KR20150027646A - Base station and control method thereof - Google Patents

Abstract

In a virtual cell environment in which one cell is formed by allocating the same cell identification information (PCI) to two or more cells, at least two or more cells in an optimal time for a terminal located in an overlapping region in which two or more cells overlap, It is possible to provide a base station apparatus and an operation method of a base station apparatus capable of satisfying the efficiency increase effect of radio resource operation while achieving the effect of reducing the intercell interference which is the original purpose of the virtual cell environment by making use of the same communication service through all of the cells do.

Description

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

In an environment where one cell is formed by allocating the same cell identification information (PCI) to two or more cells, in an environment where two or more cells are overlapped, The present invention relates to a base station apparatus and an operation method of a base station apparatus that balance the inter-cell interference reduction effect and the radio resource operation efficiency enhancement effect by making use of the same communication service.

In the existing LTE system, high-speed communication service can be supported. However, as the type of communication service and the speed of transmission demand have become diverse, there is an increasing demand for faster speed communication systems.

Recently, an LTE-A (Advanced) communication system has emerged as a high-speed communication system capable of supporting a wider band than an existing LTE system.

One of the functions of the LTE-A communication system, Transmission Mode 9 (TM-9), is used in place of the CRS (Cell Specific Reference Signal) which is supported for channel state estimation in the TM- And supports a channel state information reference signal (RS).

Therefore, in the LTE-A communication system, by utilizing the CSI-RS signal supported by the TM-9, one cell can be formed by allocating the same cell identification information (PCI: Physical Cell ID) This reduces interference at the cell boundary and allows the mobile station to move without inter-cell handover within one virtual cell.

In this LTE-A communication system, since the same cell identification information (PCI) is allocated to two or more cells to form one virtual cell, for terminals located in overlapping areas where cells, for example, C1 and C2 overlap, And allocates the same radio resources to the terminals in each of them, thereby simultaneously providing the same communication service through C1 and C2. On the other hand, in the LTE-A communication system, a terminal located in the central region of each cell C1 and C2, not the overlapping region, allocates a separate radio resource to each terminal in each of the cells C1 and C2, Provide communication service.

However, assigning the same radio resources to the terminals C1 and C2 for the terminals located in the overlapping area as described above is a factor that lowers the efficiency in radio resource management.

Thus, in the present invention, in the environment where one cell is formed by allocating the same cell identification information (PCI) to two or more cells as described above, an effect of reducing inter-cell interference can be achieved, We want to balance the effects.

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances and an object of the present invention is to provide an apparatus and a method for allocating two or more cells in an environment where two or more cells are allocated the same cell identification information A base station apparatus and a base station which balance the inter-cell interference reduction effect and the radio resource operation efficiency increase effect by using the same communication service through all two or more cells at the optimal time for the terminal located in the overlapped overlap region And a method of operating the device.

In order to achieve the above object, a base station apparatus according to a first aspect of the present invention includes: a terminal confirmation unit for confirming a terminal using a communication service through a specific cell among two or more adjacent cells using the same cell identification information; A position determiner for determining whether the terminal is located in an overlapping region in which the two or more cells overlap, based on the uplink signal based on the cell identification information received through each of the two or more cells from the terminal; And a determination unit for determining whether or not the terminal is located in the overlap area according to whether the downlink state of the terminal for the specific cell is in a predetermined deteriorated state when it is determined that the terminal is located in the overlap area, .

Preferably, the terminal may further include a communication service providing unit for allowing the terminal to use the same communication service through all of the two or more cells if the terminal is determined to be located in the overlapping area.

The determination controller may determine whether the downlink state of the terminal is in the deteriorated state based on the measured downlink signal values for each of the two or more cells in the terminal.

Preferably, if the downlink signal measurement value measured for the specific cell is less than or equal to a preset deterioration threshold value based on the downlink signal measurement value for each cell, the determination control unit determines that the downlink state of the terminal is the deteriorated state .

Preferably, the determination controller determines a downlink signal measurement value for the specific cell based on the downlink signal measurement value for each cell, and a downlink signal measurement value for the remaining cells excluding the specific cell, If the difference between the signal measurement values is smaller than a specific offset value, it can be confirmed that the downlink state of the terminal is in the deteriorated state.

According to a second aspect of the present invention, there is provided a method of operating a base station, the method comprising: identifying a terminal using a communication service through a specific cell among adjacent two or more cells using the same cell identification information; A position determining step of determining whether the terminal is located in an overlapping area in which the two or more cells are overlapped based on the uplink signal based on the cell identification information received through each of the two or more cells from the terminal; And a determination step of determining whether or not the terminal is located in the overlap area according to whether the downlink state of the terminal for the specific cell is in a predetermined deterioration state when it is determined that the terminal is located in the overlap area, .

Preferably, the terminal may further include a communication service providing step of allowing the terminal to use the same communication service through all of the two or more cells if the terminal is determined to be located in the overlapping area.

Preferably, the decision control step may determine whether the downlink state of the UE is in the degraded state, based on the measured downlink signal values for each of the two or more cells in the UE.

Preferably, if the downlink signal measurement value measured for the particular cell is less than or equal to a preset deterioration threshold value based on the downlink signal measurement value for each cell, it can be confirmed that the downlink state of the terminal is in the degraded state .

Preferably, the decision controlling step comprises: a downlink signal measurement value measured for the specific cell based on the downlink signal measurement value for each cell; and a downlink signal measurement value for the remaining cells excluding the specific cell, If the difference between the link signal measurement values is smaller than a specific offset value, it can be confirmed that the downlink state of the UE is in the degraded state.

According to the base station apparatus and the base station apparatus of the present invention, in a virtual cell environment in which two or more cells are assigned the same cell identification information (PCI) to form one virtual cell, By using the same communication service through all of two or more cells at the optimal time for the terminal located at the optimal location, it is possible to achieve the effect of reducing the intercell interference, which is the original purpose of the virtual cell environment, .

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

As shown in Fig. 1, in a communication system, two or more cells are formed adjacent to each other. At this time, in the present invention, C1 and C2 will be described as two cells as shown in Fig.

The modules 1 and 2 forming each of the cells C1 and C2 may be different base station devices or different base station devices having DU (Digital Unit) and RU (Remote Unit) Or may be different RUs of the same base station apparatus having the DU and RU separable structure.

In a specific communication system, for example, an LTE-A communication system, the same cell identification information (PCI) is allocated to two or more adjacent cells, that is, a cell C1 and a cell C2, by utilizing a CSI- ) Can be allocated to form one virtual cell (C, C1 + C2), thereby reducing the interference at the boundary between the cell C1 and the cell C2, The mobile station can move without performing handover between the cell C1 and the cell C2.

At this time, in the LTE-A communication system, since the same cell identification information (PCI) is allocated to the cell C1 and the cell C2 to form one virtual cell C, The same radio resources are allocated to the terminals in the cell C1 and the cell C2 for the terminals located in the overlapped area a in which the cells overlap each other at the same time .

Hereinafter, for convenience of description, a mode in which the base station apparatus in the LTE-A communication system simultaneously provides the same communication service to the terminal through two or more cells, for example, the cell C1 and the cell C2 is referred to as a common communication mode .

On the other hand, in the LTE-A communication system, in the cell C1 and the terminal C2 located in the central region of the cell C2, To the terminal, thereby providing a communication service through the cell C1 or the cell C2.

The present invention is an environment in which one virtual cell (C, C1 + C2) is formed by allocating the same cell identification information (PCI) to two or more adjacent cells (e.g., C1 and C2) ).

Therefore, the terminal 10 to be described later in the present invention is capable of using the communication service in the virtual cell environment in which one virtual cell (C, C1 + C2) is formed by the above-described specific specification, Specification terminal, for example, a TM-9 terminal.

For convenience of explanation, the modules (1, 2) forming each cell C1 and the cell C2 are different from each other in the base station apparatus (100 in FIG. 2) according to the preferred embodiment of the present invention RU.

Accordingly, the base station apparatus 100 according to the present invention is able to use the terminal 10 using a communication service through a specific one of two or more adjacent cells using the same cell identification information (PCI), that is, a cell C1 and a cell C2 Check.

If the terminal 10 is located in the central region of the cell C1 as shown in Fig. 1, the above-mentioned specific cell will be C1.

That is, the base station apparatus 100 can identify the terminal 10 using the communication service through the specific cell, that is, the cell C1, among the adjacent cells C1 and C2 using the same cell identification information (PCI) have.

In other words, the base station apparatus 100 provides a communication service to the terminal 10 through the cell C1 by allocating a separate radio resource to the terminal 10 as before in the cell C1.

At this time, basically, in the virtual cell environment, the base station apparatus 100 generates, based on the common CRS signal for the cell C1 and the cell C2 and the unique CSI-RS signal for the cell C1, To the terminal 10 by transmitting a downlink signal including a signal, e.g., data and / or control information (e.g., synchronization information, a data processing method (e.g., MCS) C1). ≪ / RTI >

The CRS signal is related to the cell identification information PCI used in the cell and because the cell identification information PCI used in the cell C1 and the cell C2 is the same, And the CRS signal for the < / RTI >

The terminal 10 recognizes the virtual cell C based on the common CRS signal and recognizes the cell C1 receiving the communication service based on the unique CSI-RS signal for the cell C1 And can perform data demodulation using information in the CSI-RS signal (e.g., MCS, etc.).

Basically, in the virtual cell environment, the terminal 10 transmits the uplink signal based on the cell identification information (PCI).

In other words, based on the cell identification information PCI, the terminal 10 transmits the uplink signal including the uplink signal such as the reception Ack / Nack and / or the data and / or control information (e.g., RSRP, RSRQ, And transmits an uplink signal. Accordingly, the base station apparatus 100 can provide a communication service to the terminal 10 via the cell C1 by receiving the uplink signal based on the cell identification information (PCI) from the terminal 10. [

At this time, the base station apparatus 100 determines whether or not the terminal 10 is located in the cell C1 and the cell C2 based on the uplink signal, in particular, the signal including the SRS (Sounding Reference Signal) It can be judged whether or not it is located in the overlapped overlap region a.

More specifically, since the terminal 10 transmits the SRS signal based on the cell identification information (PCI) used equally in the cell C1 and the cell C2, the SRS signal from the terminal 10 is transmitted to the cell Lt; RTI ID = 0.0 > C1, < / RTI >

1, when the terminal 10 is located in the central region of the cell C1, the strength of the SRS signal received through the cell C1 and the strength of the SRS signal received through the cell C2 The difference between the centuries will be quite large.

However, if the terminal 10 moves in the direction of the overlapping region (a) at the current position, the difference between the SRS signal strength through the cell C1 and the SRS signal strength through the cell C2 will gradually decrease.

The base station apparatus 100 determines that the difference between the intensities of the SRS signals received through the cell C1 and the cell C2 from the terminal 1 is smaller than a predetermined nesting difference value (for example, 3dB) , It can be determined that the terminal 10 is located in the overlapping area (a).

In the virtual cell environment, when it is determined that the terminal 10 is located in the overlapping area (a) based on the strength of the uplink signal, i.e., the SRS signal received from the terminal 10 as described above, A cell C1 and a cell C2 forming the overlap region a with respect to the cell 10 share the same radio resources and simultaneously transmit a downlink signal including the same data to the UE 10 And operates in the communication mode to simultaneously provide the same communication service to the terminal 10 through both the cell C1 and the cell C2.

In the virtual cell environment, not only the effect of achieving the original purpose of reducing the interference between the cell C1 and the cell C2, but also the effect that the terminal 10 moves within the virtual cell C And a combination of two identical data can be obtained. In addition, a variety of effects can be obtained.

However, in the case of the communication system, since the same radio resources are all allocated in the cell C1 and the cell C2 to one terminal 10 located in the overlapping region a in the virtual cell environment, Fall off.

Therefore, in the virtual cell environment, it is necessary to determine the terminal 10 actually located in the overlap area a as accurately as possible, and to provide the communication service in the common communication mode only for the necessary terminal.

Meanwhile, in the communication system, the uplink signal transmitted from the terminal and the downlink state actually experienced by the terminal, that is, the state in which the downlink signal is received may not be symmetrical to each other.

Therefore, the determination of whether or not the terminal 10 is located in the overlap area a based only on the strength of the uplink signal, that is, the SRS signal received from the terminal 10, Is located very close to the overlapping area a but is not actually located in the overlapping area a, the terminal 10 may be mistaken for being located in the overlapping area a.

If it is determined that the terminal 10 is located in the overlap area a based on the strength of the uplink signal, i.e., the SRS signal received from the terminal 10, as in the existing base station apparatus, Operating in the common communication mode immediately may cause a problem that unnecessary operation of the wireless communication terminal 10 in the common communication mode unnecessarily deteriorates further.

Therefore, in the present invention, in the virtual cell environment, the effect of reducing the interference between the cell C1 and the cell C2, which is the original purpose, is to be achieved while satisfying the effect of increasing the efficiency of radio resource management in a balanced manner.

To this end, when it is determined that the terminal 10 is located in the overlap area (a) based on the strength of the uplink signal, that is, the SRS signal received from the terminal 10, The cell C1 is moved in the overlapping area a in accordance with whether or not the downlink state of the terminal 10 with respect to the cell C1 is in a predetermined deteriorated state instead of immediately operating in the common communication mode with respect to the terminal 10, Is located in the < / RTI >

The base station apparatus 100 operates in the common communication mode with respect to the terminal 10 only when the terminal 10 is finally determined to be located in the overlapping area a as a result of the final determination, To use the same communication service through each of two or more cells, that is, through each of the cell C1 and the cell C2.

Hereinafter, the 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.

The base station apparatus 100 according to the present invention includes a terminal check unit 110 for checking a terminal using a communication service through a specific cell among two or more adjacent cells using the same cell identification information, A position determination unit (120) for determining whether the terminal is located in an overlapping region in which the two or more cells overlap, based on the uplink signal based on the cell identification information received through the overlap region (130) for determining whether the terminal is located in the overlapping area according to whether the downlink state of the terminal for the specific cell is in a predetermined deteriorated state.

In addition, the base station apparatus 100 according to the present invention may further include a communication service provider 140.

The communication service providing unit 140 allocates radio resources to terminals connected to the base station apparatus 100 and transmits and receives uplink signals and downlink signals to and from the terminals through the allocated radio resources to provide communication services to the terminals .

The terminal confirmation unit 110 identifies a terminal using a communication service through a specific cell among two or more adjacent cells using the same cell identification information (PCI).

Hereinafter, for convenience of explanation, as described above, the base station apparatus 100 of the present invention forms two or more adjacent cells C1 and C2, and each of the cells C1 and C2 The same cell identification information (PCI) is allocated to one virtual cell (C).

1, if the terminal 10 is located in the central region of the cell C1, the terminal confirmation unit 110 may identify the terminal 10 using the specific communication, i.e., the cell C1, Can be confirmed.

In this case, the communication service provider 140 allocates a separate radio resource to the terminal 10 in the cell C1 to provide the communication service through the cell C1 to the terminal 10 will be.

At this time, basically, in the virtual cell environment, the communication service provider 140 selects, based on the common CRS signal for the cell C1 and the cell C2 and the unique CSI-RS signal for the cell C1, A downlink signal including a downlink signal such as data and / or control information (e.g., synchronization information, a data processing method (e.g., MCS) to be used in data demodulation, etc.) to the terminal 10, The communication service can be provided through the cell C1.

The CRS signal is related to the cell identification information PCI used in the cell and because the cell identification information PCI used in the cell C1 and the cell C2 is the same, And the CRS signal for the < / RTI >

The terminal 10 recognizes the virtual cell C based on the common CRS signal and recognizes the cell C1 receiving the communication service based on the unique CSI-RS signal for the special cell C1 And can perform data demodulation using information in the CSI-RS signal (e.g., MCS, etc.).

Basically, in the virtual cell environment, the terminal 10 transmits the uplink signal based on the cell identification information (PCI).

In other words, based on the cell identification information PCI, the terminal 10 transmits the uplink signal including the uplink signal such as the reception Ack / Nack and / or the data and / or control information (e.g., RSRP, RSRQ, And transmits an uplink signal. The communication service providing unit 140 can provide the communication service through the cell C1 to the terminal 10 by receiving the uplink signal based on the cell identification information (PCI) from the terminal 10. [

The position determination unit 120 determines the position of the terminal 10 based on the uplink signal based on the cell identification information (PCI) received through the two or more cells, that is, the cell C1 and the cell C2, Is located in the overlapping area (a) in which two or more cells, that is, the cell (C1) and the cell (C2) overlap.

That is, the position determination unit 120 determines whether the uplink signal, particularly the SRS signal (hereinafter referred to as the SRS signal), received from the terminal 10 through two or more cells, that is, the cell C1 and the cell C2, It is possible to judge whether or not the terminal 10 is located in the overlap area a where the cell C1 and the cell C2 overlap.

More specifically, since the terminal 10 transmits the SRS signal based on the cell identification information (PCI) used equally in the cell C1 and the cell C2, the SRS signal from the terminal 10 is transmitted to the cell Lt; RTI ID = 0.0 > C1, < / RTI >

1, when the terminal 10 is located in the central region of the cell C1, the strength of the SRS signal received through the cell C1 and the strength of the SRS signal received through the cell C2 The difference between the centuries will be quite large. However, if the terminal 10 moves in the direction of the overlapping region (a) at the current position, the difference between the SRS signal strength through the cell C1 and the SRS signal strength through the cell C2 will gradually decrease.

Due to this, the position determination unit 120 determines that the difference between the intensities of the SRS signals received through the cell C1 and the cell C2 from the terminal 1 is smaller than a preset overlap difference value (e.g., 3 dB) , It can be determined that the terminal 10 is located in the overlap area (a).

If the position determination unit 120 determines that the terminal 10 is located in the overlap region a, the determination control unit 130 determines that the downlink state of the terminal 10 with respect to the cell C1 is in the predetermined deteriorated state It is determined whether the terminal 10 is located in the overlap area a.

If the position determination unit 120 determines that the terminal 10 is located in the overlap area a, the determination control unit 130 determines that two or more cells, i.e., a cell C1 and a cell C2 , It is possible to confirm whether the downlink state of the terminal 10 is in the deteriorated state based on the measured downlink signal value for each cell.

More specifically, the determination control unit 130 determines whether the downlink signal measurement value measured for a specific cell, i.e., the cell C1, based on the downlink signal measurement value of each cell measured by the terminal 10, , It can be confirmed that the downlink state of the terminal 10 is in the deteriorated state.

Alternatively, the judgment control unit 130 may determine the downlink signal measurement value and the measurement result of the downlink signal measurement value for the specific cell, i.e., the cell C1, and the two or more cells, that is, the cell C1, based on the downlink signal measurement value for each cell, And the measured downlink signal measurement value for the cell C2 other than the cell C1 among the cells C2 is smaller than a specific offset value, the downlink state of the terminal 10 is in the deteriorated state Can be confirmed.

A process for checking whether the downlink state of the terminal 10 is in the deteriorated state will be described in more detail as follows.

The determination control unit 130 may perform control for checking the downlink state of the terminal 10 when the position determination unit 120 determines that the terminal 10 is located in the overlapping area a.

For example, the determination control unit 130 transmits a control message to the terminal 10, thereby causing the terminal 10 to transmit a downlink signal measurement value for each cell (C1 and C2) (E.g., MR, Measurement Report) to the base station apparatus 10 periodically. At this time, the control message may be an RRC Connection Reconfiguration message transmitted from the base station apparatus 100 to the AT.

Accordingly, the terminal 10 calculates the downlink signal measurement values, that is, the reference signal received power (RSRP) and the reference signal reception quality (RSRQ) measured for the downlink signal of the cell C1, Periodic downlink signal measurements (e.g., MR), including downlink signal measurements, i.e., RSRP and RSRQ, measured for the downlink signals of the base stations (e.g., C2).

At this time, based on the CSI-RS signal inherent to the cell C1 and the CSI-RS signal unique to the cell C2, the terminal 10 transmits the downlink signal of the cell C1 and the downlink signal of the cell C2, Lt; RTI ID = 0.0 > downlink < / RTI >

Therefore, based on the downlink signal measurement value (for example, MR) for each cell reported from the terminal 10, the judgment control unit 130 measures the cell C1 that the terminal 10 is currently using the communication service It is possible to confirm that the current downlink state of the terminal 10 is in the deteriorated state when the measured downlink signal value is less than or equal to a preset deterioration threshold value.

In the process of transmitting the control message to the terminal 10 as described above, the judgment control unit 130 sets and activates the deterioration report event in the terminal 10 via the control message, If a reporting event is set, it can be activated.

Accordingly, the terminal 10 periodically reports the downlink signal measurement value (e.g., MR) for each cell to the base station 10 as described above according to the control message, and the degradation reporting event will be activated.

At this time, the deterioration report event is generated based on the downlink signal measurement value measured for the current cell C1 and the measured downlink signal value measured for the current adjacent cell (C1), excluding the cell C1, Occurs when the difference between measured downlink signal measurements for cell C2 of identification information PCI is less than a specific offset value (e.g., 3 dB).

Accordingly, the terminal 10 calculates the downlink signal measurement value (RSRP) measured for the current cell C1 based on the downlink signal measurement value for each cell measured by the terminal 10 as described above, When the difference between the measured downlink signal measurement values RSRP and RSRQ for the other cell C2 of the adjacent same cell identification information PCI is smaller than a specific offset value (for example, 3 dB) And reports it to the base station apparatus 100. [0064]

The judgment control unit 130 can confirm that the current downlink state of the terminal 10 is in the deteriorated state when a report on the occurrence of the deterioration report event is received from the terminal 10.

When the terminal 10 is determined to be located in the overlap area a in the determination control unit 130, the communication service provider 140 determines that two or more cells, i.e., the cell C1 and the cell C2 ) To be able to use the same communication service.

Basically, in the virtual cell environment, the communication service provider 140 transmits the unique CSI-RS signal of the overlapping region (a) for channel state estimation and data demodulation in the overlapping region (a) to the terminal And performs switching control on the terminal 10 to the common communication mode.

Thereafter, the communication service providing unit 140 assigns the same radio resource to each of the cell C1 and the cell C2 forming the overlapping area (a) with respect to the terminal 10, It is possible to simultaneously provide the same communication service through both the cell C1 and the cell C2 to the terminal 10 by operating in the common communication mode for simultaneously transmitting the downlink signal to the terminal 10. [

At this time, the communication service providing unit 140 determines whether or not the cell C 1 and the cell C 2 based on the common CRS signal for the cell C 1 and the cell C 2 and the unique CSI- (E.g., MCS) to be used for demodulating data, and / or downlink signals such as data and / or control information (e.g., synchronization information, data to be used for data demodulation To the terminal (10).

As described above, in the virtual cell environment, the base station apparatus according to the present invention provides the same communication service to all the terminals through two or more cells depending on only the strength of an uplink signal (e.g., SRS signal) It is determined that the terminal operates in the common communication mode by considering whether the downlink state of the terminal is in a deteriorated state or not. And can operate in the common communication mode only for the terminal which is absolutely necessary.

The base station apparatus according to the present invention operates in a common communication mode so as to use the same communication service through all two or more cells at an optimal time for a terminal located in the overlapping region, It is possible to balance the effect of increasing the efficiency of radio resource management while achieving the reduction effect.

Hereinafter, an operation method of the base station apparatus according to the present invention will be described with reference to FIG. 3 to FIG. For convenience of explanation, the reference numerals of FIGS. 1 and 2 will be described.

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

The base station apparatus 100 can form one virtual cell C by assigning the same cell identification information PCI to the cell C1 and the cell C2.

1, when the UE 10 is located in the central area of the cell C1, the BS 100 transmits a separate radio resource to the UE 10 in the cell C1 The terminal 10 can provide the communication service through the cell C1 (S20).

At this time, basically, in the virtual cell environment, the base station apparatus 100 generates, based on the common CRS signal for the cell C1 and the cell C2 and the unique CSI-RS signal for the cell C1, To the terminal 10 by transmitting a downlink signal including a signal, e.g., data and / or control information (e.g., synchronization information, a data processing method (e.g., MCS) C1). ≪ / RTI >

Basically, in the virtual cell environment, the terminal 10 transmits the uplink signal based on the cell identification information (PCI), particularly the SRS signal (S30).

At this time, the base station apparatus 100 can determine whether the terminal 10 is located in the overlap area a where the cell C1 and the cell C2 overlap, based on the SRS signal.

More specifically, since the terminal 10 transmits the SRS signal based on the cell identification information (PCI) used equally in the cell C1 and the cell C2, the SRS signal from the terminal 10 is transmitted to the cell (S36), as well as through the cell C2 which is somewhat distant (S36).

1, when the terminal 10 is located in the central region of the cell C1, the strength of the SRS signal received through the cell C1 and the strength of the SRS signal received through the cell C2 The difference between the centuries will be quite large.

However, if the terminal 10 moves in the direction of the overlapping region (a) at the current position, the difference between the SRS signal strength through the cell C1 and the SRS signal strength through the cell C2 will gradually decrease.

The base station apparatus 100 determines that the difference between the intensities of the SRS signals received through the cell C1 and the cell C2 from the terminal 1 is smaller than a predetermined nesting difference value (for example, 3dB) , It can be determined that the terminal 10 is located in the overlap area a (S40).

When it is determined that the terminal 10 is located in the overlap area a based on the strength of the uplink signal, i.e., the SRS signal received from the terminal 10 (Yes in S40) The cell C1 is moved in the overlapping area a in accordance with whether or not the downlink state of the terminal 10 with respect to the cell C1 is in a predetermined deteriorated state instead of immediately operating in the common communication mode with respect to the terminal 10, (S50). ≪ / RTI >

The base station apparatus 100 then performs switching control to the common communication mode with respect to the terminal 10 only when it is determined in the final determination that the terminal 10 is located in the overlapping area a (S50 Yes) (S70), the same radio resources are allocated to the cell (C1) and the cell (C2) forming the overlap region (a) with respect to the terminal (10) The same communication service can be simultaneously provided to both the cell C1 and the cell C2 to the terminal 10 by operating in the common communication mode in which the terminal 10 simultaneously transmits the same communication service to the terminal 10 in step S80.

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

The method of operation of the base station apparatus 100 according to the present invention checks a terminal that uses a communication service through a specific cell among two or more adjacent cells using the same cell identification information (PCI) (SlOO).

Hereinafter, for convenience of explanation, as described above, the base station apparatus 100 of the present invention forms two or more adjacent cells C1 and C2, and each of the cells C1 and C2 The same cell identification information (PCI) is allocated to one virtual cell (C).

1, if the terminal 10 is located in the central area of the cell C1, the method of operating the specific cell, that is, the cell C1, It is possible to identify the terminal 10 to be used.

In this case, the method of operation of the base station apparatus 100 according to the present invention is a method of allocating a separate radio resource to the terminal 10 in the cell C1, Thereby providing a communication service (S110).

The method of operating the base station apparatus 100 according to the present invention in a virtual cell environment basically includes the steps of generating a common CRS signal for the cell C1 and the cell C2 and a unique CSI- To the terminal 10, a downlink signal including a downlink signal, e.g., data and / or control information (e.g., synchronization information, a data processing method (e.g., MCS) And can provide a communication service to the terminal 10 through the cell C1.

The terminal 10 recognizes the virtual cell C based on the common CRS signal and recognizes the cell C1 receiving the communication service based on the unique CSI-RS signal for the special cell C1 And can perform data demodulation using information in the CSI-RS signal (e.g., MCS, etc.).

Basically, in the virtual cell environment, the terminal 10 transmits an uplink signal based on cell identification information (PCI), that is, an SRS signal.

The operation of the base station apparatus 100 according to the present invention is performed when the reception of an uplink signal, that is, an SRS signal, through two or more cells, that is, the cell C1 and the cell C2, , It is determined whether the terminal 10 is located in the overlap area a where two or more cells, that is, the cell C1 and the cell C2 overlap, based on this information (S130).

More specifically, since the terminal 10 transmits the SRS signal based on the cell identification information (PCI) used equally in the cell C1 and the cell C2, the SRS signal from the terminal 10 is transmitted to the cell Lt; RTI ID = 0.0 > C1, < / RTI >

1, when the terminal 10 is located in the central region of the cell C1, the strength of the SRS signal received through the cell C1 and the strength of the SRS signal received through the cell C2 The difference between the centuries will be quite large. However, if the terminal 10 moves in the direction of the overlapping region (a) at the current position, the difference between the SRS signal strength through the cell C1 and the SRS signal strength through the cell C2 will gradually decrease.

The method of operation of the base station apparatus 100 according to the present invention is based on the assumption that the difference in intensity of SRS signals received through the cell C1 and the cell C2 from the terminal 1 is equal to or greater than a preset overlap difference value (For example, 3 dB) (S130 Yes), it can be determined that the terminal 10 is located in the overlap area a.

The method of operation of the base station 100 according to the present invention is such that if it is determined in step S130 that the terminal 10 is located in the overlap area a, It is finally determined whether the terminal 10 is located in the overlapping area (a) according to whether it is in the set deterioration state or not.

More specifically, the method of operation of the base station apparatus 100 according to the present invention determines whether the terminal 10 is located in the overlapping area (a) in step S130, (S140).

For example, an operation method of the base station apparatus 100 according to the present invention is a method in which a terminal 10 transmits a control message to a terminal 10 to measure a cell C1 and a cell C2 It is possible to periodically report downlink signal measurement values (e.g., MR, Measurement Report) for each cell to the base station apparatus 10, and further enable the terminal 10 to set and activate a degradation report event according to a control message.

Accordingly, the terminal 10 calculates the downlink signal measurement values, that is, the reference signal received power (RSRP) and the reference signal reception quality (RSRQ) measured for the downlink signal of the cell C1, Periodic downlink signal measurements (e.g., MR), including downlink signal measurements, i.e., RSRP and RSRQ, measured for the downlink signals of the base stations (e.g., C2).

The terminal 10 periodically reports the downlink signal measurement value (e.g., MR) for each cell to the base station 10 as described above according to the control message, and the degradation reporting event will be activated. Accordingly, the terminal 10 calculates the downlink signal measurement value (RSRP) measured for the current cell C1 based on the downlink signal measurement value for each cell measured by the terminal 10 as described above, When the difference between the measured downlink signal measurement values RSRP and RSRQ for the other cell C2 of the adjacent same cell identification information PCI is smaller than a specific offset value (for example, 3 dB) And reports it to the base station apparatus 100. [0064]

The method of operation of the base station apparatus 100 according to the present invention is a method in which the terminal 10 is currently using a communication service based on a downlink signal measurement value (e.g., MR) If the measured downlink signal value for the cell C1 is less than or equal to a preset deterioration threshold value (Yes in S150), it can be confirmed that the current downlink state of the terminal 10 is in the deteriorated state.

If the current downlink state of the terminal 10 is determined to be in the deteriorated state in step S150, the method for operating the base station 100 according to the present invention is such that the terminal 10 is located in the overlap area a And the terminal 10 is allowed to use the same communication service through two or more cells, that is, both the cell C1 and the cell C2 (S180).

That is, the operation method of the base station apparatus 100 according to the present invention transmits the unique CSI-RS signal of the overlapping region (a) for channel state estimation and data demodulation in the overlapping region (a) to the terminal , The switching control to the common communication mode is performed for the terminal 10 and the same radio resources are assigned to the cell C1 and the cell C2 forming the overlapping region a with respect to the terminal 10, The terminal 10 can be simultaneously provided with the same communication service through both the cell C1 and the cell C2 by operating in the common communication mode for simultaneously transmitting the downlink signal including the same data to the terminal 10 have.

The method of operation of the base station 100 according to the present invention may be such that the downlink signal measurement value measured for the cell C1 currently using the communication service by the terminal 10 in step S150 is equal to or less than the deterioration threshold value If not, it is determined whether a degradation report event is generated and reported from the terminal 10 (S160).

If the current downlink state of the terminal 10 is in the deteriorated state (YES in step S160), the base station apparatus 100 determines that the current downlink state is the deteriorated state .

If the current downlink state of the terminal 10 is determined to be in the deteriorated state in step S160, the method for operating the base station apparatus 100 according to the present invention is such that the terminal 10 is located in the overlap area a So that the terminal 10 can use the same communication service through two or more cells, that is, both the cell C1 and the cell C2, as in step S180 described above.

The method of operation of the base station apparatus 100 according to the present invention is such that if the terminal 10 does not receive a report on the occurrence of a deterioration report event from the terminal 10 in step S160, the terminal 10 is located in the overlap area a Until the predetermined monitoring time elapses (No in S170), the terminal 10 continuously checks whether the current downlink state of the terminal 10 is in the degraded state by performing the above-described steps S150 and S160, (A) in the overlapping region (a).

As described above, the operating method of the base station apparatus according to the present invention is characterized in that, in a virtual cell environment, the same communication service is used through all two or more cells at an optimal time point for a terminal located in an overlapping region in which two or more cells overlap It is possible to balance the effect of increasing the efficiency of radio resource management while achieving the effect of reducing intercell interference, which is the original purpose of the virtual cell environment.

The method of operating the base station 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 an operation method of a base station apparatus and a base station apparatus according to the present invention, in a virtual cell environment in which two or more cells are assigned the same cell identification information (PCI) to form one virtual cell, It is possible to meet the effect of increasing the efficiency of the radio resource management in a balanced manner while achieving the reduction effect. As the technology is overcome the limit of the existing technology, In addition, it is an invention that can be used industrially because it is practically possible to carry out clearly.

10: Terminal
100: base station device
110: terminal check unit 120:
130: Judgment control unit 140:

Claims (10)

A terminal confirmation unit for confirming a terminal using a communication service through a specific cell among two or more adjacent cells using the same cell identification information;
A position determiner for determining whether the terminal is located in an overlapping region in which the two or more cells overlap, based on the uplink signal based on the cell identification information received through each of the two or more cells from the terminal; And
Determining whether the terminal is located in the overlap area based on whether the downlink state of the terminal for the specific cell is in a predetermined deteriorated state if it is determined that the terminal is located in the overlap area; The base station apparatus comprising: The method according to claim 1,
Further comprising a communication service providing unit for allowing the terminal to use the same communication service through all of the two or more cells if it is determined that the terminal is located in the overlapping area. The method according to claim 1,
Wherein,
Wherein the terminal checks whether the downlink state of the terminal is in the deteriorated state based on measured cell downlink signal measurements for each of the two or more cells. The method of claim 3,
Wherein,
Wherein if the downlink signal measurement value measured for the specific cell is less than or equal to a preset deterioration threshold value based on the cell downlink signal measurement value, Device. The method of claim 3,
Wherein,
A difference between a downlink signal measurement value measured for the particular cell and a downlink signal measurement value measured for cells other than the specific cell of the at least two cells based on the cell downlink signal measurement value is greater than a specific offset value , The downlink state of the terminal is confirmed to be in the deteriorated state. A terminal identification step of identifying a terminal using a communication service through a specific cell among two or more adjacent cells using the same cell identification information;
A position determining step of determining whether the terminal is located in an overlapping area in which the two or more cells are overlapped based on the uplink signal based on the cell identification information received through each of the two or more cells from the terminal; And
Determining whether the terminal is located in the overlapping area based on whether the downlink state of the terminal for the specific cell is in a predetermined deteriorated state when it is determined that the terminal is located in the overlapping area; Wherein the base station apparatus comprises: The method according to claim 6,
Further comprising a communication service providing step of allowing the terminal to use the same communication service through all of the two or more cells if the terminal is finally determined to be located in the overlapping area. The method according to claim 6,
Wherein the judgment control step comprises:
Wherein the UE determines whether the downlink state of the UE is in the degraded state based on measured cell downlink signal measurements for each of the two or more cells. 9. The method of claim 8,
Wherein the judgment control step comprises:
Wherein if the downlink signal measurement value measured for the specific cell is less than or equal to a preset deterioration threshold value based on the cell downlink signal measurement value, Method of operation of the device. 9. The method of claim 8,
Wherein the judgment control step comprises:
A difference between a downlink signal measurement value measured for the particular cell and a downlink signal measurement value measured for cells other than the specific cell of the at least two cells based on the cell downlink signal measurement value is greater than a specific offset value The downlink state of the terminal is determined to be in the deteriorated state.

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