other hand, if the resource allocation control information determination unit 130 determines whether a specific frequency band exists according to the case of supporting the above-described first or second method, the interference base station, that is, the base station The resource allocation control information may be determined differently depending on whether the frequency reuse factor related to the cell boundary region of 1,2 is equal to or less than a specific reference coefficient.

More specifically, the resource allocation control information determination unit 130, when the frequency reuse factor associated with the cell boundary region of the base station 1, 2 is less than a specific reference coefficient (for example, 2) or less, increases the frequency reuse coefficient and adds to the cell boundary region. The corresponding frequency band is divided according to the increased frequency reuse factor, and some of the divided frequency bands are allocated to the cell boundary region of the base station apparatus 100, and other portions are allocated to the cell boundary region of the base station 1, and another portion is allocated. The resource allocation control information is determined to allocate to the cell boundary area of the base station 2.

That is, the resource allocation control information determining unit 130 determines resource allocation control information for generating resource allocation information of the base station apparatus 100 and updating the resource allocation information of the interfering base station, that is, the base stations 1 and 2.

More specifically, the resource allocation control information determination unit 130, the frequency reuse coefficient increased by one more than the frequency reuse coefficients of the base station 1, 2, the cell center of the base station 1, 2 in the cell center region of the base station apparatus 100; Frequency resource allocation information for allocating the same frequency band as the region, and frequency resources for allocating some frequency bands among the frequency bands obtained by dividing the frequency band corresponding to the cell boundary region of the base station apparatus 100 according to an increased frequency reuse factor. Resource allocation control information for generating resource allocation information of the base station apparatus 100 including the allocation information may be determined.

In addition, the resource allocation control information determiner 130 increases the frequency reuse coefficient by 1 in the resource allocation information of the base station 1 and divides the frequency band corresponding to the cell boundary region of the base station 1 according to the increased frequency reuse coefficient by one. The resource allocation control information for updating the resource allocation information of the base station 1 may be determined by changing the frequency resource allocation information for allocating some frequency bands other than the above-described partial frequency bands among the bands among the bands. have.

In addition, the resource allocation control information determiner 130 increases the frequency reuse factor by one in the resource allocation information of the base station 2 and divides the frequency band corresponding to the cell boundary region of the base station 1 according to the increased frequency reuse coefficient by one. Among the bands, the base station apparatus 100 and base station 1 are changed to frequency resource allocation information for allocating some of the aforementioned frequency bands and another frequency band other than the other frequency bands to update the resource allocation information of base station 2. Resource allocation control information can be determined.

Accordingly, according to the resource allocation control information determined by the resource allocation control information determining unit 130, the resource allocation information set in the base station 1, 2 is updated so that the signal interference between the base station 1, 2 and the base station apparatus 100 is minimized, Resource allocation information of the base station apparatus 100 will be generated.

On the other hand, the resource allocation control information determiner 130, if the frequency reuse factor associated with the cell boundary region of the base station 1,2 is not less than a specific reference coefficient (for example, 2), the received signal strength of the base station 1,2, the most The resource allocation control information is determined so that the frequency band allocated to the cell boundary region of the small base station is allocated to the cell boundary region of the base station apparatus 100.

That is, the resource allocation control information determination unit 130 determines the resource allocation control information for generating the resource allocation information of the base station apparatus 100.

In more detail, the resource allocation control information determination unit 130 checks the received signal strength of the base stations 1 and 2 based on the neighbor base station information (signal reception power (RSRP)) of the base stations 1 and 2 mentioned above. The base station having the smallest received signal strength can be identified.

For example, when the base station 1 is identified as the base station with the smallest received signal strength, the resource allocation control information determining unit 130 has the same frequency reuse coefficient as the base stations 1 and 2 and the base station 1 in the cell center region of the base station apparatus 100. The above-described identified base station 1 among the frequency resource allocation information for allocating the same frequency band as the cell center region of 2, and the frequency bands corresponding to the cell boundary region of the base station apparatus 100 according to the frequency reuse factor. The resource allocation control information for generating the resource allocation information of the base station apparatus 100 including the frequency resource allocation information for allocating the frequency band allocated to the cell boundary region may be determined.

Thus, according to the resource allocation control information determined by the resource allocation control information determining unit 130, the resource allocation information set in the base station 1,2, is not updated, the base station apparatus 100 to minimize the signal interference with the base station 1,2 Resource allocation information will be generated.

Thus, the base station apparatus 100, based on the resource allocation information generated according to the resource allocation control information determined to minimize the signal interference as described above, the terminal located in the cell center region of the frequency band assigned to the cell center region By allocating resources and allocating resources of a frequency band allocated to the cell boundary region to a terminal located in the cell boundary region, a communication service will be provided to the terminal.

Here, the cell regions of the base stations 1 and 2 and the base station apparatus 100 may be divided into a cell center region and a cell boundary region by a preset threshold.

Accordingly, when the base station apparatus 100 receives the channel quality information about the base station apparatus 100 from the terminal, the base station apparatus 100 checks the channel quality index (eg, CQI: channel quality indicator) or signal receiving power (RSRP). By comparing the power with a predetermined threshold value, it is possible to determine whether the terminal is located in the cell center region or the cell boundary region in the cell region of the base station apparatus 100.

Accordingly, the base station apparatus 100 allocates a resource of a frequency band in which signal interference with the base stations 1 and 2 is minimal to the terminal connected in the cell boundary region based on the resource allocation information generated according to the resource allocation control information. Could be.

Of course, the base stations 1 and 2 may also allocate resources in a frequency band where signal interference is minimal to terminals connected in their cell boundary regions based on their resource allocation information updated according to the resource allocation control information. .

On the other hand, the base station apparatus 100 according to the present invention may further include an interference load information acquisition unit 140.

The interference load information acquisition unit 140 obtains interference load information related to the presence or absence of a terminal located in each of the interference base station, that is, the cell boundary region and the cell center region of the base stations 1 and 2.

Here, referring to the base station 1 to describe the interference load information of the base station 1, the interference load information may indicate the number of terminals located in the cell boundary region of the base station 1 and the number of terminals located in the cell center region of the base station 1. .

In addition, the base stations 1 and 2 generate / manage their own interference load information, and the terminal appears in the situation where the terminal does not exist in at least one of the cell boundary region or the cell center region or the terminal exists. If this does not exist, the interference load information may be provided to another base station, for example, the base station apparatus 100 of the present invention.

Accordingly, the interference load information acquisition unit 140 may receive and acquire the interference load information from the base stations 1 and 2 in the same manner as described above.

When the resource allocation control information determining unit 130 determines that the terminal does not exist in the cell boundary region of the base stations 1 and 2 based on the obtained interference load information, the base station apparatus regardless of signal interference with the base stations 1 and 2 is determined. The resource allocation control information may be determined to allocate at least a portion of the frequency bands corresponding to the cell boundary region of 100 to the cell boundary region of the base station apparatus 100.

That is, the control information determining unit 530 is likely to receive signal interference from the base stations 1 and 2 to the terminals connected in the cell boundary regions of the base station apparatus 100 if the terminals are not present in the cell boundary regions of the base stations 1 and 2. Since it is small, the process of considering signal interference with the base stations 1 and 2 as described above is excluded, and at least a part of the frequency bands corresponding to the cell boundary area is basically assigned to the cell boundary area of the base station apparatus 100 according to the allocation scheme. Resource allocation control information can be determined to allocate.

Accordingly, according to the resource allocation control information determined by the resource allocation control information determining unit 130, the resource allocation information set in the base stations 1 and 2 is not updated, and the base station apparatus 100 does not consider signal interference with the base stations 1 and 2. Resource allocation information will be generated.

On the other hand, the resource allocation control information determiner 130, based on the obtained interference load information, if it is confirmed that the terminal exists only in the cell boundary region of the base station 1, 2, and the terminal does not exist in the cell center region, the entire frequency The band is divided according to the frequency reuse coefficients of the base stations 1 and 2, and some of the divided frequency bands are allocated to the cell boundary region of the base station apparatus 100, and another portion is allocated to the cell boundary region of the base station 1, and another portion is The resource allocation control information is determined to allocate to the cell boundary region of 2.

That is, the resource allocation control information determining unit 130 does not allocate frequency resources to the cell center regions of the base stations 1 and 2 and the base station apparatus 100, and allocates all frequency bands of the assignable frequency resources to the base station 1 and 2 frequencies. The resource allocation control information for allocating different frequency bands among the divided frequency bands according to the reuse factor and assigning them to the cell boundary regions of the base station 1 and the base station apparatus 100 can be determined.

Accordingly, according to the resource allocation control information determined by the resource allocation control information determining unit 130, the resource allocation information set in the base station 1, 2 is updated so that the signal interference between the base station 1, 2 and the base station apparatus 100 is minimized, Resource allocation information of the base station apparatus 100 will be generated.

Meanwhile, in the above description, the base station apparatus 100 dominantly performs the interference control function, but this is only an example. That is, if one of the base stations 1 and 2, for example, the base station 1 reaches the preset interference control period and starts the interference control function, the base station 1 will correspond to the base station apparatus 100 described above.

As described above, according to the base station apparatus according to the present invention, in a situation where the base station is irregularly installed, in a situation where a separate central control unit is not configured, without a manager or user operation, by organizing itself between base stations Inter-cell interference can be minimized by the base station determining and / or updating resource allocation information of itself and / or neighboring interfering base stations based on resource allocation information and load information of neighboring base stations.

Accordingly, according to the base station apparatus according to the present invention, since cell interference can be minimized in a situation where base stations are irregularly densified, consequently, the transmission rate at the cell boundary is improved, and the downlink transmission rate and handover success rate are improved. Can further induce.

Hereinafter, an operation method of a base station apparatus according to the present invention will be described with reference to FIGS. 3 to 4.

First, an operation flow of a communication system including a base station apparatus according to the present invention will be described with reference to FIG. 3.

The base station apparatus 100 initiates an interference control function capable of determining or updating resource allocation information of itself and / or the interfering base station at a specific time point (S10). In this case, the specific time point may be a time point when the base station apparatus 100 is newly installed and starts driving, or may be a time point when a preset interference control period is reached.

Accordingly, the base station apparatus 100 confirms the interference base station generating signal interference adjacent to the base station apparatus 100 (S20). For convenience of explanation, base stations 1 and 2 will be referred to as the identified interfering base stations.

Thereafter, the base station apparatus 100 obtains the resource allocation information of the identified interfering base station, that is, the base stations 1 and 2 (S30).

For example, the base station apparatus 100 may obtain IP information of the base stations 1 and 2 identified as the interference base station from the base station information DB 200, and may be connected to the base stations 1 and 2 using the obtained IP information. For example, the base station apparatus 100 may use the IP information to make X2 interface connection with the base stations 1,2.

Thus, the base station apparatus 100 may obtain resource allocation information from each of the connected base stations 1,2.

The base station apparatus 100 generates the resource allocation information of the base station apparatus 100 itself or minimizes the resources of the base stations 1,2 based on the resource allocation information of the base stations 1,2, based on the resource allocation information of the base stations 1,2. The resource allocation control information for updating the allocation information or generating the resource allocation information of the base station apparatus 100 and updating the resource allocation information of the base stations 1 and 2 is determined (S40).

Accordingly, the base station apparatus 100, based on the resource allocation information generated according to the resource allocation control information determined to minimize the signal interference as described above, the resources located in the cell center region to the terminal located in the cell center region And allocating the resources of the frequency band allocated to the cell boundary region to the terminal located in the cell boundary region (S50), the communication service will be provided to the terminal.

That is, the base station apparatus 100 allocates resources of a frequency band in which signal interference with the base stations 1 and 2 is minimal to terminals connected in the cell boundary region based on the resource allocation information generated according to the resource allocation control information. Could be.

On the other hand, the base station apparatus 100, if the resource allocation control information for updating the resource allocation information of the base station 1,2, in step S40 is determined may provide the determined resource allocation control information to the base station 1,2 (S60). .

Accordingly, the base stations 1 and 2 update the resource allocation information preset to the base station according to the resource allocation control information (S70), and the terminal located in the cell central region is allocated to the cell central region based on the updated resource allocation information. By allocating the resources of the frequency band, and by assigning the resources of the frequency band allocated to the cell boundary region to the terminal located in the cell boundary region, it will provide a communication service to the terminal.

Hereinafter, a method of operating a base station apparatus according to an exemplary embodiment of the present invention will be described in detail with reference to FIG. 4.

In the method of operating a base station apparatus according to the present invention, a base station identifier (Cell ID) and a signal reception power (RSRP) from a corresponding base station are received by receiving a downlink signal from an adjacent base station periodically or when a predetermined measurement event occurs. By measuring the received power, neighboring base station information including a base station identifier (Cell ID) and a signal receiving power (RSRP) may be obtained with respect to at least one adjacent base station (S100).

In addition, in the method of operating a base station apparatus according to the present invention, a base station supporting an interference control function among adjacent base stations identified based on neighbor base station information is identified as an interference base station, and the interference base station is determined by using IP information of the identified base station base station. Connect to (S110). Hereinafter, for convenience of description, a case where base stations 1,2 are identified as an interference base station will be described.

In the method of operating a base station apparatus according to the present invention, resource allocation information can be obtained from each of the connected base stations 1,2.

Here, referring to the base station 1 to describe the resource allocation information of the base station 1, the resource allocation information is assigned to the frequency reuse coefficient set for the interference control region, that is, the cell boundary region of the cell region of the base station 1, the cell center region of the base station 1 Frequency resource allocation information for the frequency band to be included and the frequency resource allocation information for the frequency band allocated to the cell boundary region of the base station 1.

In addition, the operation method of the base station apparatus according to the present invention, acquires the interference load information related to the presence of the terminal located in each of the cell boundary region and the cell center region of the base station 1, 2 (S130).

Here, referring to the base station 1 to describe the interference load information of the base station 1, the interference load information may indicate the number of terminals located in the cell boundary region of the base station 1 and the number of terminals located in the cell center region of the base station 1. .

The operation method of the base station apparatus according to the present invention, based on the obtained interference load information, it is determined whether the terminal does not exist in the cell boundary region of the base station 1, 2 (S140).

In the operation method of the base station apparatus according to the present invention, if it is confirmed in step S140 that the terminal does not exist in the cell boundary region of the base station 1, 2, the base station 1,2 is connected to the terminal connected in the cell boundary region of the base station apparatus 100; Since the possibility of receiving signal interference from the base station is small, at least a portion of the frequency bands corresponding to the cell boundary region is allocated to the cell boundary region of the base station apparatus 100 according to the allocation scheme basically set regardless of the signal interference with the base stations 1,2. Resource allocation control information can be determined to (S145).

Accordingly, in the method of operating the base station apparatus according to the present invention, the resource allocation information set in the base stations 1 and 2 is not updated according to the resource allocation control information determined in step S145, and the signal interference with the base stations 1 and 2 is not considered. Resource allocation information of the base station apparatus 100 may be generated.

On the other hand, in the operation method of the base station apparatus according to the present invention, if it is determined in step S140 that the terminal exists in the cell boundary region of the base station 1, 2, the terminal exists only in the cell boundary region of the base station 1, 2 and the cell center region Check whether the terminal does not exist (S150).

In the operation method of the base station apparatus according to the present invention, when it is confirmed in step S150 that the terminal exists only in the cell boundary regions of the base stations 1,2, the base station apparatus 1 and the base station apparatus 100 allocates a frequency resource to the cell center region of the base station apparatus 100; Instead, the total frequency bands of the assignable frequency resources are divided according to the frequency reuse coefficients of the base stations 1 and 2, and different frequency bands among the divided frequency bands are allocated to the cell boundary regions of the base stations 1 and 2 and the base station apparatus 100. Resource allocation control information to be determined can be determined (S155).

Accordingly, in the method of operating the base station apparatus according to the present invention, the resource allocation information set in the base station 1, 2 so that the signal interference between the base station 1, 2 and the base station apparatus 100 is minimized according to the resource allocation control information determined in step S155. To update the resource allocation information of the base station apparatus 100.

On the other hand, in the operation method of the base station apparatus according to the present invention, if it is determined that the terminal exists in the cell center region and cell boundary region of the base station 1, 2, in step S150, based on the resource allocation information of the base station 1, 2, Generating resource allocation information of the base station apparatus 100, updating resource allocation information of base stations 1,2, or generating resource allocation information of the base station apparatus 100 such that signal interference with the first and second signals is minimized. Resource allocation control information for updating resource allocation information of 2, is determined.

More specifically, the operation method of the base station apparatus according to the present invention, based on the resource allocation information of the base station 1, 2 identified as the interference base station, at least one of the cell center region and the cell boundary region of the base station 1, 2 It is checked whether there is a specific frequency band not allocated to the region (S160).

In operation method of the base station apparatus according to the present invention, if there is a specific frequency band that has not been allocated as a result of checking in step S160, the resource allocation control information is determined to allocate the specific frequency band to the cell boundary region of the base station apparatus 100. (S165).

More specifically, the operation method of the base station apparatus according to the present invention, the same frequency reuse coefficient as the base station 1, 2, the same frequency band as the cell center region of the base station 1, 2 in the cell center region of the base station apparatus 100 Frequency resource allocation for allocating the frequency band to which the specific frequency band identified above belongs among frequency band allocation information to be allocated and frequency bands corresponding to the cell boundary region of the base station apparatus 100 according to the frequency reuse factor. Resource allocation control information for generating resource allocation information of the base station apparatus 100 including the information may be determined.

Accordingly, in the method of operating the base station apparatus according to the present invention, the resource allocation information set in the base stations 1 and 2 is not updated according to the resource allocation control information determined in step S165, and the signal interference with the base stations 1 and 2 is minimized. Resource allocation information of the base station apparatus 100 can be generated.

On the other hand, in the method of operating the base station apparatus according to the present invention, if there is no specific frequency band allocated as a result of checking in step S160, the frequency reuse factor related to the cell boundary region of the interfering base station, i. The resource allocation control information may be determined differently according to the determination result of S170 determining whether or not the information is recognized.

According to an operation method of the base station apparatus according to the present invention, if the frequency reuse factor related to the cell boundary region of the base stations 1 and 2 is equal to or less than a specific reference coefficient (for example, 2) as a result of the determination of S170, the frequency reuse coefficient is increased to the cell boundary region. The corresponding frequency band is divided according to the increased frequency reuse factor, and some of the divided frequency bands are allocated to the cell boundary region of the base station apparatus 100, and other portions are allocated to the cell boundary region of the base station 1, and another portion is allocated. Resource allocation control information is determined to allocate to the cell boundary area of the base station 2 (S180).

More specifically, the operation method of the base station apparatus according to the present invention, the frequency reuse coefficient increased by one more than the frequency reuse coefficient of the base station 1, 2, the cell center of the base station 1, 2 in the cell center region of the base station apparatus 100 Frequency resource allocation information for allocating the same frequency band as the region, and frequency resources for allocating some frequency bands among the frequency bands obtained by dividing the frequency band corresponding to the cell boundary region of the base station apparatus 100 according to an increased frequency reuse factor. Resource allocation control information for generating resource allocation information of the base station apparatus 100 including the allocation information may be determined.

In addition, according to the present invention, an operation method of a base station apparatus includes: increasing a frequency reuse factor by 1 in resource allocation information of base station 1 and dividing a frequency band corresponding to the cell boundary region of base station 1 according to an increased frequency reuse factor by 1; The resource allocation control information for updating the resource allocation information of the base station 1 may be determined by changing the frequency resource allocation information for allocating some frequency bands other than the above-described partial frequency bands among the bands among the bands. have.

In addition, according to the present invention, a method of operating a base station apparatus includes: increasing a frequency reuse factor by 1 in resource allocation information of base station 2 and dividing a frequency band corresponding to the cell boundary region of base station 1 according to an increased frequency reuse factor by 1; Among the bands, the base station apparatus 100 and base station 1 are changed to frequency resource allocation information for allocating some of the aforementioned frequency bands and another frequency band other than the other frequency bands to update the resource allocation information of base station 2. Resource allocation control information can be determined.

Thus, the method of operating the base station apparatus according to the present invention, according to the resource allocation control information determined in S180, resource allocation information set in the base station 1, 2 so that the signal interference between the base station 1, 2 and the base station apparatus 100 is minimized The resource allocation information of the base station apparatus 100 can be generated.

On the other hand, the operation method of the base station apparatus according to the present invention, if the frequency reuse factor associated with the cell boundary region of the base station 1, 2 is not less than a specific reference coefficient (for example, 2) as a result of the determination in S170 Resource allocation control information is determined to allocate a frequency band allocated to the cell boundary region of the base station having the smallest signal strength to the cell boundary region of the base station apparatus 100 (S190).

In more detail, the method of operating the base station apparatus according to the present invention checks the received signal strength of the base stations 1 and 2 based on the neighbor base station information (signal receiving power (RSRP)) of the base stations 1 and 2 mentioned above. Thus, the base station having the smallest received signal strength can be identified.

For example, when the base station 1 is identified as the base station with the smallest received signal strength, the operation method of the base station apparatus according to the present invention includes the same frequency reuse factor as the base stations 1 and 2, and the base station 1 in the cell center region of the base station apparatus 100. The above-described identified base station 1 among the frequency resource allocation information for allocating the same frequency band as the cell center region of 2, and the frequency bands corresponding to the cell boundary region of the base station apparatus 100 according to the frequency reuse factor. The resource allocation control information for generating the resource allocation information of the base station apparatus 100 including the frequency resource allocation information for allocating the frequency band allocated to the cell boundary region may be determined.

Accordingly, in the method of operating the base station apparatus according to the present invention, the resource allocation information set in the base stations 1 and 2 is not updated according to the resource allocation control information determined in step S190, and the signal interference with the base stations 1 and 2 is minimized. Resource allocation information of the base station apparatus 100 can be generated.

 Therefore, the method of operating the base station apparatus according to the present invention, based on the resource allocation information generated according to the resource allocation control information determined in step S145 or S155 or S165 or S180 or S190 described above, By allocating resources of a frequency band allocated to the central region, and in particular, a terminal located in a cell boundary region is allocated a resource of a frequency band where signal interference is minimal, thereby providing a communication service to the terminal.

As described above, according to the operating method of the base station apparatus according to the present invention, in a situation where the base station is irregularly installed, in a situation where a separate central control unit is not configured, without an administrator or a user, self-organization between base stations Thus, one base station can determine and / or update resource allocation information of itself and / or neighboring base stations based on resource allocation information and load information of neighboring base stations, thereby minimizing inter-cell interference.

Therefore, according to the operating method of the base station apparatus according to the present invention, since cell interference can be minimized in a situation where the base stations are irregularly densely formed, as a result, the transmission rate at the cell boundary is improved, and the downlink transmission rate and handover success rate The effect of improving the back can be further induced.

A method of operating a base station apparatus according to an embodiment of the present invention may be implemented in the form of program instructions that can be executed by various computer means and recorded in a computer readable medium. The computer readable medium may include program instructions, data files, data structures, etc. alone or in combination. Program instructions recorded on the media may be those specially designed and constructed for the purposes of the present invention, or they may be of the kind well-known and available to those having skill in the computer software arts. Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks, and magnetic tape, optical media such as CD-ROMs, DVDs, and magnetic disks, 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 not only machine code generated by a compiler, but also high-level language code that can be executed by a computer using an interpreter or the like. The hardware device described above may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

Although the present invention has been described in detail with reference to preferred embodiments, the present invention is not limited to the above-described embodiments, and the technical field to which the present invention belongs without departing from the gist of the present invention as claimed in the following claims. Anyone skilled in the art will have the technical idea of the present invention to the extent that various modifications or changes are possible.

According to an operation method of a base station apparatus and a base station apparatus according to the present invention, in a situation in which base stations are irregularly installed, self-organization among base stations is performed based on resource allocation information and load information of base stations in which one base station is proximately adjacent. And / or the commercialization of the applied device, not only the use of the related technology as it overcomes the limitations of the existing technology in terms of minimizing inter-cell interference by determining and / or updating resource allocation information of neighboring base stations. It is an invention with industrial applicability, since the possibility of business is not only sufficient but also practically obvious.

100: base station apparatus
110: interference base station identification unit 120: resource allocation information acquisition unit
130: resource allocation control information determination unit 140: interference load information acquisition unit

Claims (16)

A base station apparatus having an interference control function,
An interfering base station confirming unit for identifying an interfering base station generating signal interference based on a signal received from an adjacent base station;
A resource allocation information acquisition unit for acquiring resource allocation information of the interfering base station;
Based on the resource allocation information of the interfering base station, whether the terminal exists in the cell boundary region of the cell region of the interfering base station, and if the terminal exists in the cell center region of the interfering base station if the terminal exists in the cell boundary region. Depending on whether or not, the resource allocation information of the base station apparatus is generated, the resource allocation information of the base station apparatus is updated, or the resource allocation information of the base station apparatus is generated such that signal interference with the interfering base station is minimized. And a resource allocation control information determining unit for determining resource allocation control information for updating the resource allocation information of the interfering base station.
The resource allocation control information determination unit,
Determining the resource allocation control information to allocate the specific frequency band to the cell boundary region of the base station apparatus when a specific frequency band not allocated to at least one of the cell center region and the cell boundary region of the interference base station is identified. Base station apparatus, characterized in that. The method of claim 1,
The resource allocation information,
And a frequency resource allocation information for a frequency band allocated to a cell center region among the cell regions of the interference base station or the base station apparatus and frequency resource allocation information for a frequency band allocated to a cell boundary region. delete The method of claim 1,
The resource allocation control information determination unit,
And the resource allocation control information is determined differently depending on whether the frequency reuse factor related to the cell boundary region of the interfering base station is equal to or less than a specific reference coefficient if the specific frequency band is not identified. The method of claim 4, wherein
The resource allocation control information determination unit,
If the frequency reuse factor of the interfering base station is less than or equal to the specific reference coefficient, increase the frequency reuse factor, divide a frequency band corresponding to the cell boundary region according to the increased frequency reuse factor, and partially divide the frequency band. And the resource allocation control information is determined so as to allocate to a cell boundary region of the base station apparatus and to assign another portion to a cell boundary region of the interfering base station. The method of claim 4, wherein
The resource allocation control information determination unit,
When the frequency reuse factor of the interfering base station is not equal to or less than the specific reference coefficient, the frequency band allocated to the cell boundary area of the interfering base station having the smallest received signal strength among the interfering base stations is allocated to the cell boundary area of the base station apparatus. A base station apparatus, characterized in that for determining resource allocation control information. The method of claim 1,
And an interference load information acquisition unit for obtaining interference load information relating to the presence or absence of a terminal located in each of a cell boundary region and a cell center region of the interference base station. The method of claim 7, wherein
The resource allocation control information determination unit,
On the basis of the interference load information, when it is confirmed that the terminal does not exist in the cell boundary region of the interfering base station, at least a part of frequency bands corresponding to the cell boundary region of the base station apparatus regardless of signal interference with the interfering base station And the resource allocation control information is determined so as to allocate a number to a cell boundary area of the base station apparatus. The method of claim 7, wherein
The resource allocation control information determination unit,
If it is confirmed that the terminal exists only in the cell boundary region of the interfering base station based on the interference load information, the entire frequency band associated with the interfering base station is divided according to the frequency reuse coefficient of the interfering base station, and among the divided frequency bands. And the resource allocation control information is determined so as to allocate a portion to a cell boundary region of the base station apparatus and to assign a portion to the cell boundary region of the interference base station. In the operation method of a base station apparatus having an interference control function,
An interfering base station identifying step of identifying an interfering base station causing signal interference based on a signal received from an adjacent base station;
Acquiring resource allocation information for acquiring resource allocation information of the interfering base station;
Based on the resource allocation information of the interfering base station, whether the terminal exists in the cell boundary region of the cell region of the interfering base station, and if the terminal exists in the cell center region of the interfering base station if the terminal exists in the cell boundary region. Depending on whether or not, the resource allocation information of the base station apparatus is generated, the resource allocation information of the base station apparatus is updated, or the resource allocation information of the base station apparatus is generated such that signal interference with the interfering base station is minimized. And determining resource allocation control information for updating the resource allocation information of the interfering base station.
The resource allocation control information determination step,
Determining the resource allocation control information to allocate the specific frequency band to the cell boundary region of the base station apparatus when a specific frequency band not allocated to at least one of the cell center region and the cell boundary region of the interference base station is identified. Method of operation of the base station apparatus, characterized in that. delete delete delete delete delete delete

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