KR20090070476A - Apparatus and method for interference cancelling in in multi-hop relay wireless communication system - Google Patents

Abstract

An apparatus for canceling interference in a multi-hop relay wireless communication system and a method thereof are provided to increase the number of hops of lower nodes in a base station to reduce interference influencing an adjacent cell. A backbone transceiver(621) receives an interference amount from adjacent cells through a backbone. A controller(607) compares the interference amount with a reference interference amount to determine whether to expand hops of lower relay stations. When the interference amount is larger than the reference interference amount, hop expansion is instructed to the lower relay stations to reduce the interference amount influencing the adjacent cells.

Description

Apparatus and method for eliminating interference in a wireless communication system using a multi-hop relay method {APPARATUS AND METHOD FOR INTERFERENCE CANCELLING IN IN MULTI-HOP RELAY WIRELESS COMMUNICATION SYSTEM}

The present invention relates to a wireless communication system using a multi-hop relay method, and more particularly, to an apparatus and method for removing interference in a wireless communication system using the multi-hop relay method.

The fourth generation communication system must be composed of very small radius cells to enable high speed communication and to accommodate more traffic. In this case, since there are many cells constituting the fourth generation communication system, it is expected that the fourth generation communication system cannot be centrally designed. Therefore, the fourth generation communication system requires a self-organizing wireless network that can cope actively with environmental changes such as addition of a new base station while being distributed and controlled.

Accordingly, the fourth generation communication system implements a self-organizing wireless network by introducing a multi-hop relay technique of an ad-hoc network technology.

When the multi-hop relay scheme is used in the wireless communication system, the wireless communication system transfers data in a multi-hop form by using terminals or relay stations located in a service area as shown in FIG. 1 below. Can be used.

1 shows a configuration of a wireless communication system using a multi-hop relay method according to the prior art.

As shown in FIG. 1, the base stations 100, 110, and 120 provide a relay service in a multi-hop form using the relay stations 101, 103, 105, 111, 113, 115, 121, 123, and 125. do. For example, the base station 1 (100) is located outside the service area by using the relay station 1-1 (101), the relay station 1-2 (103) and the relay station 1-3 (105), or shielded by a building or the like. It is located in this severe shaded area and can communicate with terminals with poor channel conditions.

As described above, when the multi-hop relay method is used in the wireless communication system, the wireless communication system can quickly reconfigure the network in response to changes in the communication environment and more efficiently operate the entire wireless network. In addition, the wireless communication system may provide a wireless channel having a better channel state to the terminal by configuring a multi-hop relay path using a relay station installed between the base station and the terminal. Accordingly, the wireless communication system can provide a high speed data channel to terminals located in a shadow area or a cell boundary area, and can expand a cell service area.

That is, the wireless communication system using the multi-hop relay method can increase the system capacity by using the same frequency resource. When the system capacity is increased in the wireless communication system using the multi-hop relay method, the transmission power is increased, so that the influence of interference between adjacent cells using the same frequency resource increases.

Accordingly, an object of the present invention is to provide an apparatus and method for reducing neighbor cell interference in a base station of a wireless communication system using a multi-hop relay method.

Another object of the present invention is to provide an apparatus and method for reducing interference affecting adjacent cells by increasing the number of hops of lower nodes in a base station of a wireless communication system using a multi-hop relay method.

According to a first aspect of the present invention for achieving the objects of the present invention, a method for canceling interference in a wireless communication system using a relay method, the process of checking the amount of interference of neighbor cells through a backbone, and the interference of the neighbor cells And comparing the amount of reference with the amount of reference interference to determine whether to extend the hops of the lower relay stations.

According to a second aspect of the present invention, a method for canceling interference in a wireless communication system using a relay method may include: checking whether an interference cancellation request signal is received from a neighbor cell through a backbone; If received, characterized in that it comprises the step of instructing the hop expansion to the lower relay stations to reduce the amount of interference affecting the adjacent cell.

According to a third aspect of the present invention, an interference cancellation apparatus of a wireless communication system using a relay method includes a backbone transceiver receiving an interference amount transmitted by neighbor cells through a backbone, and an interference amount based on the interference amount of the neighbor cells. And a control unit for determining whether to extend the hops of the lower relay stations.

According to the fourth aspect of the present invention, an interference cancellation apparatus of a wireless communication system using a relay method includes a backbone transceiver for confirming whether an interference cancellation request signal is received from a neighbor cell through a backbone, and an interference cancellation request signal from the neighbor cell; If is received, it characterized in that it comprises a control unit for indicating the hop expansion of the lower relay stations.

As described above, in a wireless communication system using a multi-hop relay method, when the interference affecting adjacent cells is large, the hops of lower nodes are extended, thereby reducing interference and reducing power loss.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

Hereinafter, a description will be given of a technique for reducing neighbor cell interference in a wireless communication system using a multi-hop relay method.

In the following description, cells included in the wireless communication system measure interference of neighbor cells and transmit them to the neighbor cells through a backbone. Here, the cells may transmit an interference amount affected by neighboring cells through a backbone or an interference cancellation signal according to the interference amount.

In this case, the cells adjust the number of hops of the lower nodes located in the service area in order to reduce interference affecting the neighboring cells according to the interference provided through the backbone. In other words, increasing the number of hops of the lower nodes in the cell can transmit signals with less power while maintaining the same system capacity, thereby reducing interference affecting adjacent cells.

First, the following description will be exemplarily described in which cells of the wireless communication system transmit an interference cancellation signal according to the amount of interference affected by neighboring cells. In the following description, it is assumed that the base station manages each cell.

2 illustrates a procedure for checking interference from an adjacent cell in a base station of a wireless communication system using a multi-hop relay method according to an exemplary embodiment of the present invention.

Referring to FIG. 2, first, the base station requests interference measurement to lower nodes located in the service area in step 201. Here, the lower node indicates relay stations and terminals located in a service area. In this case, the base station may request interference measurement to all lower nodes located in the service area or request interference measurement only to some lower nodes.

In step 203, the base station determines whether interference information is received from the lower nodes.

After receiving the interference information of the lower nodes, the base station proceeds to step 205 to calculate the average interference amount I ₀ of the entire cell using the interference information provided from the lower nodes.

After calculating the average interference amount I ₀ of the entire cell, the base station proceeds to step 207 and compares the average interference amount I ₀ and the reference interference amount I _{th of the} entire cell to request interference cancellation from adjacent cells. Determine.

If the average amount of interference of the cell as a whole is less than or equal to the reference amount of interference (I ₀ ≤ I _th ), the base station determines that interference from neighboring cells is less affected. Therefore, the base station returns to step 201 and requests the interference amount measurement to the lower nodes.

On the other hand, if the average interference amount of the entire cell is greater than the reference interference amount (I ₀ > I _th ), the base station proceeds to step 209 and transmits an interference cancellation request signal to neighbor cells through the backbone. For example, the base station broadcasts an interference cancellation request signal to the neighbor cells through a backbone.

The base station then terminates this algorithm.

As described above, when the interference of the neighbor cells is requested by the cell of the wireless communication system to request interference cancellation to the neighbor cells, the neighbor cells are used to reduce the effect of interference on the cell requesting the interference cancellation. It works as shown in

3 illustrates a procedure for reducing the influence of interference from a base station to an adjacent cell in a wireless communication system using a multi-hop relay method according to an exemplary embodiment of the present invention.

Referring to FIG. 3, the base station first checks whether an interference cancellation signal is received from a neighbor cell through a backbone in step 301.

If the interference cancellation signal is received from the neighbor cell, the base station proceeds to step 303 and instructs to extend the hop to lower relay stations located in the service area.

The base station then terminates this algorithm.

As described above, when the base station instructs hop expansion to lower relay stations, the lower relay stations expand the number of hops with the base station. In this case, the base station may increase the system capacity by expanding the number of hops of the lower relay stations, but maintains the system capacity as before the hop expansion to reduce interference affecting the neighboring cells. Accordingly, the base station maintains system capacity while expanding the number of hops, thereby reducing power loss of the entire system.

In the following description, the cells of the wireless communication system will be described as an example of transmitting interference affected by neighboring cells through the backbone. In the following description, it is assumed that the base station manages each cell.

4 illustrates a procedure for checking interference from an adjacent cell at a base station of a wireless communication system using a multi-hop relay method according to another embodiment of the present invention.

Referring to FIG. 4, in step 401, the base station requests interference measurement to lower nodes located in the service area. Here, the lower node indicates relay stations and terminals located in a service area. In this case, the base station may request interference measurement to all lower nodes located in the service area or request interference measurement only to some lower nodes.

In step 403, the base station determines whether interference information is received from the lower nodes.

After receiving the interference information of the lower nodes, the base station proceeds to step 405 to calculate the average amount of interference (I ₀ ) of the entire cell using the interference information provided from the lower nodes.

After calculating the average interference amount I ₀ of the entire cell, the base station proceeds to step 207 and transmits the average interference amount of the entire cell to neighbor cells through the backbone. For example, the base station broadcasts the average amount of interference of the entire cell through the backbone to the adjacent cells.

The base station then terminates this algorithm.

As described above, when a cell of the wireless communication system transmits the average amount of interference of the entire cell, the adjacent cells operate as shown in FIG. 5 to reduce the influence of interference on the cell requesting the interference cancellation.

5 is a flowchart illustrating a procedure for reducing the influence of interference from a base station to an adjacent cell in a wireless communication system using a multi-hop relay method according to another embodiment of the present invention.

Referring to FIG. 5, the base station first checks the average amount of interference of neighbor cells in step 501. That is, the base station identifies the average amount of interference that neighbor cells broadcast on the backbone.

After checking the average interference amount I ₀ of the neighbor cells, the base station determines in step 503 whether to remove the interference on neighbor cells by comparing the average interference amount I ₀ with a reference interference amount I _th . .

If the average amount of interference is less than or equal to the reference amount of interference (I ₀ ≤ I _th ), the base station does not need to perform interference cancellation because it determines that the interference from the neighboring cells is small. Therefore, the base station returns to step 501 to check the average amount of interference of neighbor cells again.

On the other hand, if the average amount of interference is greater than the reference amount of interference (I ₀ > I _th ), the base station determines in step 505 that the interference affecting adjacent cells is large and hops to lower relay stations located in the service area. Instructs to expand.

The base station then terminates this algorithm.

As described above, when the base station instructs hop expansion to lower relay stations, the lower relay stations expand the number of hops with the base station. In this case, the base station may increase the system capacity by expanding the number of hops of the lower relay stations, but maintains the system capacity as before the hop expansion to reduce interference affecting the neighboring cells. Accordingly, the base station maintains system capacity while expanding the number of hops, thereby reducing power loss of the entire system.

Hereinafter, a block configuration of a base station for reducing interference in the wireless communication system will be described. In the following description, it is assumed that the base station uses a time division duplex scheme.

6 is a block diagram of a base station in a wireless communication system using a multi-hop relay method according to the present invention.

As illustrated in FIG. 6, the base station includes a receiver 601, a decoder 603, a message processor 605, a controller 607, an interference checker 609, a message generator 611, and an encoder 613. ), A transmitter 615 and an RF switch 617, a time controller 619, and a backbone transceiver 621.

First, the time controller 619 controls the switching operation of the RF switch 617 based on frame synchronization. For example, if a signal is received, the time controller 619 controls the RF switch 617 so that the antenna and the receiver 601 are connected. In addition, when the signal transmission period, the time controller 619 controls the RF switch 617 so that the antenna and the transmitter 615 are connected.

In the reception period, the receiver 601 converts a high frequency signal provided from the RF switch 617 into a baseband frequency domain signal and transmits the signal to the decoder 603. For example, the receiver 601 may include an RF receiving block, a demodulation block, and the like. In this case, the RF reception block includes a filter, an RF preprocessor, and the like, and the demodulation block includes an orthogonal frequency division multiplexing (OFDM) demodulator for extracting data contained in each subcarrier.

The decoder 603 demodulates and decodes the signal provided from the receiver 601 according to a modulation level (eg, modulation and coding scheme level). .

The message processor 605 detects a control signal included in the signal provided from the decoder 603 and transmits the control signal to the controller 607. For example, the message processor 605 checks the interference cancellation amount information of the lower nodes included in the signal provided from the decoder 603 and transmits the interference cancellation amount information to the controller 607.

The controller 607 determines whether to request interference cancellation from an adjacent cell according to the amount of interference received from the message processor 605. For example, the controller 607 calculates the average amount of interference of the entire cell by providing the interference check unit 609 with the amount of interference of the lower nodes provided from the message processing unit 605. That is, the interference checking unit 609 calculates an average amount of interference of the entire cell using the amount of interference of lower nodes provided from the message processing unit 605.

Thereafter, the controller 607 determines whether to request interference cancellation to an adjacent cell by comparing the average amount of interference of the entire cell with a reference amount of interference. That is, when the average interference amount of the entire cell is greater than the reference interference amount, the controller 607 transmits an interference cancellation signal to the backbone transceiver 621 to request interference cancellation to neighbor cells through the backbone.

In another embodiment, the control unit 607 transmits the average amount of interference of the entire cell to the back-up transceiver 621 to transmit the average amount of interference of the entire cell provided from the interference checker 609 to the adjacent cells via the backbone. do.

In addition, the controller 607 determines whether to remove interference based on interference information of neighbor cells provided from the backbone transceiver 621. For example, when receiving the interference cancellation request signal of neighbor cells from the backbone transceiver 621, the controller 607 directs hop expansion to lower nodes to reduce interference affecting the neighbor cells.

In another embodiment, when the average amount of interference of each of the neighbor cells is received from the backbone transceiver 621, the controller 607 compares the average amount of interference of each of the neighbor cells with a reference amount of interference to remove interference that affects the neighbor cells. Decide if you want to. That is, when the average amount of interference is greater than the reference amount of interference, the controller 607 directs hop expansion to lower nodes in order to reduce interference affecting the adjacent cells.

The backbone transceiver 621 controls the base station to transmit and receive signals with neighbor cells via a backbone.

The message generator 611 generates a control message to be transmitted through a backbone or a control message to be transmitted to lower nodes under the control of the controller 607. For example, the message generator 611 generates an interference cancellation request message to be transmitted to neighbor cells through a backbone under the control of the controller 607. In addition, the message generator 611 generates an interference amount measurement request message to be transmitted to lower nodes under the control of the controller 607. In addition, the message generator 611 generates a hop extension message to be transmitted to lower relay stations under the control of the controller 607.

The encoder 613 encodes and modulates a message provided from the message generator 611 or data to be transmitted to lower nodes according to a corresponding modulation level.

The transmitter 615 converts the baseband signal provided from the encoder 613 into a high frequency signal and transmits the RF signal to the RF switch 617. For example, the transmitter 615 may be configured to include an RF transmission block, a modulation block, and the like. In this case, the RF transmission block includes a filter, an RF preprocessor, and the like, and the modulation block includes an OFDM modulator for converting a frequency domain signal into a time domain signal.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined not only by the scope of the following claims, but also by the equivalents of the claims.

1 is a diagram showing the configuration of a wireless communication system using a multi-hop relay method according to the prior art;

2 is a diagram illustrating a procedure for checking interference from an adjacent cell in a base station of a wireless communication system using a multi-hop relay method according to an embodiment of the present invention;

3 is a diagram illustrating a procedure for reducing the influence of interference from a base station to an adjacent cell in a wireless communication system using a multi-hop relay method according to an embodiment of the present invention;

4 is a diagram illustrating a procedure for checking interference from an adjacent cell in a base station of a wireless communication system using a multi-hop relay method according to another embodiment of the present invention;

5 is a diagram illustrating a procedure for reducing the influence of interference from a base station to an adjacent cell in a wireless communication system using a multi-hop relay method according to another embodiment of the present invention; and

6 is a block diagram of a base station in a wireless communication system using a multi-hop relay method according to the present invention.

Claims (21)

In the interference cancellation method of a wireless communication system using a relay method, Checking the amount of interference of adjacent cells through the backbone; And comparing the amount of interference of the neighbor cells with a reference amount of interference to determine whether to extend the hops of the lower RSs. The method of claim 1, The amount of interference of the neighbors is the total average amount of interference of each cell. The method of claim 1, The process of determining whether to hop expansion, And if the amount of interference of the neighboring cells is greater than the reference interference amount, instructing hop expansion to the lower relay stations to reduce the amount of interference affecting the neighboring cell. The method of claim 1, Checking the amount of interference of the lower nodes, Calculating an average amount of interference of the entire cell using the amount of interference of the lower nodes; And transmitting the average amount of interference of the entire cell to adjacent cells through a backbone. The method of claim 4, wherein The lower node comprises at least one of a lower relay station or a terminal. In the interference cancellation method of a wireless communication system using a relay method, Checking whether an interference cancellation request signal is received from a neighbor cell through the backbone; And when the interference cancellation request signal is received from the neighbor cell, instructing hop expansion to lower relay stations to reduce the amount of interference affecting the neighbor cell. The method of claim 6, Checking the amount of interference of the lower nodes, Calculating an average amount of interference of the entire cell using the amount of interference of the lower nodes; And determining whether to request interference cancellation to neighboring cells by comparing the average amount of interference of the entire cell with a reference amount of interference. The method of claim 7, wherein The lower node comprises at least one of a lower relay station or a terminal. The method of claim 7, wherein Determining whether to request the interference cancellation, If the average amount of interference is greater than the reference amount of interference, transmitting an interference cancellation request signal to the adjacent cells through the backbone. In the interference cancellation device of a wireless communication system using a relay method, A backbone transceiver that receives the amount of interference transmitted by neighboring cells through the backbone; And a controller configured to determine whether to extend a hop of lower relay stations by comparing the interference amounts of the neighbor cells with a reference interference amount. The method of claim 10, And the backbone transceiver receives the total average amount of interference for each cell transmitted by the neighbor cells through the backbone. The method of claim 10, And if the interference amount of the neighbor cells is greater than the reference value, the controller instructs hop extension to the lower relay stations in order to reduce the amount of interference affecting the neighbor cells. The method of claim 10, The control unit further comprises a transmitter for transmitting a hop extension indication signal to the lower relay station when the control unit instructs the hop extension of the lower relay stations. The method of claim 10, The apparatus further includes an interference amount checking unit for checking an interference amount of lower nodes to calculate an average interference amount of the entire cell. The backbone transceiver, characterized in that for transmitting the average amount of interference of the entire cell through the backbone to the adjacent cells. The method of claim 14, The lower node includes at least one of a lower relay station or a terminal. In the interference cancellation device of a wireless communication system using a relay method, A backbone transceiver for checking whether an interference cancellation request signal is received from a neighbor cell through the backbone; And a control unit for instructing hop expansion of lower relay stations when an interference cancellation request signal is received from the neighboring cell. The method of claim 16, The control unit further comprises a transmitter for transmitting a hop extension indication signal to the lower relay station when the control unit instructs the hop extension of the lower relay stations. The method of claim 16, The apparatus further includes an interference amount checking unit for checking an interference amount of lower nodes to calculate an average interference amount of the entire cell. And the controller compares the average interference amount of the entire cell with the reference interference amount and determines whether to request interference cancellation from adjacent cells. The method of claim 18, The lower node includes at least one of a lower relay station or a terminal. The method of claim 18, The control unit, if the average amount of interference of the entire cell is larger than the reference value, characterized in that the control to request interference cancellation to the adjacent cells. The method of claim 20, And the backbone transceiver transmits an interference cancellation request signal to the neighbor cells through a backbone when the controller controls the neighbor cells to request interference cancellation.

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