KR102294452B1 - Method and apparatus for cooperative communication of wireless communication system - Google Patents

Abstract

Comparing the first channel state information regarding the channel state between the base station and the first terminal located in the cell of the base station with a first threshold value, and a plurality of pieces based on the comparison result of the first channel state information and the first threshold value A cooperative communication apparatus and method are provided for performing cooperative communication through the step of cooperating with at least one neighboring base station of the neighboring base stations.

Description

Cooperative communication method and apparatus of a wireless communication system {Method and apparatus for cooperative communication of wireless communication system}

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

In general, a terminal located at a cell boundary may receive interference from a neighboring cell, and may also give interference to a neighboring cell at the same time. In this case, the quality of service for the terminal located at the cell boundary may deteriorate, and the performance of the entire network may also be deteriorated. Therefore, interference control for the UE located in the cell boundary area is required, and when the interference is appropriately controlled, the quality of service for the UE and overall network performance may be improved.

Interference control for a terminal located at a cell boundary may be performed through 'resource management' and 'cooperative communication'. In this case, cooperative communication is to control interference to a terminal (or a terminal receiving interference) located at the cell boundary in cooperation with neighboring base stations. In particular, as the number of small base stations is increasing and the overlapping coverage of macro base stations and small base stations is also increasing, there is a need for a method for effectively controlling interference in a multi-layer wireless network including various types of cells.

An object of the present invention is to provide a method and apparatus for cooperative communication between base stations that can efficiently control interference with respect to a terminal located at a cell boundary.

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

In the cooperative communication method of the base station, the first channel state information includes information about channel quality and at least one PMI, and the information about channel quality includes at least one of CINR, RSSI, RSRP, or RSRQ, 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 base station, the first threshold value may be a threshold value related to at least one of CINR, RSSI, RSRP, and 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 estimating a first channel based on a signal of a predetermined pattern received from the first terminal, and selecting a PMI based on the estimated channel.

The cooperative communication method of the base station includes the steps of comparing second channel state information regarding a channel state between at least one neighboring base station and a second terminal located in a cell of at least one neighboring base station with a second threshold, and The method may further include, based on the comparison result of the second channel state information and the second threshold, cooperating with at least one neighboring base station for interference cancellation with respect to the first terminal.

The cooperative communication method of the base station includes comparing third channel state information regarding 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 The method may further include performing cooperative transmission with 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 the steps of comparing fourth channel state information regarding 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, and The method may further include performing cooperative reception with at least one neighboring base station based on a comparison result of the fourth channel state information and the fourth threshold.

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 apparatus comprises: comparing the first channel state information regarding the channel state between the first base station among the plurality of base stations and the first terminal located in the cell of the first base station with a first threshold value , and requesting cooperation from at least one of the plurality of neighboring base stations and the first base station based on the comparison result of the first channel state information and the first threshold value.

In the cooperative communication method of the interference management control device, the first channel state information includes information on channel quality and at least one PMI, and the information on channel quality includes at least one of CINR, RSSI, RSRP, or RSRQ. The at least one PMI may include at least one of a recommended PMI and a limited PMI.

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

The cooperative communication method of the interference management control apparatus includes a second threshold value and second channel state information regarding a channel state between a second base station among at least one neighboring base station and a second terminal located in a cell of the second base station Comparing, and based on the comparison result of the second channel state information and the second threshold, it may further include the step of requesting the first base station and the second base station to cooperate for canceling interference with the first terminal. have.

The cooperative communication method of the interference management control apparatus includes the third channel state information regarding the channel state between the third base station among at least one neighboring base station and the third terminal located in the cell of the third base station with a third threshold value and The method may further include the step of comparing and requesting cooperative transmission for the first terminal from the first base station and the third base station 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 apparatus includes comparing fourth channel state information on a channel state between at least one neighboring base station and a fourth terminal located in a cell of the at least one neighboring base station with a fourth threshold value The method may further include, based on the comparison result of the fourth channel state information and the fourth threshold, requesting the first base station and the fourth base station to receive cooperative reception of the first terminal.

According to another embodiment of the present invention, at least one processor, memory, and

Including a wireless communication unit, at least one processor executes at least one program stored in the memory, the first channel state information about the channel state between the base station and the first terminal located in the cell of the base station with a first threshold value and A cooperative communication apparatus is provided that performs the comparing, and the step of cooperating with at least one neighboring 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.

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

In the cooperative communication device, the first threshold value may be a threshold value related to at least one of CINR, RSSI, RSRP, and RSRQ.

The at least one processor in the cooperative communication device compares the second channel state information regarding the channel state between the at least one neighboring base station and the second terminal located in the cell of the at least one neighboring base station with a second threshold value and, based on the comparison result of the second channel state information and the second threshold, performing cooperation for canceling interference with at least one neighboring base station and the first terminal may be further performed.

At least one processor in the cooperative communication device, at least one neighboring base station, and at least one neighboring base station to compare third channel state information about the channel state between the third terminal located in the cell of the neighboring base station with a third threshold value and, based on the comparison result of the third channel state information and the third threshold, performing cooperative transmission with at least one neighboring base station and the first terminal may be further performed.

In the cooperative communication device, at least one processor compares fourth channel state information regarding 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, based on the comparison result of the fourth channel state information and the fourth threshold, performing cooperative reception with at least one neighboring base station and the first terminal may be further performed.

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

1 is a diagram illustrating a wireless network in which interference management is performed according to an embodiment of the present invention.
2 is a flowchart illustrating an interference management method according to an embodiment of the present invention.
3 and 4 are diagrams 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.
6 and 7 are flowcharts illustrating a cooperation method in which an interference management control apparatus controls cooperation in a downlink according to an embodiment of the present invention.
8 and 9 are flowcharts illustrating a cooperative method in which an interference management control apparatus and a base station control cooperation in a downlink according to an embodiment of the present invention.
10 is a flowchart illustrating a cooperation method in which a base station controls cooperation according to an embodiment of the present invention.
11 is a flowchart illustrating a triggering condition for cooperative transmission according to an embodiment of the present invention.
12 is a flowchart illustrating a cooperation method in which an interference management control apparatus controls cooperation in an uplink according to another embodiment of the present invention.
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 a triggering condition 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, with reference to the accompanying drawings, embodiments of the present invention will be described in detail so that those of ordinary skill in the art to which the present invention pertains can easily implement them. However, the present invention may be embodied in various different forms and is not limited to the embodiments described herein. And in order to clearly explain the present invention in the drawings, parts irrelevant to the description are omitted, and similar reference numerals are attached to similar parts throughout the specification.

Throughout the specification, a terminal is a mobile station (MS), a mobile terminal (MT), an advanced mobile station (AMS), a high reliability mobile station (HR-MS) , may refer to a subscriber station (SS), a portable subscriber station (PSS), an access terminal (AT), user equipment (UE), etc., and MT, MS, AMS , HR-MS, SS, PSS, AT, UE, etc. may include all or some functions.

In addition, the base station (base station, BS) is an advanced base station (advanced base station, ABS), a high reliability base station (high reliability base station, HR-BS), a Node B (node B), an advanced node B (evolved node B, eNodeB), an access point (AP), a radio access station (RAS), a base transceiver station (BTS), a mobile multihop relay (MMR)-BS, a relay serving as a base station station, RS), a relay node (RN) serving as a base station, an advanced relay station (ARS) serving as a base station, and a high reliability relay station (HR) serving as a base station -RS), small base station [femoto base station (femoto BS), home node B (home node B, HNB), home eNodeB (HeNB), pico base station (pico BS), metro base station (metro BS), micro base station (micro BS) ), etc.], etc., may include all or part of the functions of ABS, NodeB, eNodeB, AP, RAS, BTS, MMR-BS, RS, RN, ARS, HR-RS, small base station, etc. have.

1 is a diagram illustrating a wireless network in which interference management is performed according to an embodiment of the present invention.

Referring to FIG. 1 , base station 1 111 and base station 2 112 may form a beam through precoding when transmitting data to a terminal located in a boundary area of each cell. In this case, the base station 1 111 and the base station 2 112 may share information about a beam that may act as interference with each other. Accordingly, when the base station 1 111 forms a beam to be transmitted to the terminal 1 121 , a beam that may act as interference to the terminal 2 122 may be removed (interference nulling). Similarly, when the base station 2 112 forms a beam to be transmitted to the terminal 2 122 , a beam that may act as an interference to the terminal 1 121 may be removed.

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

First, terminal 1 121 measures the state of a downlink physical channel and reports channel state information (CSI) of the downlink channel to base station 1 111 . Terminal 2 (122) also measures the state of the downlink physical channel and reports the CSI of the downlink channel to the base station 2 (112). In this case, the CSI of the downlink physical channel is channel quality (eg, carrier to interference noise ratio, CINR), received signal strength indicator (RSSI), reference signal reception strength (reference) signal received power (RSRP), reference signal received quality (RSRQ), etc.), precoding-related information acting as interference (eg, restricted precoding matrix index, restricted PMI); Alternatively, it may include a not recommended PMI (not recommended PMI), etc.) and precoding-related information with less interference (eg, a suggested PMI, a recommended PMI, etc.). That is, each base station may collect CSI of a downlink physical channel reported by each terminal (CSI feedback). Alternatively, the base station may estimate the channel state information of the downlink physical channel based on the uplink data transmitted by the terminal in a predetermined pattern (CSI measurement).

Next, each base station cooperates with each other based on the state information of the downlink physical channel collected/estimated from the terminal (or at least one terminal served by the base station). In FIG. 2 , base station 1 111 performs cooperation with base station 2 112 based on the state information of the downlink physical channel for terminal 1 121 , and base station 2 112 provides information on terminal 2 122 . Based on the state information of the downlink physical channel, it cooperates with the base station 1 (111).

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

Each base station may also report usage information of radio resources used by the base station to the interference management control device. That is, in the report (C-IM-IND) reported by each base station to the interference management control device, the CSI of the downlink physical channel including channel quality, precoding-related information acting as interference, and precoding-related information with low interference. and usage information of radio resources used in the base station may be included.

Thereafter, the interference management control device transmits a restricted PMI (restricted PMI) for reducing interference in the cell boundary region to another base station based on the report reported by each base station. That is, when the terminal 1 121 reports the limited PMI to the base station 1 111 , the interference management control apparatus interferes with the terminal 1 121 with a neighboring base station (base station 2, etc.) located next to the base station 1 111 . It can tell you the limiting PMI that affects . Thereafter, the neighboring base station receiving the information on the restricted PMI of the terminal 1 121 from the interference management control apparatus may not use the precoding vector corresponding to the limited PMI in order to reduce the interference to the terminal 1 121 .

In this case, each base station may include whether the restricted PMI is applied (applied or not) in the response (C-IM-RSP) transmitted to the interference management control device. In addition, the base station may request renegotiation of the scheduling from the interference management control device, and may include a reason for the renegotiation (eg, excessive traffic, etc.) in the response. When the base station requests renegotiation, the response transmitted to the interference management control device may include whether the restricted PMI is applied.

On the other hand, the recommended PMI delivered by the terminal to be serviced by the base station may form a beam that is the same as or similar to the PMI requested by the interference management control device (eg, a restricted PMI or a non-recommended PMI). In this case, the base station schedules with a lower priority for the corresponding terminal (that is, the terminal that reported the recommended PMI), or the resource that does not interfere with (or weakly interferes with) resources used by the neighboring base station can be scheduled to the corresponding terminal. have.

Each base station can minimize interference to the terminal serviced by the other base station through cooperation through the interference management control device. In this case, each base station may update the transmission method for the terminal by continuously performing CSI collection and cooperation.

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

Referring to FIG. 3 , the terminal 121 located in the boundary area of the cell measures the channel state with the base station 1 111 and reports CSI to the base station 1 111 . The base station 1 111 may share the CSI received from the terminal 121 with the base station 2 112 , and may perform cooperative transmission with the base station 2 112 for the terminal 121 .

Referring to FIG. 4 , terminal 1 121 and terminal 2 122 located in a boundary area of a cell measure channel states with base station 1 111 and base station 2 112, respectively, and report CSI. That is, terminal 1 121 measures the channel state with base station 1 111 and reports CSI to base station 1 111 , and terminal 2 122 measures the channel state with base station 2 112 and base station 2 CSI may be reported as (112). Thereafter, 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 cooperative transmission can be performed for the terminal 1 121 and the terminal 2 122 . In this case, the CSI reported by 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. 5 is a flowchart illustrating an interference management method through cooperative transmission of the wireless network shown in FIGS. 3 and 4 .

First, the terminal 1 121 transmits a signal (eg, a sounding signal) of a predetermined pattern to the base station 1 111 and the base station 2 112 (S501). Base station 1 111 and base station 2 112, 112 may estimate a channel based on the signal received from terminal 1 121, and select a PMI through the estimated channel (S502). At this time, the CSI of the downlink physical channel is channel quality (eg, CINR, RSSI, RSRP, RSRQ, etc.), precoding related information acting as interference (eg, restricted PMI, or PMI not recommended, etc.), And it may include precoding-related information with less interference (eg, suggested PMI, recommended PMI, etc.). Alternatively, UE 1 121 may report CSI to each base station.

Each base station reports CSI to the interference management control apparatus 100 (C-IM-IMD) (S503). In addition, each base station may also report usage information of radio resources used by the base station to the interference management control apparatus 100 . Radio resource usage information of the base station reported to the interference management control apparatus 100 may be used for interference management later.

Thereafter, the interference management control apparatus 100 requests cooperation from each base station using the reported CSI (C-IM-REQ) (S504). For example, the interference management control apparatus 100 may instruct each base station a transmission method (an antenna selection or a transmission area, etc.), and a service method (macro diversity, single user MIMO, SU-MIMO) and spatial multiplexing) may be indicated.

Then, each base station may transmit a response (C-IM-RSP) to the request of the interference management control apparatus 100 (S505). In this case, each base station may request renegotiation by adding whether to participate in cooperative transmission to the response to the interference management control device 100 in the cooperative process. When the base station requests renegotiation, the reason for the renegotiation (eg, excessive traffic) may be included in the renegotiation request.

Each base station may perform cooperative transmission to a terminal located in a cell boundary area through cooperation through the interference management control apparatus 100 (S505). Thereafter, each base station may continuously perform CSI collection and cooperation to update the transmission method for the terminal.

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

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

Referring to FIG. 6 , the base station 1 111 reports the CSI reported by the terminal 121 and the resource information used by the base station 1 111 to the interference management control apparatus 100 ( S601 , S602 , S603 ). The interference management control apparatus 100 checks whether to operate cooperative transmission based on the CSI reported by each base station 111, 112, ..., 11n, and determines whether to operate cooperative transmission ( decide to operate cooperative transmission) (S604). That is, according to the cooperative method shown in FIG. 6 , the interference management control apparatus 100 may perform both check and decide for cooperative transmission.

Thereafter, the interference management control apparatus 100 negotiates whether to transmit cooperatively with each of the base stations 111, 112, ..., 11n (S605), and the base station accepting the negotiation goes to the terminal 121 together with the base station 1 111. Cooperative transmission may be performed (S606).

Referring to FIG. 7 , the base station checks whether to operate cooperative transmission based on the CSI (S701, S702) reported by the terminal (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 control apparatus 100 determines to operate cooperative transmission based on the report of the base station (S705). That is, according to the cooperative method shown in FIG. 7 , the base station may check the necessity of cooperative transmission, and the interference management control apparatus 100 may determine the cooperative transmission.

Thereafter, the interference management control apparatus 100 negotiates whether to transmit cooperatively with each of the base stations 111, 112, ..., 11n (S706), and the base station accepting the negotiation goes to the terminal 121 together with the base station 1 111. Cooperative transmission may be performed (S707).

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

Then, each of the base stations 111, 112, ..., 11n reports the measured channel state information to the interference management control apparatus 100 (S803). The interference management control apparatus 100 checks whether to operate cooperative transmission based on the channel state information reported by each base station 111, 112, ..., 11n, and performs cooperative transmission. Decide to operate cooperative transmission (S804). That is, according to the cooperative method shown in FIG. 8 , the interference management control apparatus 100 may perform both check and decide for cooperative transmission. Thereafter, the interference management control apparatus 100 negotiates whether to transmit cooperatively with each base station 111 , 112 , ..., 11n ( S805 ), and the base station accepting the negotiation goes to the terminal 121 together with the base station 1 111 . Cooperative transmission may be performed (S806).

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

In addition, each of the base stations 111, 112, ..., 11n checks whether to operate cooperative transmission based on the measured channel state information (S903). Then, when there is a need for cooperative transmission, each base station (111, 112, ..., 11n) reports channel state information and used resource information to the interference management control apparatus 100 (904). In FIG. 9 , base station 1 111 and base station 2 112 report channel state information and the like to the interference management control apparatus 100 .

Then, the interference management control apparatus 100 determines to operate cooperative transmission based on the report of the base station (S905). That is, according to the cooperative method shown in FIG. 9 , the base station may check the necessity of cooperative transmission, and the interference management control apparatus 100 may determine the cooperative transmission.

Thereafter, the interference management control apparatus 100 negotiates whether to transmit cooperatively with each of the base stations 111, 112, ..., 11n (S906), and the base station accepting the negotiation goes to the terminal 121 together with the base station 1 111. Cooperative transmission may be performed (S907).

Referring to FIG. 10 , the terminal 121 reports CSI to a serving base station (serving BS, S-BS) 111 (S1001). The serving base station 111 determines cooperative transmission based on the CSI reported by the terminal (S1002, S1003). That is, since the interference management control apparatus 100 does not exist in the cooperative network shown in FIG. 10 , the serving base station 111 that has received CSI from the terminal among the plurality of base stations may determine cooperative transmission. For example, the serving base station 111 may determine the start (start) and change (change) of the cooperative transmission. Thereafter, the serving base station 111 requests cooperation by transmitting cooperation information for cooperative transmission to a neighboring base station connected through wired/wireless backhaul or the like (S1004). In this case, the cooperation information may include CSI reported by the terminal and resource information used by the serving base station 111 . Thereafter, the neighboring base stations 112, ..., 11n that have received the cooperation request from the serving base station 111 accept (S1005), hold (S1006), or reject the request (S1007). 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 a triggering condition for cooperative transmission according to an embodiment of the present invention.

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

_{First, there is Th 0, which} is a threshold for starting cooperation in downlink (S1102). When the channel state of the serving base station (eg, CINR or RSSI of the serving base station) is _{less than or equal to the threshold Th 0} , downlink cooperation may be started. That is, since the channel state of the serving base station is Th ₀ or less, 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 Th 1, which} is a threshold value for determining a neighbor base station that gives a large amount of interference among the neighbor base stations (S1103). When the information included in the CSI of the neighboring base station (eg, the CINR or RSSI of the neighboring base station) is _{greater than or equal to the threshold value Th 1} , single base station precoding may be performed (S1104). That is, when the interference exerted by the channel of the neighboring base station is greater (than the threshold), the interference can be reduced through cooperation between the base stations. When the information included in the CSI of the neighboring base station is less than or equal to the threshold value (ie, there is no neighboring base station giving a large interference), it is determined whether cooperative transmission is performed.

_{Finally, there is a threshold value Th 2} for selecting a neighbor base station to perform cooperative transmission among the neighbor base stations (S1105). When the information included in the CSI of the neighboring base station _{is greater than the threshold Th 2} , joint processing may be performed (S1106).

On the other hand, when the interference management control apparatus 100 requests cooperation from each base station, when each base station accepts the request for cooperation from the interference management control apparatus 100, cooperation for interference cancellation or cooperative transmission between each base station may start. . Each base station may transmit an acceptance pending message to the interference management control apparatus 100 in response to the request, or may transmit an acceptance rejection message. In this case, the interference management control apparatus 100 receiving the acceptance pending message or the acceptance rejection message may transmit a re-request message. The re-request message may be transmitted to the base station after a predetermined time for re-request, that is, a timer expires.

According to another embodiment of the present invention, each base station enables two or more base stations to simultaneously receive uplink data from a terminal through cooperation, and a cooperative network between base stations (uplink reception) 1) has an interference management control device. It is divided into a cooperative network and 2) a cooperative network in which an interference management control device does not exist. Even in the case of uplink reception, each base station may report CSI from the terminal or measure the channel state based on the uplink sounding signal of the terminal.

In this case, the UE may use a trigger condition to determine whether to report the channel state information to the base station efficiently. That is, the terminal may determine whether to report the channel state information to the base station or not by comparing the measured channel state with a predetermined threshold value. For example, the terminal may report the channel state information to the base station when the measured channel state using the threshold is less than or equal to the threshold, and may not report the channel state information if the measured channel state exceeds the threshold. . In this case, the base station may transmit a threshold value used in the terminal together when transmitting system information to the terminal or requesting channel measurement. 12 is a flowchart illustrating a cooperation method in which an interference management control apparatus controls cooperation in uplink according to another embodiment of the present invention, and FIG. 13 is a flowchart in which a base station controls cooperation in uplink according to another embodiment of the present invention. It is a flowchart showing the cooperation method.

Referring to FIG. 12 , each base station 111 , 112 , ..., 11n receives downlink channel state information from the terminal 121 or estimates a downlink channel through a sounding signal and acquires channel state information. It can be done (S1201, S1202). Then, each base station 111, 112, ..., 11n checks whether to operate cooperative transmission based on the collected downlink channel state information (check whether to operate cooperative transmission) (S1203). When the necessity of uplink cooperative reception is confirmed, each base station 111 , 112 , ..., 11n reports the collected channel state information and threshold to the interference management control apparatus 100 ( S1204 ). Thereafter, the interference management control apparatus 100 determines cooperative reception based on the threshold value and channel state information (S1205), and each base station 111, 112, ..., 11n to determine a base station participating in uplink cooperative reception. ) and negotiation proceeds (S1206). The base station 112 that has accepted the negotiation may receive the data transmitted from the terminal 121 together with the serving base station 111 cooperatively (S1207).

13, the terminal 121 transmits a sounding signal to each base station 111, 112, ..., 11n, and each base station 111, 112, ..., 11n based on the received sounding signal. A channel is estimated and a PMI is selected according to the estimated channel (S1302). Then, each base station (111, 112, ..., 11n) determines the cooperative transmission (S1303). Thereafter, each base station (111, 112, ..., 11n) proceeds with the negotiation for cooperative transmission with the serving base station 111 connected to the wired or wireless backhaul or the like (S1304). Thereafter, each of the base stations 111, 112, ..., 11n, the base station that has decided to negotiate (S1305) may cooperatively receive data transmitted by the terminal 121 together with the serving base station 111 (S1306).

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

The base station or the interference management control apparatus may start, change, or end cooperation between base stations by comparing the channel state information S1401 obtained through a report from the terminal or channel estimation with a predetermined threshold value.

First, there is Th3, which is a threshold for starting cooperation in uplink (S1402). When the channel state information of the serving base station is Th3 or less, the serving base station may start joint reception with a neighboring base station in uplink.

Next, there is Th4, which is a threshold value for selecting a neighboring base station to perform cooperative reception in uplink (S1403). When the channel state information of the neighboring base station is Th ₄ or higher, the corresponding neighboring base station may be selected as a neighboring base station to perform cooperative reception with the serving base station.

Meanwhile, when the interference management control apparatus 100 requests cooperative reception of uplink from a neighboring base station, the neighboring base station may perform cooperative reception by accepting the cooperative reception request. In this case, the neighboring base station receiving the request message from the interference management control apparatus 100 may transmit an acceptance pending message or an acceptance rejection message of the request to the interference management control apparatus 100 according to circumstances. Upon receiving the acceptance pending message or the acceptance rejection message from the neighboring base station, the interference management control apparatus 100 may transmit a re-request message. The re-request message may be transmitted to the base station after a predetermined time for re-request, that is, a timer expires.

Thereafter, the number of neighboring base stations to perform cooperative reception together is counted (S1404), and when the number of neighboring base stations is one or more (1405), cooperative reception is enabled (S1406).

As described above, in one embodiment of the present invention, cooperative communication for interference control of a terminal located at a cell boundary can be efficiently performed by using a threshold value of an appropriate size corresponding to a 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 a base station 1510 and at least one terminal 1520 included in the coverage of the 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 connected to the processor 1511 to store various information for driving the processor 1511 . The wireless communication unit 1513 may be connected to the processor 1511 to transmit and receive wireless signals. The processor 1511 may implement a function, process, or method proposed in an embodiment of the present invention. In this case, in the wireless communication system according to an embodiment of the present invention, the air 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 connected to the processor 1521 to store various information for driving the process 1521 . The wireless communication unit 1523 may be connected to the processor 1521 to transmit and receive wireless signals. The processor 1521 may implement a function, step, or method proposed in an embodiment of the present invention. In this case, in the wireless communication system according to an embodiment of the present invention, the air interface protocol layer may be implemented by the processor 1521 . The operation of the terminal 1520 according to an embodiment of the present invention may be implemented by the 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 through various known means. The memory is a volatile or non-volatile storage medium of various types, and for example, the memory may include a read-only memory (ROM) or a random access memory (RAM).

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improved forms of the present invention are also provided by those skilled in the art using the basic concept of the present invention as defined in the following claims. is within the scope of the right.

Claims (20)

As a method for the interference management control device to control the cooperative transmission of the base station,
Comparing the first channel state information about the channel between the serving base station and the terminal served by the serving base station with a first threshold,
When the first channel state information is less than the first threshold, comparing second channel state information on a channel between at least one neighboring base station of the serving base station and the terminal with a second threshold, and
Instructing the serving base station to perform single BS precoding in consideration of interference from the at least one neighboring base station when the second channel state information is greater than the second threshold value
A cooperative transmission control method comprising a. delete As a method for the interference management control device to control the cooperative transmission of the base station,
Comparing the first channel state information about the channel between the serving base station and the terminal served by the serving base station with a first threshold,
When the first channel state information is less than the first threshold value, comparing second channel state information about a channel between at least one neighboring base station of the serving base station and the terminal with a third threshold value, and
when the second channel state information is greater than a third threshold, instructing the serving base station and the at least one neighboring base station to perform joint processing;
A cooperative transmission control method comprising a. In claim 1,
The first channel state information, carrier interference between the serving base station and the terminal - noise ratio (carrier to interference noise ratio, CINR) and / or received signal strength indicator (received signal strength indicator, RSSI) information about, Cooperative transmission control method. In claim 1,
The second channel state information, the carrier interference between the at least one neighboring base station and the terminal - noise ratio (carrier to interference noise ratio, CINR) and / or received signal strength indicator (received signal strength indicator, RSSI) about Information, a cooperative transmission control method. delete In claim 1,
Receiving the first channel state information and the second channel state information from the serving base station and the at least one neighboring base station
Further comprising, cooperative transmission control method. In claim 7,
The first channel state information and the second channel state information, including a precoding matrix index (precoding matrix index, PMI), cooperative transmission control method. In claim 7,
Receiving radio resource usage information from the serving base station and the at least one neighboring base station
Further comprising, cooperative transmission control method. In claim 1,
The first channel state information is a result of a measurement based on a sounding signal transmitted from a terminal served by the serving base station, a cooperative transmission control method. In claim 4,
The first threshold value is a value related to the CINR and/or the RSSI. In claim 5,
The second threshold is a value related to the CINR and/or the RSSI. As a method for the interference management control device to control the cooperative transmission of the base station,
When the first channel state information about the channel between the serving base station and the terminal served by the serving base station is less than the first threshold, the serving base station for the terminal and at least one neighboring base station of the serving base station cooperative transmission steps to start the procedure,
In the cooperative transmission procedure, when the second channel state information on the channel between the at least one neighboring base station and the terminal is greater than a second threshold, the interference from the at least one neighboring base station is considered for single base station precoding Indicating (single BS precoding) to the serving base station, and
In the cooperative transmission procedure, when the second channel state information is greater than a third threshold, instructing the serving base station and the at least one neighboring base station to perform joint processing;
A cooperative transmission control method comprising a.
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