KR101896584B1 - System for contorl interference and methord for contorl interference using the same - Google Patents

Abstract

The interference control method according to the present invention is a method of controlling interference of a mobile station in a mobile communication system, in which, when a plurality of mobile stations moves and performs handover independently at a cell boundary, The method includes receiving a connection state between a plurality of terminals and a base station and transmitting a pilot signal transmission of a second base station to a first base station to which the first terminal is connected when the first one of the terminals receives the connection state Requesting transmission of a location of a resource that conflicts with a resource for the first resource to be empty, and removing the interference to the first resource by estimating an interference channel of the first resource.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an interference control system and an interference control method using the same,

The present invention relates to an interference control system and an interference control method using the same.

In a mobile communication system in which a multi-flow capable terminal exists, inter-cell interference may occur when a multi-flow terminal crosses a cell boundary. In particular, as a typical example of a multi-flow terminal, a high-speed mobile terminal (KTX, train, subway, automobile or bus, etc.) The performance degradation of the high-speed mobile terminal is directly related to the performance degradation of the user terminal.

Therefore, the reliability of the communication link between the multi-flow terminal and the base station included in such a high-speed mobile unit must be guaranteed even in the cell boundary region. However, in order to eliminate the inter-cell interference, it is necessary to measure the channel of the interference from the adjacent cell. In the frame structure of the general mobile communication system, pilot signals and data signals between adjacent base stations collide with each other. Therefore, in the cell boundary section, the interference channel estimation error from the adjacent base station increases, and interference channel estimation is difficult.

In a typical mobile communication system, interference is mitigated by allocating orthogonal resources to users located at cell boundaries or power control by controlling transmission power in order to eliminate interference. However, this method does not maximize the use of radio resources and has difficulty in completely eliminating the interference.

The present invention provides an interference control system capable of improving communication performance in a cell boundary region and an interference control method using the same.

The interference control method of the present invention is a method of controlling interference of a mobile station in a mobile communication system, wherein when a plurality of mobile stations moves and performs handover independently at a cell boundary, Receiving a connection state between a terminal and a base station of the first base station, receiving a connection state of the first base station, and transmitting the pilot signal to the first base station to which the first terminal is connected, Requesting transmission of a resource with a location that is in conflict with a resource, and transmitting the interference channel to the first terminal by estimating an interference channel.

The requesting step may include periodically measuring a Signal to Interference and Noise Ratio (SINR) of the first terminal.

Wherein the step of requesting further comprises the step of requesting that the location of a resource for data transmission of the first base station colliding with a resource for transmitting a pilot signal of the second base station be vacant when the SINR is smaller than a threshold value .

And if the SINR is greater than the threshold, requesting to allocate data again to the resource at the vacant location.

When the plurality of terminals are connected to one base station out of the cell boundary region, requesting to allocate data again to the vacant location resources.

The first base station may be a serving base station connected to the first terminal and the second base station may include an interference base station adjacent to the serving base station and generating interference by transmitting a pilot signal to the first terminal .

The plurality of terminals may be included in the same high-speed moving object, and a modem installed in each terminal may form a multi-flow terminal operating independently.

The interference control system of the present invention includes an interference control apparatus connected to a plurality of terminals that independently perform handover at a cell boundary and includes a determination unit for determining whether there are terminals communicating with different base stations among the plurality of terminals, And a multi-flow terminal including at least one terminal for requesting a serving base station to transmit a data resource position that is in conflict with a signal of another base station, in a case where there is a terminal communicating with another base station.

The interference control apparatus may further include an interference control unit that controls the terminals to estimate the channel and remove the interference.

The at least one mobile station may include a request unit for requesting the serving base station to transmit data by clearing a location of a resource for transmitting a pilot signal to a serving base station and a neighboring base station.

The requesting unit may request the serving BS to transmit the data resource in a vacant state when the signal to interference and noise ratio (SINR) measured by the MS is smaller than a threshold.

If the SINR is greater than the threshold or when the plurality of UEs are out of the cell boundary and connected to one base station, the request unit may request to allocate data again to the vacant location resources.

The base station includes at least one antenna for transmitting a pilot signal or a data signal to a wirelessly connected terminal, a resource allocation unit for allocating a radio resource to transmit the pilot signal or the data signal, And a control unit for controlling transmission of data by clearing resources at positions colliding with pilot signals transmitted from adjacent base stations.

The control unit can check whether the resource to be emptied is being used by another terminal, and if the resource is in use, control can be performed so that the resource is emptied after obtaining consent of the other terminal.

If the consent of the other terminal is not obtained, the control unit can control to wait until agreement is possible.

The controller may notify the other terminal that the position colliding with the pilot signal is empty and data is being transmitted.

The at least one antenna may include a radio unit (RU) connected to a digital unit (DU) serving as a modem, and may form a distributed antenna communication network.

According to the embodiment of the present invention, when a plurality of terminals in a multi-flow terminal cross a cell boundary in a mobile communication system, a serving base station empties data signal resources overlapping a pilot signal of an interfering base station, It is possible to increase the strength and to provide an environment for accurately estimating the interference channel of the adjacent cell.

1 is a block diagram schematically illustrating an interference control system for controlling interference in a multi-flow terminal in a mobile communication system according to an embodiment of the present invention.
2 is a diagram illustrating an example in which a high-speed mobile station including a plurality of terminals moves in a cell boundary in a general communication network according to an embodiment of the present invention.
3 is a diagram illustrating an example in which a fast moving object including a plurality of terminals moves in a cell boundary in a distributed antenna communication network according to another embodiment of the present invention.
4 is a diagram illustrating an example in which a pilot signal of an interfering base station collides with a data signal of a serving base station.
5 is a flowchart illustrating a process for controlling interference according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise.

Also, the terms of " part ", "... module" in the description mean units for processing at least one function or operation, which may be implemented by hardware or software or a combination of hardware and software.

Hereinafter, an interference control system and an interference control method using the same according to an embodiment of the present invention will be described in detail with reference to the drawings.

1 is a block diagram schematically illustrating an interference control system for controlling interference in a multi-flow terminal in a mobile communication system according to an embodiment of the present invention. At this time, the interference control system shows only the schematic configuration necessary for the explanation according to the embodiment of the present invention, and is not limited to this configuration.

First, in a mobile communication system, when a multi-flow capable multi-flow terminal 200 forming a group of terminals 200-1 to 200-n passes a cell-edge, Interference occurs and performance degradation occurs.

Here, the multi-flow terminal 200 includes a plurality of terminals, each of which is equipped with a plurality of terminals or a plurality of modems in one moving body and operate independently of each other. Since the multi-flow terminal 200 can transmit an independent data stream to a plurality of terminals in the multi-flow terminal, the multi-flow terminal 200 can be advantageous in terms of throughput and handover can be performed independently for each of the terminals 200-1 to 200- The probability of simultaneous handover is extremely small even though each modem performs a hard handover. Therefore, it is possible to guarantee a continuous communication link, so that the communication interruption time can be minimized from the viewpoint of the multi-flow terminal have.

The interference control apparatus 100 according to an embodiment of the present invention estimates an interference channel generated when the multi-flow terminal 200 passes a cell boundary, -n). At this time, the interference control apparatus 100 may be included in the multi-flow terminal 200 according to an embodiment of the present invention.

The interference control apparatus 100 includes a determination unit 110 and an interference control unit 120 according to an embodiment of the present invention.

The determination unit 110 is connected to a plurality of terminals that independently perform handover at a cell boundary to determine whether there are terminals communicating with different base stations among a plurality of terminals.

If it is determined by the determination unit 110 that there are terminals communicating with different base stations, the determination unit 110 notifies the terminals communicating with different base stations.

The UEs communicating with different base stations among the UEs 200-1 to 200-n measure the interference intensity from the interference base stations other than the serving base station. The UEs communicating with different base stations calculate a Signal to Interference and Noise Ratio (SINR) (SIR can also be used) based on the measured interference and the intensity of the magnetic signal, and compare the signal to interference and noise ratio And informs the serving base station 300 of whether the pilot resource position of the interfering base station should be ignored in the serving base station.

For example, when the terminal 200-1 is connected to another base station, the requesting unit 210-1 of the terminal 200-1 transmits data to the serving base station 300, You can request to send the resource location by leaving it empty.

Here, the request units 210-1 to 210-n of the respective terminals may request to transmit data by clearing the location of a resource for transmission of a pilot signal to a base station adjacent to the serving base station 300. [ At this time, the requesting units 210-1 to 210-n may request the serving BS 300 to transmit the data resource position empty if the SINR measured by the MS is smaller than the threshold.

In addition, when the SINR is greater than a threshold value or when a plurality of terminals are connected to one base station after a cell boundary interval is exceeded, the requesting units 210-1 to 210-n request to allocate data to vacant resources again .

Then, the interference controller 120 controls the terminal 200-n to estimate the channel and remove the interference.

The serving base station 300 includes an antenna 310, a resource allocation unit 120, and a control unit 330 according to an embodiment of the present invention.

The antenna 310 transmits a pilot signal or a data signal to a wirelessly connected terminal. The serving base station 300 includes a radio unit (RU) connected to a digital unit (DU), which serves as a modem, and forms a distributed antenna May constitute a communication network.

The resource allocation unit 320 allocates radio resources to the BS or the MS so as to transmit the pilot signal or the data signal.

The control unit 330 controls to allocate the radio resources and controls the data to be transmitted by leaving the resource of the colliding position with the pilot signal transmitted from the serving base station 300 and the adjacent base station.

At this time, the control unit 330 checks whether the resource to be emptied is being used by another terminal, and if the resource is being used, the control unit 330 controls the emptying of the resource after obtaining consent of the other terminal. If the control unit 330 does not obtain the consent of the other terminal, the control unit 330 controls the other terminals to wait while communicating with the other terminal until the consent is possible.

In addition, the control unit 330 informs other terminals that data is being transmitted because the collision position with the pilot signal is empty.

2 is a diagram illustrating an example in which a high-speed mobile station including a plurality of terminals moves in a cell boundary in a general communication network according to an embodiment of the present invention.

Referring to FIG. 2, a multi-flow terminal is illustrated as a high-speed mobile (train), and such a multi-flow terminal can be variously modified or changed in accordance with an embodiment of the present invention. For example, a multi-flow terminal may be implemented in an automobile or a bus passing through a subway or a highway.

In addition, the multi-flow terminal may include a mobile phone, a notebook, and the like that can be generally owned by the user, and the high-speed mobile terminal itself may be a multi-flow terminal and transmit the transmitted signal to the user again.

In addition, the antennas (the first RX through the N RX) mounted in the multi-flow terminal can serve as independent terminals each having one or more antennas, and are connected to independent terminals or modems. The plurality of modems in the high-speed mobile unit are respectively connected to a small cell base station or a Wi-Fi AP in a high-speed mobile unit to provide a communication service to a user or connect to a small cell base station or a Wi- Thereby providing a communication service.

For example, when located within one cell, the multi-flow terminal is connected to the d-th base station 300a. When the multi-flow terminal moves to the cell boundary, the multi-flow terminal is simultaneously connected to the d-th base station 300a and the (d + 1) -th base station 300b.

When a specific modem in the multi-flow terminal is connected to the d-th base station 300a when the multi-flow terminal is located at the cell boundary, the d-th base station 300a serves as a serving base station, Can be an interference base station. In this manner, when a multi-flow terminal is located at a cell boundary and a plurality of terminals in the multi-flow terminal are connected to different base stations, interference may occur between the terminals.

Therefore, the interference canceller 100 according to an embodiment of the present invention requests the serving base station to transmit a vacant position of a data resource colliding with a pilot signal of an interfering base station, thereby preventing interferences .

3 is a diagram illustrating an example in which a fast moving object including a plurality of terminals moves in a cell boundary in a distributed antenna communication network according to another embodiment of the present invention.

Referring to FIG. 3, a mobile communication system includes a radio unit (RU) 312 to 318 connected to a digital unit (DU) 300x and 300y serving as a modem, thereby forming a distributed antenna communication network.

In the distributed antenna type mobile communication system, which is also applied to mobile communication systems, base station modems 300x and 300y, which are digital units serving as a modem of a base station, are disposed in one place and radio units 312 to 318 are distributed and arranged.

When the multi-flow terminal is located in one cell, the multi-flow terminal communicates with the RUs 312 and 314 and is connected to the d-th base station modem 300x. However, when the multi-flow terminal moves to the cell boundary, the multi-flow terminal communicates with the RUs 312 to 318 and is simultaneously connected to the d-th base station modem 300x and the (d + 1) th base station modem 300y.

When the specific modem in the multi-flow terminal is connected to the d-th base station modem 300x when the multi-flow terminal is located at the cell boundary, the d-th base station modem 300x serves as the serving base station, The modem 300y may be an interfering base station.

Therefore, as shown in FIGS. 2 and 3, when a multi-flow terminal is located in one cell, interference signals are not overlapped with pilot signals, and interference channels are measured and multiple input multiple output (MIMO) The technique can be used to remove interference.

However, when a multi-flow terminal is located at a cell boundary, a pilot signal for channel estimation of an interference signal from a neighboring cell collides with a data signal coming from its serving base station, which causes a problem of estimating an interference channel.

4 is a diagram illustrating an example in which a pilot signal of an interfering base station collides with a data signal of a serving base station.

Referring to FIG. 4, when a multi-flow terminal includes a first terminal and a second terminal, a first terminal communicating with a first base station (serving base station) includes a second base station Interference base station).

In the first terminal, the pilot signal of the interference base station collides with the data signal received from the serving base station, making interference estimation difficult.

Therefore, in order to allow the UE to correctly estimate the interference channel when the multi-flow terminal is located at the cell boundary, the interference control apparatus 100 according to an embodiment of the present invention may be configured such that the serving base station It is requested not to transmit data to a resource that is in conflict with the pilot signal of the interfering base station that is influencing the interference.

Through this, the UE can precisely estimate the interference channel from the interference base station and remove the interference.

The base station communicating with the terminal may not boost the pilot signal by colliding with the pilot signal of the adjacent base station, and may utilize the remaining power for power for the pilot signal to boost the power. And this can help improve the performance by allowing the terminal located at the cell boundary to obtain more accurate estimated channel information.

That is, at the cell boundary, it is possible to increase the intensity of the pilot signal in the serving base station by allowing the serving base station to transmit data at a position of the pilot signal of the interfering base station rather than transmitting the data at a higher level, thereby reducing the channel estimation error at the cell boundary . This can facilitate the interference channel estimation by receiving the pilot signal from the adjacent base station without interference, thereby helping to eliminate inter-cell interference.

5 is a flowchart illustrating a process for controlling interference according to an embodiment of the present invention. The following flowchart will be described using the same reference numerals in conjunction with the configuration of Fig.

Referring to FIG. 5, a plurality of terminals in the multi-flow terminal 200 perform handover (S100). In the multi-flow terminal 200 moving to the cell boundary, a plurality of terminals independently perform handover, and terminals in the multi-flow terminal communicate with different base stations due to independent handover. At this time, .

Then, the interference canceller 100 determines whether there is a terminal connected to different base stations (S102).

If it is determined that there are terminals connected to different base stations, the interference canceller 100 notifies the corresponding terminals of the connection status between the base stations (S104).

In step S106, the mobile terminal 200 periodically measures the SINR and determines whether the measured SINR is less than a threshold value. Since the different terminals communicating with different base stations are installed in the same multi-flow terminal 200, the inter-terminal interface or the results notified by the determination unit 110 in the interference control apparatus 100, It can be determined whether or not the base station is connected to the base station.

If the SINR is smaller than the threshold value, the mobile station requests the serving base station 300 to transmit a resource that is in conflict with the pilot signal of the interference base station, to the serving base station 300 (S110).

The serving base station 300 transmits the data to the mobile station by clearing the requested resource (S112). At this time, the serving base station 300 determines whether the data resource to be emptied is being used by another terminal.

If another terminal is in use, it should obtain the consent of the terminal that is using it. Otherwise, it waits while communicating to the current state until it is possible. If there is no other terminal in use, the terminal accepts the request of the terminal.

In addition, the serving base station 300 also informs the terminal that is using the resource that it has requested the agreement, that the data is vacant at the position of the interference base station pilot signal.

Therefore, the terminals in the multi-flow terminal 200 can remove the interference by estimating the channel of the interference base station (S114).

If the SINR value is greater than the threshold value or if the terminal in the multi-flow terminal is connected to one base station beyond the cell boundary period, the terminal is restored to its original state and the data is allocated again to the vacant resource location.

As described above, in the interference cancellation apparatus 100 according to an embodiment of the present invention, when a multi-flow terminal crosses a cell boundary in a mobile communication system, interference from a neighboring cell has a large influence, The intensity of the pilot signal of the serving base station can be increased and the interference channel of the adjacent cell can be accurately estimated.

In addition, an embodiment of the present invention provides an environment that can provide services of the same quality as that in a cell even at a cell boundary by eliminating interference using information of the estimated interference channel.

The embodiments of the present invention described above are not implemented only by the apparatus and method, but may be implemented through a program for realizing the function corresponding to the configuration of the embodiment of the present invention or a recording medium on which the program is recorded.

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, It belongs to the scope of right.

100: interference control device 110:
120: Interference controller 200: Multi-flow terminal
300: serving base station

Claims (17)

In a method for controlling inter-base station interference in a multi-flow terminal in a mobile communication system,
Determining whether there is a handover terminal to a neighboring base station adjacent to a serving base station among a plurality of terminals in the multi-flow terminal,
Requesting the serving base station not to transmit data from a collision resource colliding with a pilot signal of the neighboring base station if there is a terminal connected to the neighboring base station through the handover among the plurality of terminals,
Receiving the pilot signal from the neighboring base station in the collision resource and estimating a channel with the neighboring base station based on the pilot signal,
/ RTI > The method of claim 1,
Wherein the requesting step comprises:
The method includes periodically measuring a signal to interference and noise ratio (SINR) of a terminal connected to the serving base station among the plurality of terminals
/ RTI > 3. The method of claim 2,
Wherein the requesting step comprises:
If the SINR is smaller than the threshold, requesting transmission of a vacant location of a resource for data transmission of the serving BS that conflicts with a resource for transmitting pilot signals of the neighboring BS;
Gt; 4. The method of claim 3,
If the SINR is greater than the threshold, requesting to allocate data again to the resource at the vacant location
Gt; 4. The method of claim 3,
When the plurality of terminals are connected to one base station out of the cell boundary section, requesting to allocate data again to the vacant location resources
Gt; delete The method of claim 1,
The plurality of terminals,
Wherein the plurality of terminals are included in the same high-speed moving object, and the modems installed in the respective terminals form independent multi-flow terminals operating independently. A plurality of terminals independently performing handover at a cell boundary, and
And an interference controller connected to the plurality of terminals and determining whether there is a handover terminal to a neighboring base station adjacent to the serving base station among the plurality of terminals,
And requests the serving base station not to transmit data from a collision resource colliding with a pilot signal of the neighboring base station if the mobile station is connected to the neighboring base station through the handover among the plurality of terminals. 9. The method of claim 8,
The interference control apparatus includes:
An interference control unit for receiving the pilot signal from the neighboring base station in the collision resource and estimating a channel with the neighboring base station based on the pilot signal,
Further comprising: The method of claim 9,
Wherein the at least one terminal comprises:
Further comprising a requesting unit for requesting the serving base station to transmit data with a vacant position of a resource for pilot signal transmission to the neighboring base station. 11. The method of claim 10,
The request unit,
And requesting the serving BS to transmit a data resource position empty if the measured Signal to Interference and Noise Ratio (SINR) is less than a threshold value. 12. The method of claim 11,
The request unit,
When the SINR is greater than the threshold value or when the plurality of UEs are connected to one base station out of the cell boundary period, the multi-flow terminal requests to allocate data again to the vacant location resources. At least one antenna for transmitting a pilot signal or a data signal to a plurality of terminals in a multi-flow terminal,
A resource allocator allocating a radio resource to transmit the pilot signal or the data signal to the plurality of terminals;
When there is a terminal connected through a handover to an adjacent neighboring base station among the plurality of terminals, a request is received from the multi-flow terminal to transmit data from a collision resource colliding with the pilot signal of the neighboring base station, a controller for
/ RTI > The method of claim 13,
Wherein,
Wherein the collision checking unit checks whether the collision resource to be used for the data to be vacated is being used by another UE, and if the collision resource is being used, The method of claim 14,
Wherein,
And if the other terminal does not obtain the agreement, waits until agreement is possible. 16. The method of claim 15,
Wherein,
The base station informing the other terminal that the location colliding with the pilot signal is empty and data is being transmitted. 17. The method of claim 16,
Wherein the at least one antenna comprises:
A base station constituting a distributed antenna communication network including a radio unit (RU) connected to a digital unit (DU) serving as a modem.

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