KR20150086445A - Method and apparatus for cooperative communication of wireless communication system - Google Patents

Abstract

The present invention provides an apparatus and a method for executing cooperative communication. The apparatus executes cooperative communication by the steps of: comparing first channel status information for a channel status between a base station and a first terminal, located on a cell of the base station with a first threshold value; and cooperating with at least one neighbor base station among a plurality of neighbor base stations based on the result of comparison between the first channel status information and the first threshold value.

Description

TECHNICAL FIELD The present invention relates to a cooperative communication method and apparatus for a wireless communication system,

The present invention relates to a method and apparatus for performing cooperative communications in a wireless communication system.

In general, a terminal located at a cell boundary can receive interference from neighboring cells and can simultaneously interfere with neighboring cells. At this time, the quality of service for the UE located at the cell boundary may deteriorate, and the performance of the entire network may also be degraded. Therefore, it is necessary to control the interference of the UE located in the cell boundary region. If the interference is appropriately controlled, the service quality and overall network performance of the UE can be improved.

Interference control for a terminal located at a cell boundary can be performed through 'resource management' and 'collaborative communication'. At this time, the cooperative communication cooperates with neighboring base stations to control the interference to the terminals (or interference terminals) located at the cell boundary. Particularly, the number of small base stations is increasing and the coverage of macro base stations and small base stations are overlapping. Therefore, a method for effectively controlling interference in a multi-layer wireless network including various types of cells is needed.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an inter-base station cooperative communication method and apparatus capable of efficiently controlling interference to a terminal located at a cell boundary.

According to an embodiment of the present invention, a cooperative communication method of a base station is provided. The cooperative communication method includes comparing first channel state information on a channel state between a base station and a first terminal located in a cell of a base station to a first threshold value and comparing the first channel state information and the first threshold value And cooperating with at least one neighboring base station of the plurality of neighboring base stations based on the comparison result.

Wherein the first channel state information includes at least one of CINR, RSSI, RSRP, and RSRQ, and information about channel quality includes at least one PMI, The at least one PMI may include at least one of a recommended PMI or a restricted PMI.

In the base station cooperative communication method, the first threshold may be a threshold associated with at least one of CINR, RSSI, RSRP, or RSRQ.

The cooperative communication method of the base station may further include receiving first channel state information from the first terminal.

The cooperative communication method of the base station may further include a step of estimating a first channel based on a signal of a predetermined pattern received from the first terminal and selecting PMI based on the estimated channel.

The cooperative communication method of the base station includes comparing second channel state information with respect to a channel state between the at least one neighboring base station and a second terminal located in a cell of at least one neighboring base station to a second threshold value, And performing cooperation for interference cancellation for at least one neighboring base station and the first terminal based on the comparison result of the second channel state information and the second threshold value.

The cooperative communication method of the base station may include comparing third channel state information with respect to a channel state between at least one neighboring base station and a third terminal located in a cell of at least one neighboring base station with a third threshold value, And performing cooperative transmission to at least one neighboring base station and the first terminal based on the comparison result of the third channel state information and the third threshold value.

The cooperative communication method of the base station includes comparing fourth channel state information with respect to a channel state between at least one neighboring base station and a fourth terminal located in a cell of at least one neighboring base station with a fourth threshold value, And performing cooperative reception with at least one neighboring base station based on the comparison result of the fourth channel state information and the fourth threshold value.

According to another embodiment of the present invention, a cooperative communication method of an interference management control apparatus is provided. The cooperative communication method of the interference management control device includes a step of comparing first channel state information on a channel state between a first base station among a plurality of base stations and a first base station located in a cell of the first base station with a first threshold value And requesting cooperation of at least one neighboring base station and the first base station among the plurality of neighboring base stations based on the comparison result of the first channel state information and the first threshold value.

The first channel state information in the cooperative communication method of the interference cancellation control apparatus includes information on the channel quality and at least one PMI, and the information on the channel quality includes at least one of CINR, RSSI, RSRP, or RSRQ , And the at least one PMI may include at least one of a recommended PMI and a restricted PMI.

In the cooperative communication method of the interference cancellation control apparatus, the first threshold may be a threshold related to at least one of CINR, RSSI, RSRP, or RSRQ.

The cooperative communication method of the interference cancellation control apparatus may further comprise the step of setting second channel state information about a channel state between a second base station of at least one neighboring base station and a second terminal located in a cell of the second base station as a second threshold value And requesting the first base station and the second base station for cooperation for interference cancellation for the first terminal based on the comparison result of the second channel state information and the second threshold value have.

The cooperative communication method of the interference cancellation control apparatus may further comprise the step of setting third channel state information on a channel state between a third base station of at least one neighbor base station and a third base station located in a cell of the third base station, And requesting the first and third base stations for cooperative transmission to the first terminal based on the comparison result of the third channel state information and the third threshold value.

The cooperative communication method of the interference management control device compares fourth channel state information about a channel state between at least one neighboring base station and a fourth terminal located in a cell of at least one neighboring base station with a fourth threshold value And requesting the first base station and the fourth base station to receive the cooperative reception of the first terminal based on the comparison result of the fourth channel state information and the fourth threshold value.

According to another embodiment of the invention, there is provided a computer program product comprising at least one processor,

And at least one processor executes at least one program stored in the memory to store first channel state information on a channel state between a base station and a first terminal located in a cell of the base station, And cooperating with at least one neighboring base station of the plurality of neighboring base stations based on the comparison result of the first channel state information and the first threshold.

Wherein the first channel state information comprises at least one of a CINR, RSSI, RSRP, or RSRQ, and at least one of May include at least one of a recommended PMI or a restricted PMI.

The first threshold in the cooperating communication device may be a threshold associated with at least one of CINR, RSSI, RSRP, or RSRQ.

Wherein the at least one processor in the cooperative communication device compares second channel state information with respect to a channel state between the at least one neighboring base station and a second terminal located in a cell of the at least one neighboring base station with a second threshold value And performing cooperation for interference cancellation on the at least one neighboring base station and the first terminal based on the comparison result of the second channel state information and the second threshold value.

Wherein the at least one processor in the cooperative communication device compares third channel state information regarding channel conditions between the at least one neighboring base station and a third terminal located in a cell of the at least one neighboring base station to a third threshold And performing a cooperative transmission to the at least one neighboring base station and the first terminal based on the comparison result of the third channel state information and the third threshold value.

Wherein the at least one processor in the cooperative communication device compares fourth channel state information regarding channel conditions between the at least one neighboring base station and a fourth terminal located in a cell of the at least one neighboring base station to a fourth threshold And performing cooperative reception of at least one neighboring base station and the first terminal based on the comparison result of the fourth channel state information and the fourth threshold value.

According to an embodiment of the present invention, cooperative communication for interference control of a terminal located at the cell boundary can be efficiently performed by using an appropriate-sized threshold value corresponding to the channel state between the base station and the terminal.

FIG. 1 illustrates a wireless network in which interference management is performed according to an embodiment of the present invention. Referring to FIG.
2 is a flowchart illustrating an interference management method according to an embodiment of the present invention.
3 and 4 are views illustrating a wireless network in which interference management is performed according to another embodiment of the present invention.
5 is a flowchart illustrating an interference management method according to another embodiment of the present invention.
FIG. 6 and FIG. 7 are flowcharts illustrating a cooperative method in which the interference management controller controls cooperation in the downlink according to an embodiment of the present invention.
FIG. 8 and FIG. 9 are flowcharts illustrating a cooperative method for controlling cooperation between an interference management controller and a base station in a downlink according to an embodiment of the present invention.
10 is a flowchart illustrating a cooperation method by which a base station controls cooperation according to an embodiment of the present invention.
11 is a flowchart illustrating triggering conditions for cooperative transmission according to an embodiment of the present invention.
FIG. 12 is a flowchart illustrating a cooperative method in which an interference management controller controls cooperation in an uplink according to another embodiment of the present invention.
FIG. 13 is a flowchart illustrating a cooperation method in which a base station controls cooperation in an uplink according to another embodiment of the present invention.
14 is a flowchart illustrating triggering conditions for cooperative transmission according to another embodiment of the present invention.
15 is a block diagram illustrating a wireless communication system 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, a terminal is referred to as a mobile station (MS), a mobile terminal (MT), an advanced mobile station (AMS), a high reliability mobile station (HR- A subscriber station (SS), a portable subscriber station (PSS), an access terminal (AT), a user equipment (UE) , HR-MS, SS, PSS, AT, UE, and the like.

Also, a base station (BS) is an advanced base station (ABS), a high reliability base station (HR-BS), a node B, an evolved node B, eNodeB), an access point (AP), a radio access station (RAS), a base transceiver station (BTS), a mobile multihop relay (MMR) (RS), a relay node (RN) serving as a base station, an advanced relay station (ARS) serving as a base station, a high reliability relay station (HR) A femto BS, a home Node B, a HNB, a pico BS, a metro BS, a micro BS, ), Etc., and may be all or part of an ABS, a Node B, an eNodeB, an AP, a RAS, a BTS, an MMR-BS, an RS, an RN, an ARS, It may include a negative feature.

FIG. 1 illustrates a wireless network in which interference management is performed according to an embodiment of the present invention. Referring to FIG.

Referring to FIG. 1, the base station 1 111 and the base station 2 112 can form a beam through precoding when transmitting data to a terminal located in a boundary region of each cell. At this time, the first base station 111 and the second base station 112 may share information about beams that can act as interference with each other. Therefore, when the first base station 111 forms a beam to be transmitted to the first base station 121, it can remove (interference nulling) a beam that can act as interference with the second base station 122. [ Similarly, when the base station 2 (112) forms a beam to be transmitted to the terminal 2 (122), it can remove the beam that can act as an interference to the terminal 1 (121).

2 is a flowchart illustrating an interference management method according to an embodiment of the present invention.

First, the first terminal 121 measures the state of the downlink physical channel and reports channel state information (CSI) of the downlink channel to the first base station 111. The second terminal 122 also measures the state of the downlink physical channel and reports the CSI of the downlink channel to the second base station 112. At this time, the CSI of the downlink physical channel is determined based on a channel quality (for example, a carrier to interference noise ratio (CINR), a received signal strength indicator (RSSI) (RSRP), a reference signal received quality (RSRQ), etc.), precoding related information (e.g., restricted precoding matrix index, restricted PMI, Or not recommended PMI), and less interference free precoding related information (e.g., a suggested PMI, a recommended PMI, etc.). That is, each base station can collect the CSI of the downlink physical channel reported by each terminal (CSI feedback). Alternatively, the BS may estimate the CSI of the downlink physical channel based on the uplink data transmitted by the UE in a predetermined pattern (CSI measurement).

Next, each base station cooperates with each other based on status information of downlink physical channels collected / estimated from the terminal (or at least one terminal serving as a base station). 2, the first base station 111 cooperates with the second base station 112 based on the status information of the downlink physical channel for the first base station 121, and the second base station 112 performs cooperation with the second base station 112 And cooperates with the base station 111 based on the status information of the downlink physical channel.

Referring to FIG. 2, each base station reports the collected CSI to an interference management controller (IM-IND) (C-IM-IND). At this time, the interference management controller may be separately located from the base station and connected to each base station by a backhaul. Alternatively, the interference management control device may be located in a specific base station.

Each base station can also report usage information of radio resources used by the base station to the interference management control apparatus. That is, in the report (C-IM-IND) reported by each base station to the interference management controller, the CSI of the downlink physical channel including the channel quality, the precoding related information serving as interference, And usage information of radio resources used in the base station.

Then, the interference management controller transmits a restricted PMI (restricted PMI) to other base stations to reduce interference in a cell boundary area based on the report reported by each base station. That is, when the first terminal 121 reports a restricted PMI to the first base station 111, the interference management controller transmits a signal to the first base station 111 via the neighboring base station (base station 2, etc.) Of the PMI. The neighboring base station that has received the information on the restricted PMI of the UE # 1 121 from the interference management control apparatus may not use the precoding vector corresponding to the restricted PMI in order to reduce the interference to the UE # 1 121. [

At this time, each base station may include whether or not to apply the restricted PMI to the response (C-IM-RSP) transmitted to the interference management controller. The base station can then request renegotiation for scheduling with the interference management control device and include in the response the reason (e.g., traffic overload, etc.) that the renegotiation is needed. If the base station requests renegotiation, the response sent to the interference management controller may include whether to apply the restricted PMI.

On the other hand, the recommended PMI transmitted by the terminal to be served by the base station may form a beam that is the same as or similar to the PMI requested by the interference management controller (e.g., restricted PMI or non-recommended PMI). In this case, the base station may schedule the downlink for the corresponding terminal (that is, the terminal reporting the recommended PMI), or schedule the resource not interfering with (or weakly interfering with) the resource used by the neighboring base station have.

Each base station can minimize the interference to the terminal serving at the counterpart base station through cooperation through the interference management controller. At this time, each base station can continuously update the transmission method for the UE by continuously performing CSI collection and cooperation.

3 and 4 are views illustrating a wireless network in which interference management is performed according to another embodiment of the present invention.

Referring to FIG. 3, a terminal 121 located in a boundary region of a cell measures a channel state with the first base station 111 and reports CSI to the first base station 111. The first base station 111 may share the CSI received from the terminal 121 with the second base station 112 and perform cooperative transmission with the second base station 112 to the terminal 121. [

Referring to FIG. 4, Terminal 1 121 and Terminal 2 122 located in a boundary region of a cell measure the channel state between base station 1 111 and base station 2 112, respectively, and report CSI. That is, the first terminal 121 measures the channel state with the first base station 111 and reports the CSI to the first base station 111, the second terminal 122 measures the channel state with the second base station 112, Lt; RTI ID = 0.0 > 112 < / RTI > The base station 1 111 and the base station 2 112 share the CSI of the terminal 1 121 and the terminal 2 122 and can perform cooperative transmission to the terminal 1 121 and the terminal 2 122 At this time, the CSI reported from each terminal to the base station is as described above.

5 is a flowchart illustrating an interference management method according to another embodiment of the present invention. FIG. 5 shows a flowchart of a method of interference management through cooperative transmission of the wireless network shown in FIG. 3 and FIG.

First, the terminal 1 121 transmits a signal of a predetermined pattern (for example, a sounding signal) to the first base station 111 and the second base station 112 (S501). The base station 1 111 and the base station 2 112 112 can estimate a channel based on the signal received from the terminal 1 121 and select the PMI through the estimated channel in operation S502. In this case, the CSI of the downlink physical channel may include channel quality (for example, CINR, RSSI, RSRP, RSRQ, etc.), precoding related information (e.g., restricted PMI or non- Related information (e. G., A suggested PMI, or a recommended PMI, etc.) with low interference. Alternatively, the first terminal 121 may report the CSI to each base station.

Each base station reports the CSI to the interference management controller 100 (C-IM-IMD) (S503). Each base station can also report usage information of radio resources used by the base station to the interference management control apparatus 100. [ The radio resource use information of the base station reported to the interference management controller 100 can be used for interference management in the future.

Then, the interference management controller 100 requests cooperation from each base station using the reported CSI, etc. (C-IM-REQ) (S504). For example, the interference cancellation control apparatus 100 can instruct a transmission method (antenna selection, transmission area, or the like) to each base station and use the service method (macro diversity, single user MIMO, SU-MIMO), and spatial multiplexing).

Then, each base station can transmit a response (C-IM-RSP) in response to a request from the interference management controller 100 (S505). At this time, each base station can request the renegotiation by adding the cooperative transmission participation to the response to the interference management control device 100 in the cooperation process. If the base station requests renegotiation, the reason for renegotiation may be included in the renegotiation request (e.g., excessive traffic).

Each base station can perform cooperative transmission to a terminal located in a cell boundary region through cooperation through the interference management controller 100 (S505). Then, each base station can continuously update the transmission method for the UE by continuously performing CSI collection and cooperation.

According to one embodiment of the present invention, the cooperative network (downlink transmission) between base stations is divided into 1) a cooperative network in which each base station cooperates via the interference management control device 100 and 2) a cooperative network in which each base station cooperates with each other .

FIG. 6 and FIG. 7 are flowcharts illustrating a cooperative method by which an interference management control apparatus controls cooperation in a downlink according to an embodiment of the present invention. FIGS. 8 and 9 are flowcharts of a downlink FIG. 10 is a flowchart illustrating a cooperation method by which a base station controls cooperation according to an embodiment of the present invention. FIG.

Referring to FIG. 6, the first base station 111 reports the CSI reported by the UE 121 to the interference management controller 100 (S601, S602, S603). The interference management control apparatus 100 determines whether to perform cooperative transmission based on the CSI reported by each of the base stations 111, 112, ..., 11n, (S604). That is, according to the cooperation method shown in FIG. 6, the interference management control device 100 can perform both check and decision on the cooperative transmission.

Subsequently, the interference management controller 100 negotiates whether or not to cooperate with each of the base stations 111, 112, ..., 11n (S605), and the base station accepting the negotiation agrees with the base station 111 The cooperative transmission can be performed (S606).

Referring to FIG. 7, the BS determines whether to perform cooperative transmission based on the CSI (S701, S702) reported by the UE (S703). Thereafter, when there is a need for cooperative transmission, the base station reports CSI and used resource information to the interference management control apparatus 100 (S704). Then, the interference management controller 100 decides to cooperatively transmit the cooperative transmission based on the report of the base station (S705). That is, according to the cooperation method shown in FIG. 7, the base station checks the necessity of cooperative transmission, and the interference management controller 100 can make a decision on cooperative transmission.

Subsequently, the interference management controller 100 negotiates whether or not to cooperate with each of the base stations 111, 112, ..., 11n (S706), and the base station accepting the negotiation agrees with the base station 111 The cooperative transmission can be performed (S707).

Referring to FIG. 8, each of the base stations 111, 112, ..., and 11n can measure the downlink channel state through the data transmitted by the terminal 121 (S801, S802). For example, each of the base stations 111, 112, ..., and 11n estimates a downlink channel based on the sounding signal transmitted by the terminal 121, and generates a PMI for downlink data transmission based on the estimated downlink channel. Can be selected. At this time, the sounding signal transmitted by the terminal 121 has a predetermined pattern.

Each of the base stations 111, 112, ..., 11n reports the measured channel state information to the interference management controller 100 (S803). Based on the channel state information reported by each of the base stations 111, 112, ..., 11n, the interference management controller 100 checks whether the cooperative transmission can be performed, Decides to operate cooperative transmission (S804). That is, according to the cooperation method shown in FIG. 8, the interference management control device 100 can perform both check and decision on the cooperative transmission. Subsequently, the interference management controller 100 negotiates whether or not to cooperate with each of the base stations 111, 112, ..., 11n (S805), and the base station accepting the negotiation agrees with the base station 111 Cooperative transmission can be performed (S806).

Referring to FIG. 9, each of the base stations 111, 112, ..., 11n can measure the downlink channel state through the data transmitted by the terminal 121 (S901, S902). For example, each of the base stations 111, 112, ..., and 11n estimates a downlink channel based on the sounding signal transmitted by the terminal 121, and generates a PMI for downlink data transmission based on the estimated downlink channel. Can be selected. At this time, the sounding signal transmitted by the terminal has a predetermined pattern.

In step S903, each of the base stations 111, 112, ..., 11n checks whether the cooperative transmission can be performed based on the measured channel state information. Each of the base stations 111, 112, ..., and 11n reports channel state information, used resource information, and the like to the interference management controller 100 when there is a need for cooperative transmission (904). 9, the base station 1 (111) and the base station 2 (112) report the channel state information and the like to the interference management control device (100).

Then, the interference management controller 100 determines (cooperatively) transmits the cooperative transmission based on the report of the base station (S905). That is, according to the cooperation method shown in FIG. 9, the base station checks the necessity of cooperative transmission, and the interference management control device 100 can make a decision on cooperative transmission.

Subsequently, the interference management controller 100 negotiates whether or not to cooperate with each of the base stations 111, 112, ..., 11n (S906), and the base station accepting the negotiation agrees with the base station 111 Cooperative transmission can be performed (S907).

Referring to FIG. 10, the UE 121 reports the CSI to the serving BS (S-BS) 111 (S1001). The serving base station 111 determines cooperative transmission based on the CSI reported by the UE (S1002, S1003). That is, since the interference management control device 100 is not present in the cooperative network shown in FIG. 10, the serving base station 111 receiving the CSI from the plurality of base stations can determine the cooperative transmission. For example, the serving base station 111 may determine the start and change of the cooperative transmission. Then, the serving base station 111 transmits cooperation information for cooperative transmission to a neighboring base station connected to the wired / wireless backhaul, and requests cooperation (S1004). At this time, the cooperation information may include CSI reported by the UE and resource information used by the serving BS 111. The neighboring base stations 112 to 11n that have received the cooperation request from the serving base station 111 accept the request (S1005), hold (S1006), or reject (S1007) the request. The base station 112 that has accepted the request may perform cooperative transmission to the terminal 121 together with the serving base station 111 (S1008).

11 is a flowchart illustrating triggering conditions for cooperative transmission according to an embodiment of the present invention.

The start, change, or termination of the cooperation according to the triggering condition according to an embodiment of the present invention can be determined by comparing the predetermined threshold with the information included in the CSI. That is, the base station or the interference management control device can start, change, or terminate cooperation between the base stations by comparing the channel state information (S1101) obtained through reporting from the terminal or channel estimation to a predetermined threshold value. The threshold of the triggering condition that determines cooperation is as follows.

First, the threshold Th is ₀ for starting the cooperation in the downlink (S1102). If the channel state of the serving base station (for example, CINR or RSSI of the serving base station) is equal to or less than the threshold value Th ₀ , downlink cooperation can be started. That is, since the channel state of the serving base station is _{equal to} or less than Th ₀ , it is possible to reduce interference from the neighboring base station in cooperation with the neighboring base station, or to perform cooperative transmission with the neighboring base station.

Next, there is a threshold value Th ₁ for determining a neighboring base station that greatly increases interference among neighboring base stations (S1103). (For example, CINR or RSSI of the neighboring base station) information contained in the CSI of the neighbor base stations if there are more than a threshold value Th ₁ there is a single base station, precoding can be performed (S1104). That is, when the interference of the channel of the neighboring base station is larger than the threshold value, the interference can be reduced through cooperation between the base stations. If the information included in the CSI of the neighboring base station is equal to or less than the threshold value (i.e., there is no neighboring base station giving a large interference), it is determined whether cooperative transmission is performed or not.

Lastly, there is a threshold value Th ₂ for selecting a neighboring base station to perform cooperative transmission among neighboring base stations (S 1105). If the information included in the CSI of the neighboring base station is greater than the threshold value Th ₂ , joint processing may be performed (S 1106).

On the other hand, when the interference management controller 100 requests cooperation from each base station, if each base station accepts the cooperation request of the interference management controller 100, cooperation for eliminating interference or cooperation transmission between the base stations can be started . Each base station may send an accept pending message to the interference management control device 100 for a request or may transmit an accept reject message. At this time, the interference cancellation control apparatus 100 which has received the acceptance pending message or the acceptance rejection message can transmit the re-request message. The re-request message may be delivered to the base station for a predetermined time for re-requesting, i. E., After the timer has expired.

According to another embodiment of the present invention, each base station can simultaneously receive uplink data from a mobile station by two or more base stations through cooperations, and a cooperative network (uplink reception) between the base stations includes: 1) A cooperative network, and 2) a cooperative network in which an interference management control device does not exist. Also, in the case of uplink reception, each base station can receive the CSI report from the UE or measure the channel condition based on the uplink sounding signal of the UE.

In this case, the UE can use the trigger condition to determine whether to report the channel state information to the base station efficiently. That is, the UE may compare the measured channel state with a predetermined threshold to determine whether to report the channel state information to the BS or not. For example, the UE can report the channel state information to the BS when the measured channel state is below the threshold value, and not report the channel state information if the measured channel state exceeds the threshold value . At this time, when transmitting the system information or requesting the channel measurement to the terminal, the base station may transmit the threshold value used in the terminal. FIG. 12 is a flowchart illustrating a cooperative method in which an interference management controller controls cooperation in an uplink according to another embodiment of the present invention. FIG. 13 is a flowchart illustrating a cooperative method in which a base station controls cooperations in an uplink according to another embodiment of the present invention. FIG.

Referring to FIG. 12, each of the base stations 111, 112, ..., 11n receives downlink channel state information from the terminal 121, estimates a downlink channel through a sounding signal, (S1201, S1202). Then, each of the base stations 111, 112, ..., 11n confirms the necessity of uplink cooperative reception based on the collected downlink channel state information (S1203). When it is determined that the uplink cooperation reception is required, the base stations 111, 112, ..., and 11n report the collected channel state information and the threshold to the interference management controller 100 (S1204). Then, the interference management controller 100 determines cooperative reception based on the threshold value and the channel state information (S1205), and determines whether each base station 111, 112, ..., 11n (S1206). ≪ / RTI > The base station 112 that has accepted the negotiation can cooperatively receive the data transmitted from the terminal 121 together with the serving base station 111 (S1207).

Referring to FIG. 13, the terminal 121 transmits a sounding signal to each of the base stations 111, 112, ..., 11n, and each base station 111, 112, ..., 11n generates, based on the received sounding signal, And a PMI is selected according to the estimated channel (S1302). Then, each of the base stations 111, 112, ..., 11n determines cooperative transmission (S1303). Then, each of the base stations 111, 112, ..., 11n performs negotiation for cooperative transmission with the serving base station 111 connected to a wired / wireless backhaul or the like (S1304). In step S1305, the base station determining the negotiation among the base stations 111, 112, ..., 11n can cooperatively receive the data transmitted by the terminal 121 together with the serving base station 111 in step S1306.

14 is a flowchart illustrating triggering conditions for cooperative transmission according to another embodiment of the present invention.

The base station or the interference management control device can start, change, or terminate cooperation between the base stations by comparing the channel state information (S1401) obtained through reporting from the terminal or channel estimation to a predetermined threshold value.

First, there is a threshold value Th3 for starting cooperation in the uplink (S1402). If the channel state information of the serving base station is equal to or less than Th3, the serving base station can start joint reception with the neighboring base station in the uplink.

Next, there is a threshold value Th4 for selecting a neighboring base station to perform cooperative reception in the uplink (S1403). If the channel state information of the neighboring base station is equal to or greater than Th ₄ , the neighboring base station can be selected as a neighboring base station to perform cooperative reception with the serving base station.

Meanwhile, when the interference management controller 100 requests the neighboring base station to receive uplink cooperation, the neighboring base station can accept the cooperation reception request and perform cooperative reception. At this time, the neighboring base station, which has received the request message from the interference management controller 100, may transmit an acceptance hold message or an acceptance rejection message of the request to the interference management controller 100 according to the situation. Upon receiving the acceptance hold message or the acceptance rejection message from the neighboring base station, the interference cancellation control apparatus 100 can transmit a re-request message. The re-request message may be delivered to the base station for a predetermined time for re-requesting, i. E., After the timer has expired.

After that, the number of neighboring base stations to perform cooperative reception together is counted (S1404). If the number of neighboring base stations becomes one or more (1405), cooperative reception is possible (S1406).

As described above, in an embodiment of the present invention, cooperative communication for interference control of a terminal located at a cell boundary can be efficiently performed by using an appropriate-sized threshold value corresponding to the channel state between the base station and the terminal.

15 is a block diagram illustrating a wireless communication system according to an embodiment of the present invention.

Referring to FIG. 15, a wireless communication system 1500 according to an embodiment of the present invention includes at least one terminal 1520 included in the coverage of a base station 1510 and a base station 1510.

The base station 1510 includes a processor 1511, a memory 1512, and a radio frequency unit (RF unit) 1513. The memory 1512 may be coupled to the processor 1511 to store various information for driving the processor 1511. [ The wireless communication unit 1513 is connected to the processor 1511 to transmit and receive wireless signals. The processor 1511 may implement the functions, processes, or methods suggested by embodiments of the present invention. In this case, in the wireless communication system according to an embodiment of the present invention, the wireless interface protocol layer may be implemented by the processor 1511. The operation of the base station 1510 according to an embodiment of the present invention may be implemented by the processor 1511. [

The terminal 1520 includes a processor 1521, a memory 1522, and a wireless communication unit 1523. The memory 1522 may be coupled to the processor 1521 to store various information for driving the process 1521. The wireless communication unit 1523 is connected to the processor 1521 to transmit and receive a wireless signal. The processor 1521 may implement the functions, steps, or methods suggested by embodiments of the present invention. In this case, in the wireless communication system according to an embodiment of the present invention, the wireless interface protocol layer may be implemented by the processor 1521. The operation of terminal 1520 according to an embodiment of the present invention may be implemented by processor 1521. [

In an embodiment of the present invention, the memory may be located inside or outside the processor, and the memory may be connected to the processor via various means already known. The memory may be any type of volatile or nonvolatile storage medium, e.g., the memory may include read-only memory (ROM) or random access memory (RAM).

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 (20)

A cooperative communication method of a base station,
Comparing first channel state information on a channel state between the base station and a first terminal located in a cell of the base station to a first threshold value,
Cooperating with at least one neighboring base station among the plurality of neighboring base stations based on the comparison result of the first channel state information and the first threshold value
/ RTI > The method of claim 1,
Wherein the first channel state information includes information on channel quality and at least one precoding matrix index (PMI)
The information about the channel quality may include at least one of a carrier to interference noise ratio (CINR), a received signal strength indicator (RSSI), a reference signal received power (RSRP) And a reference signal received quality (RSRQ)
Wherein the at least one PMI comprises at least one of a recommended PMI or a restricted PMI. 3. The method of claim 2,
Wherein the first threshold is a threshold associated with at least one of the CINR, the RSSI, the RSRP, or the RSRQ. The method of claim 1,
Receiving the first channel state information from the first terminal
Further comprising the steps of: The method of claim 1,
Estimating the first channel based on a signal of a predetermined pattern received from the first terminal, and selecting a PMI based on the estimated channel
Further comprising the steps of: The method of claim 1,
Comparing second channel state information with respect to a channel state between the at least one neighboring base station and a second terminal located in a cell of the at least one neighboring base station to a second threshold value,
Performing cooperation for interference cancellation on the at least one neighboring base station and the first terminal based on the comparison result of the second channel state information and the second threshold value
Further comprising the steps of: The method of claim 1,
Comparing third channel state information with respect to a channel state between the at least one neighboring base station and a third terminal located in a cell of the at least one neighboring base station to a third threshold value,
Performing cooperative transmission to the at least one neighboring base station and the first terminal based on the comparison result of the third channel state information and the third threshold value
Further comprising the steps of: The method of claim 1,
Comparing fourth channel state information with respect to a channel state between the at least one neighboring base station and a fourth terminal located in a cell of the at least one neighboring base station to a fourth threshold value,
Performing cooperative reception with the at least one neighboring base station based on the comparison result of the fourth channel state information and the fourth threshold value
Further comprising the steps of: A cooperative communication method of an interference management control device,
Comparing first channel state information with respect to a channel state between a first one of a plurality of base stations and a first terminal located in a cell of the first base station with a first threshold value,
Requesting cooperation of at least one neighboring base station and the first base station among a plurality of neighboring base stations based on the comparison result of the first channel state information and the first threshold value
/ RTI > The method of claim 9,
Wherein the first channel state information includes information on channel quality and at least one precoding matrix index (PMI)
The information about the channel quality may include at least one of a carrier to interference noise ratio (CINR), a received signal strength indicator (RSSI), a reference signal received power (RSRP) And a reference signal received quality (RSRQ)
Wherein the at least one PMI comprises at least one of a recommended PMI or a restricted PMI. 11. The method of claim 10,
Wherein the first threshold is a threshold associated with at least one of the CINR, the RSSI, the RSRP, or the RSRQ. The method of claim 9,
Comparing second channel state information with respect to a channel state between a second one of the at least one neighboring base station and a second terminal located in a cell of the second base station to a second threshold value,
Requesting cooperation between the first base station and the second base station for interference cancellation on the first terminal based on the comparison result of the second channel state information and the second threshold value
Further comprising the steps of: The method of claim 9,
Comparing third channel state information with respect to a channel state between a third base station of the at least one neighbor base station and a third base station located in a cell of the third base station with a third threshold value,
Requesting the first base station and the third base station to cooperatively transmit to the first terminal based on the comparison result of the third channel state information and the third threshold value
Further comprising the steps of: The method of claim 9,
Comparing fourth channel state information with respect to a channel state between the at least one neighboring base station and a fourth terminal located in a cell of the at least one neighboring base station to a fourth threshold value,
Requesting the first base station and the fourth base station to cooperatively receive the first terminal based on the comparison result of the fourth channel state information and the fourth threshold value
Further comprising the steps of: At least one processor,
Memory, and
Wireless communication section
Lt; / RTI >
The at least one processor executing at least one program stored in the memory,
Comparing first channel state information with respect to a channel state between a base station and a first terminal located in a cell of the base station with a first threshold value,
Cooperating with at least one neighboring base station among the plurality of neighboring base stations based on the comparison result of the first channel state information and the first threshold value
The cooperative communication device performing the following functions. 16. The method of claim 15,
Wherein the first channel state information includes information on channel quality and at least one precoding matrix index (PMI)
The information about the channel quality may include at least one of a carrier to interference noise ratio (CINR), a received signal strength indicator (RSSI), a reference signal received power (RSRP) And a reference signal received quality (RSRQ)
Wherein the at least one PMI comprises at least one of a referenced PMI or a restricted PMI. 17. The method of claim 16,
Wherein the first threshold is a threshold associated with at least one of the CINR, the RSSI, the RSRP, or the RSRQ. 16. The method of claim 15,
Wherein the at least one processor comprises:
Comparing second channel state information with respect to a channel state between the at least one neighboring base station and a second terminal located in a cell of the at least one neighboring base station to a second threshold value,
Performing cooperation for interference cancellation on the at least one neighboring base station and the first terminal based on the comparison result of the second channel state information and the second threshold value
Wherein the cooperating communication device is further adapted to: 16. The method of claim 15,
Wherein the at least one processor comprises:
Comparing third channel state information with respect to a channel state between the at least one neighboring base station and a third terminal located in a cell of the at least one neighboring base station to a third threshold value,
Performing cooperative transmission to the at least one neighboring base station and the first terminal based on the comparison result of the third channel state information and the third threshold value
Wherein the cooperating communication device is further adapted to: 16. The method of claim 15,
Wherein the at least one processor comprises:
Comparing fourth channel state information with respect to a channel state between the at least one neighboring base station and a fourth terminal located in a cell of the at least one neighboring base station to a fourth threshold value,
Performing cooperative reception on the at least one neighboring base station and the first terminal based on the comparison result of the fourth channel state information and the fourth threshold value
Wherein the cooperating communication device is further adapted to:

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