KR20130137432A - Communication system and apparatus for controlling intercell interference - Google Patents

Abstract

Provided are a communication system and an inter-cell interference control device in accordance with an example of the present invention, wherein the communication system includes the following devices: multiple radio units which are installed at each cell and processes radio signals; multiple digital units which are physically separated from the multiple radio units and connected to a core system, and process wireless digital signals; and an inter-cell interference control device which is connected with the multiple digital units, generates radio resource allocation information minimizing inter-cell interference, and transmits the information to the multiple digital units. The multiple digital units perform radio resource allocation scheduling by using the radio resource allocation information. [Reference numerals] (300) Inter-cell interference control device;(600) Terminal A;(700) Terminal B;(800) Terminal C

Description

COMMUNICATION SYSTEM AND APPARATUS FOR CONTROLLING INTERCELL INTERFERENCE}

The present invention relates to a communication system and a cell interference control device.

Generally, a communication base station is largely included in one physical system together with a digital signal processing unit and a radio signal processing unit. That is, a processor and an antenna are configured together to process one layer, two layers, and three layers in one system.

However, such a system has a limitation in optimizing a cell design because a base station including all processing units must be installed in a cell. In order to improve this, a plurality of antennas may be connected to one base station to form a cell in a required manner, thereby reducing a coverage hole in an in-building system.

However, this approach allows for efficient cell design by creating a variety of cell coverages, but it is difficult to maximize system capacity.

In order to minimize this problem, a base station structure has been recently proposed in which a digital signal processing unit and a wireless signal processing unit are physically separated, a wireless signal processing unit is installed in a cell area, and a digital signal processing unit is located at a central office.

However, a plurality of radio signal processing apparatuses are installed, and cells of each radio signal processing apparatus overlap with each other, so inter-cell interference control is required. Therefore, there is a need for a method of minimizing inter-cell interference in a structure in which the digital signal processor and the wireless signal processor are physically separated.

SUMMARY OF THE INVENTION The present invention provides a communication system and a cell interference control device for automatically turning on / off an operation of a cell interference control device according to an interference amount of cells.

According to one aspect of the present invention, a communication system comprises: a plurality of radio signal processing apparatuses installed for each cell to process radio signals; A plurality of digital signal processing apparatuses that are physically separated from the plurality of wireless signal processing apparatuses and connected to a core system and process wireless digital signals; And a cell interference control device connected to the plurality of digital signal processing devices and generating radio resource allocation information for minimizing inter-cell interference and transmitting the generated radio resource allocation information to the plurality of digital signal processing devices.

The plurality of digital signal processing apparatuses perform radio resource allocation scheduling using the radio resource allocation information.

In this case, the plurality of digital signal processing devices and the cell interference control device may be implemented as a virtualization server.

In addition, the plurality of wireless signal processing apparatus,

Receiving a backward signal from user terminals located in or near the cell of the cell and transmitting the reverse signal to the digital signal processor connected to the one of the plurality of digital signal processors;

The cell interference control device,

An interference amount determining unit determining a radio resource usage based on the reverse signals respectively received from the plurality of digital signal processing apparatuses; And a power controller configured to determine whether the radio resource usage satisfies a predefined criterion, and to turn off the cell interference control device when the predefined criterion does not satisfy the predefined criterion.

In addition, the power control unit,

The radio resource usage may be compared with a predefined threshold value, it may be determined whether the threshold value is exceeded, and if the threshold value is less than the threshold value, the power may be turned off.

In addition, the plurality of digital signal processing apparatus,

Transmitting radio resource usage information including the strength of a reverse signal received from a plurality of radio signal processing apparatuses connected thereto and the amount of data transmission to be transmitted to each of the user terminals, to the cell interference control apparatus;

The interference amount determining unit,

The radio resource usage may be determined based on the radio resource usage information.

In addition, the cell interference control device,

When the radio resource usage satisfies the predefined criteria, it is determined whether the cell interference and the cell interference type, and generates the radio resource allocation information according to the cell interference control method according to the cell interference type to generate the plurality of digital The apparatus may further include a cell interference controller for transmitting to the signal processing apparatus.

In addition, the cell interference control unit,

If it is determined that the cell interference type between the terminals located at the cell boundary, it is possible to generate radio resource allocation information according to a Coordinated Scheduling scheme for different channels.

In addition, the cell interference control unit,

If it is determined that the cell interference type in the cell, adjacent radio signal processing apparatuses may generate radio resource allocation information according to a joint processing scheme in which the same data is transmitted through the same band.

According to another feature of the present invention, the cell interference control device is physically separated from a plurality of radio signal processing devices installed for each cell to process a radio signal, and processing radio signals from the plurality of radio signal processing devices. A cell interference control device connected to a plurality of digital signal processing devices, comprising: a cell interference control unit for generating radio resource allocation information for minimizing inter-cell interference and transmitting the generated radio resource allocation information to the plurality of digital signal processing devices; And a power controller configured to determine whether radio resource usage of each of the digital signal processing apparatuses satisfies a predetermined criterion, and when the predetermined criterion does not satisfy the predetermined criterion, to turn off the cell interference control device.

The plurality of digital signal processing apparatuses perform radio resource allocation scheduling using the radio resource allocation information.

At this time, the cell interference control device,

The apparatus may further include an interference amount determining unit configured to determine radio resource usage based on the reverse signals received from the plurality of digital signal processing apparatuses, respectively.

In addition, the interference determination unit,

Receive radio resource usage information from the plurality of digital signal processing apparatus to determine the radio resource usage,

The radio resource usage information,

Each of the plurality of wireless signal processing apparatuses is located in its own cell, or the strength of the reverse signal received from the user terminals located in the vicinity of the cell and the data that the plurality of digital signal processing apparatus should transmit to the user terminals, respectively It can include the amount of transmission.

In addition, the cell interference control device,

When the radio resource usage satisfies the predefined criteria, it is determined whether the cell interference and the cell interference type, and generates the radio resource allocation information according to the cell interference control method according to the cell interference type to generate the plurality of digital The apparatus may further include a cell interference controller for transmitting to the signal processing apparatus.

According to the embodiment of the present invention, the cell interference control device is reduced only when the radio resource usage of the digital signal processing device is greater than or equal to a specific value, thereby reducing inter-cell interference. Can save.

1 is a block diagram of a communication system according to an embodiment of the present invention.
2 is a network diagram according to an embodiment of the present invention.
3 is a block diagram illustrating a detailed configuration of the apparatus for controlling cell interference of FIG. 2.
4 is a series of flowcharts illustrating a cell interference control method according to an embodiment of the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement 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 " part, "" module," and " module ", etc. in the specification mean a unit for processing at least one function or operation and may be implemented by hardware or software or a combination of hardware and software have.

In this specification, a terminal includes a mobile station (MS), a mobile terminal (MT), a subscriber station (SS), a portable subscriber station (PSS), a user equipment , An access terminal (UE), an access terminal (AT), and the like, and may include all or some functions of a terminal, a mobile terminal, a subscriber station, a mobile subscriber station, a user equipment,

In this specification, a base station (BS) includes an access point (AP), a radio access station (RAS), a node B, an evolved NodeB (eNodeB) A base station (BTS), a mobile multihop relay (MMR) -BS, or the like, and may perform all or a part of functions of an access point, a radio access station, a Node B, an eNodeB, a base transceiver station, .

Hereinafter, a communication system and a cell interference control device according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a communication system according to an embodiment of the present invention.

Referring to FIG. 1, a communication system includes a plurality of radio unit (RU) 100, a plurality of digital signal (DU) 200, and a cell interference control device 300. do. Here, the wireless signal processing apparatus 100 and the digital signal processing apparatus 200 form a signal processing system of wireless communication.

The wireless signal processing apparatus 100 includes an antenna and a processor for processing a radio frequency (RF) layer as a portion for processing a wireless signal. The digital signal received from the digital signal processing apparatus 200 is converted into a radio frequency (RF) signal according to a frequency band and amplified.

The wireless signal processing apparatus 100 is installed in a service target area, that is, a cell. The wireless signal processing apparatus 100 and the digital signal processing apparatus 200 may be connected by an optical cable.

In this case, in the present specification, a cell is used as a term referring to a coverage, that is, a service area of the wireless signal processing apparatus 100. Therefore, the inter-cell interference and the interference between the radio signal processing apparatus 100 have the same meaning.

The digital signal processing apparatus 200 processes a wireless digital signal and processes a physical (PHY) layer, a media access control (MAC) layer, and a RRC (Radio Resource Control, Layer 2, 3) layer. A processor, and performs processing such as encryption and decryption of a wireless digital signal, and is connected to a core system (not shown), where the core system (not shown) is connected to the digital signal processing apparatus 200 and an external network. It handles the connection of, and includes an exchanger (not shown) and the like.

Unlike the wireless signal processing apparatus 100, the digital signal processing apparatus 200 is a server that is not installed in a service target area but mainly installed in a centralized communication station, and is a virtualized base station.

In addition, one digital signal processing apparatus 200 is connected to the plurality of wireless signal processing apparatus 100 to transmit and receive signals. And it controls the signal interference between the wireless signal processing apparatus 100 connected to itself 200. In this case, the signal interference control method will be described later, but may use an exclusive scheduling method and a joint processing method.

The existing communication base station includes a processing unit corresponding to each of the wireless signal processing apparatus 100 and the digital signal processing apparatus 200 in one physical system, and one physical system is installed in the service target area. On the other hand, the system according to the present invention physically separates the wireless signal processing device 100 and the digital signal processing device 200, and only the wireless signal processing device 100 is installed in the service area.

In addition, the cell interference control apparatus 300 is connected to the plurality of digital signal processing apparatus 200. The cell interference control device 300 generates radio resource allocation information for minimizing inter-cell interference between different radio signal processing devices 100 by the connected digital signal processing device 200 to the plurality of digital signal processing devices 200. send. Then, the plurality of digital signal processing apparatuses 200 performs radio resource allocation scheduling of the wireless signal processing apparatus 100 connected thereto by using the radio resource allocation information.

The cell interference control device 300 controls interference between wireless signal processing devices 100 connected to different digital signal processing devices 200. The digital signal processing apparatus 200 adjusts radio signals between the wireless signal processing apparatuses 100 under the control of the cell interference control apparatus 300.

In this case, the plurality of digital signal processing apparatus 200 and the cell interference control apparatus 300 may be implemented as a virtualization server.

As described above, the digital signal processing apparatus 200 controls the interference between the wireless signal processing apparatuses 100 connected thereto. The cell interference control device 300 controls the interference between the wireless signal processing devices 100 connected to different digital signal processing devices 200.

Here, a situation in which cell interference occurs between wireless signal processing devices 100 connected to different digital signal processing devices 200 to explain the operation of the cell interference control device 300 will be described with reference to FIG. 2.

FIG. 2 is a network diagram according to an embodiment of the present invention, which is a simplified diagram of FIG.

Referring to FIG. 2, the first wireless signal processing apparatus RU1 101 is installed in the first cell 400. The second radio signal processing apparatus (RU2) 103 is installed in the second cell 500. Here, the first cell 400 and the second cell 500 are defined as service areas, which mean communication areas of the wireless signal processing apparatuses 101 and 103.

The first wireless signal processing device RU1 101 is connected to the first digital signal processing device DU1 201. The second wireless signal processing device (RU2) 103 is connected to the second digital signal processing device (DU2) 203. The first digital signal processing device DU1 201 and the second digital signal processing device DU2 203 are connected to the cell interference control device 300.

In this case, the terminal A 600 and the terminal B 700 are positioned in an area where the first cell 400 and the second cell 500 overlap. In addition, the terminal C 800 is located in the second cell 500.

Here, the first wireless signal processing device (RU1) 101 and the second wireless signal processing device (RU2) 103 receive reverse signals from the terminal A 600, the terminal B 700, and the terminal C 800, respectively. Receive. In this case, the reverse signal may be a reverse pilot signal or a reverse dedicated physical control channel (DPCCH) signal transmitted by the terminal A 600, the terminal B 700, and the terminal C 800.

The first wireless signal processing unit (RU1) 101 and the second wireless signal processing unit (RU2) 103 each include a first digital signal processing unit (DU1) 201 and a reverse signal received by itself. Each of them is sent to the second digital signal processing device (DU2) 203.

The first digital signal processing device (DU1) 201 and the second digital signal processing device (DU2) 203 periodically transmit radio resource usage information to the cell interference control device 300, respectively.

At this time, the radio resource usage information is the strength of the reverse signal received from the first radio signal processing unit (RU1) 101 and the second radio signal processing unit (RU2) 103, respectively, and each terminal 700, 800, 900 It may include the amount of data transmission to be sent to. In this case, the data transmission amount may include all or alternatively a transmission rate, a service amount, and the like.

The cell interference control apparatus 300 reduces mutual interference by preventing overlapping of time or frequency resources mutually allocated between cells by a user at a cell boundary. And when moving inside the cell, the same resource is used simultaneously to increase the resource reuse rate.

Based on the radio resource usage information, it is determined whether the radio resource usage of each of the first digital signal processing unit DU1 201 and the second digital signal processing unit DU2 203 currently exceeds a predetermined threshold. If it is less than the predefined threshold, the power is turned off. On the other hand, if the threshold is greater than or equal to the predetermined threshold, the cell interference control method according to the cell interference type is determined.

For example, since terminal A 600 and terminal B 700 are located in a cell boundary region, the cell interference control apparatus 300 controls cell interference according to an exclusive allocation scheme for the terminals 600 and 700. You can do In this case, the terminal of the cell boundary section, that is, the terminal A (600), the terminal B (700) to allocate the channel used mutually not overlapping to increase the signal to noise ratio (Signal Noise Rate, SNR) to the terminal A (600), terminal B ( To increase the transmission speed.

In addition, since the terminal C 800 is located in the cell, that is, in the second cell 500, the cell C 800 may perform cell interference control according to a simultaneous transmission scheme. In this case, the first wireless signal processing apparatus (RU1) 101 and the second wireless signal processing apparatus (RU2) 103 transmit the same data to the terminal C 800 through the same channel to increase the reception rate. (Needs for review by inventor: Please check if it is written correctly)

3 is a block diagram illustrating a detailed configuration of the apparatus for controlling cell interference of FIG. 2.

Referring to FIG. 3, the cell interference control apparatus 300 includes an interference amount determining unit 301, a cell interference control unit 303, and a power control unit 305.

The interference determiner 301 determines whether or not cell interference occurs according to the amount of interference between cells. Then, the radio resource usage information is received from the at least one digital signal processing unit (DU) 200 to determine the power on / off of the cell interference control apparatus 300. At this time, the interference amount determining unit 301 operates by a separate power source from the cell interference control device 300 and operates even when the power of the cell interference control device 300 is turned off. For example, the battery may be powered by an auxiliary battery.

The cell interference control unit 303 determines a cell interference control method for minimizing the amount of inter-cell interference based on the radio resource usage information received by the interference amount determining unit 301, and generates radio resource allocation information according to the cell interference control method. The digital signal processing unit (DU) 200 is transmitted.

The power control unit 305 turns on or off the power of the cell interference control device 300 according to the command of the interference amount determining unit 301.

4 is a series of flowcharts illustrating a cell interference control method according to an embodiment of the present invention.

In this case, the same reference numerals refer to the same elements as in FIGS. 1 to 3.

Referring to FIG. 4, the wireless signal processing apparatus (RU) 100 receives a backward signal from terminals located in or near a cell of the cell (S101).

Next, the wireless signal processing unit (RU) 100 transmits the reverse signal received in step S101 to the digital signal processing unit (DU) 200 which is connected with itself (S103).

Next, the digital signal processing device (DU) 200 generates radio resource usage information including the strength of the reverse signal received in step S103 and the amount of data transmission to be transmitted to the terminals (S105).

Next, the digital signal processing device (DU) 200 transmits the radio resource usage information generated in step S105 to the cell interference control device 300 (S107).

Next, the interference amount determining unit 301 of the cell interference control device 300, the radio resource usage of each digital signal processing unit (DU) 200 exceeds the predefined threshold based on the radio resource usage information received in step S107. It is determined whether or not (S109). For example, it is determined whether the radio resource is used for a time greater than or equal to a time to trigger (TTT) above a specific value.

At this time, if it is less than the predetermined threshold, that is, if the radio resource is not used for a time greater than or equal to a TTT (Time to Trigger) more than a specific value, the power control unit 305 turns off the power (S111).

On the other hand, if it is equal to or more than a predetermined threshold, that is, if the radio resource is used for a time greater than or equal to a time to trigger (TTT) above a specific value, the cell interference controller 303 determines a cell interference control scheme (S113). That is, as described above, the radio resource allocation according to the exclusive allocation method or the radio resource allocation according to the simultaneous transmission method is determined.

At this time, if the power of the cell interference control device 300 is turned off, step S113 is performed after the power is turned on.

Next, the cell interference controller 303 generates control information according to the cell interference control method determined in step S113 (S115) and transmits the control information to the digital signal processing apparatus (DU) 200 (S117).

At this time, the cell interference control unit 303, based on the radio resource usage information, determines that the cell interference type between the terminals located at the cell boundary, and generates radio resource allocation information according to the exclusive allocation scheme for different channels.

In addition, if the cell interference controller 303 determines that the cell interference type in the cell is based on the radio resource usage information, the cell interference control unit 303 may perform radio transmission according to a simultaneous transmission scheme in which adjacent radio signal processing apparatuses 100 transmit the same data through the same band. Generate resource allocation information.

Then, the digital signal processing apparatus (DU) 200 performs radio resource allocation scheduling according to the control information received in step S117 (S119). That is, by minimizing cell interference by transmitting the resource allocation information according to the radio resource allocation scheduling to the radio signal processing unit (RU) 100 connected thereto.

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.

Claims (12)

A plurality of radio signal processing apparatuses installed for each cell to process radio signals;
A plurality of digital signal processing devices that are physically separated from the plurality of wireless signal processing devices and connected to a core system, and process wireless digital signals; And
A cell interference control device connected to the plurality of digital signal processing devices and generating radio resource allocation information for minimizing intercell interference and transmitting the generated radio resource allocation information to the plurality of digital signal processing devices;
And the plurality of digital signal processing apparatuses perform radio resource allocation scheduling using the radio resource allocation information. The method of claim 1,
The plurality of digital signal processing apparatus and the cell interference control device,
Communication system implemented as a virtualization server. The method of claim 1,
The plurality of wireless signal processing apparatus,
Receiving a backward signal from user terminals located in or near the cell of the cell and transmitting the reverse signal to the digital signal processor connected to the one of the plurality of digital signal processors;
The cell interference control device,
An interference amount determining unit determining a radio resource usage based on the reverse signals respectively received from the plurality of digital signal processing apparatuses; And
A power control unit which determines whether the radio resource usage satisfies a predetermined criterion, and turns off the power of the cell interference control apparatus when the predetermined criterion does not satisfy the predetermined criterion;
≪ / RTI > The method of claim 3,
The power control unit includes:
And compare the radio resource usage with a predefined threshold, determine if the threshold is exceeded, and if the threshold is below the threshold, turn off the power. The method of claim 3,
The plurality of digital signal processing apparatus,
Transmitting radio resource usage information including the strength of a reverse signal received from a plurality of radio signal processing apparatuses connected thereto and the amount of data transmission to be transmitted to each of the user terminals, to the cell interference control apparatus;
The interference amount determining unit,
A communication system for determining a radio resource usage based on the radio resource usage information. The method of claim 3,
The cell interference control device,
When the radio resource usage satisfies the predefined criteria, it is determined whether the cell interference and the cell interference type, and generates the radio resource allocation information according to the cell interference control method according to the cell interference type to generate the plurality of digital Cell interference control unit for transmitting to the signal processing device
Further comprising: The method according to claim 6,
The cell interference control unit,
If it is determined that the cell interference type between the terminals located at the cell boundary, the communication system for generating radio resource allocation information according to the Coordinated Scheduling scheme for different channels. The method according to claim 6,
The cell interference control unit,
A communication system for generating radio resource allocation information according to a joint processing scheme in which adjacent radio signal processing apparatuses transmit the same data through the same band when determined as a cell interference type in a cell. A cell interference control device which is provided for each cell and physically separated from a plurality of wireless signal processing devices for processing wireless signals, and connected to a plurality of digital signal processing devices for processing wireless signals from the plurality of wireless signal processing devices. ,
A cell interference controller configured to generate radio resource allocation information for minimizing inter-cell interference and transmit the generated radio resource allocation information to the plurality of digital signal processing apparatuses; And
A power controller configured to determine whether the radio resource usage of each of the digital signal processing apparatuses satisfies a predetermined criterion, and when the predetermined criterion does not satisfy the predetermined criterion, to turn off the cell interference control device;
And the plurality of digital signal processing apparatuses perform radio resource allocation scheduling using the radio resource allocation information. 10. The method of claim 9,
Interference amount determination unit for determining the radio resource usage based on the reverse signal received from each of the plurality of digital signal processing apparatus
Cell interference control device further comprising. The method of claim 10,
The interference amount determining unit,
Receive radio resource usage information from the plurality of digital signal processing apparatus to determine the radio resource usage,
The radio resource usage information,
Each of the plurality of wireless signal processing apparatuses is located in its own cell, or the strength of the reverse signal received from the user terminals located in the vicinity of the cell and the data that the plurality of digital signal processing apparatus should transmit to the user terminals, respectively Cell interference control device comprising a transmission amount. 12. The method of claim 11,
When the radio resource usage satisfies the predefined criteria, it is determined whether the cell interference and the cell interference type, and generates the radio resource allocation information according to the cell interference control method according to the cell interference type to generate the plurality of digital Cell interference control unit for transmitting to the signal processing device
Cell interference control device further comprising.

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