KR102282780B1 - Cooperation transmission method, terminal and base station supporting the same - Google Patents

Abstract

Disclosed is a method for providing cooperative communication to a terminal through a plurality of base stations. Each of the plurality of base stations transmits a midamble to the terminal, and the terminal measures a channel through the received midamble. In addition, the terminal transmits information on the measured channel to at least one of the plurality of base stations.

Description

Cooperative transmission method, terminal and base station supporting the same

The present invention relates to a cooperative transmission method, a terminal and a base station supporting the same.

A UE located at a cell boundary may receive interference from or may interfere with a neighboring cell, and network performance may deteriorate due to such interference. By controlling interference occurring in the cell boundary area, network performance can be improved.

As a method of controlling interference in a cell boundary region, there is a resource management method for interference control or a cooperative transmission method for interference control. The cooperative transmission method for interference control is a method of improving the performance of a terminal located at a cell boundary or a terminal experiencing interference by cooperating with neighboring base stations. This cooperative transmission method is performed through cooperation between base stations. In particular, there is a need for a method for efficiently performing cooperative transmission in various types of cells formed through a small base station, and in a multi-layer network in which a macro base station and a small base station are overlapped.

The problem to be solved by the present invention is to provide an efficient cooperative transmission method.

Another problem to be solved by the present invention is to provide a method for measuring and reporting a channel state between a base station and a terminal during cooperative transmission.

According to an embodiment of the present invention, there is provided a method in which a terminal receives a service through cooperative communication between a first base station and a second base station. The method includes receiving a first midamble from the first base station, receiving a second midamble from the second base station, and measuring a channel through the first midamble and the second midamble and transmitting information on the measured channel to the first base station.

The method may further include receiving a channel measurement request message, which is a message requesting measurement of the channel, wherein the channel measurement request message includes information on positions of the first midamble and the second midamble. may include.

The first midamble and the second midamble may be received at different times.

The first midamble and the second midamble are received at the same time and may include different identifiers.

Each of the first and second midambles may be a plurality of midambles, and the transmitting to the first base station includes transmitting the information corresponding to some midambles among the plurality of midambles to the first base station. may include the step of

The method may further include transmitting the measured channel information to the second base station.

The method may further include receiving downlink data from the first base station and the second base station.

The first base station may select a transmission method for improving the service of the terminal, and the second base station may select a transmission method for reducing or eliminating interference to the first terminal.

The channel measurement request message may further include a cell ID and a type to be fed back by the terminal.

According to another embodiment of the present invention, there is provided a method in which a first base station cooperates with a second base station to provide a service to a terminal. The method includes the steps of transmitting a sounding-based channel estimation request message to the terminal, receiving a sounding signal from the terminal, measuring the sounding signal to estimate a downlink channel, and the In response to the estimated downlink channel, the method may include performing cooperative transmission to the terminal.

The method may further include transmitting information on the estimated downlink channel to a coordinator, receiving a request for the cooperative transmission from the coordinator, and responding to the request with the coordinator.

The channel estimation request message may include information on a resource used to transmit the sounding signal, and the second base station may use the resource only for the sounding signal.

The second base station may overhear the sounding signal through the resource to estimate a downlink channel.

The second base station may perform cooperative transmission to the terminal in response to the estimated downlink channel.

The second base station may perform beamforming to reduce interference to the terminal in response to the estimated downlink channel, or may perform interference cancellation or interference nulling to the terminal

According to another embodiment of the present invention, there is provided a terminal receiving a service through cooperative communication between a plurality of base stations. The terminal measures a channel through an RF module for receiving a plurality of midambles from the plurality of base stations, and the plurality of midambles, and transmits information on the measured channel to at least one base station among the plurality of base stations It may include a processor that controls the transmission.

The plurality of base stations may include a first base station and a second base station, and the first midamble signal received from the first base station and the second midamble signal received from the second base station may be received at different times. there is.

The processor may control to transmit the information corresponding to some midambles among the plurality of midambles to the at least one base station.

The RF module may receive a channel measurement request message that is a message requesting measurement of the channel, and the channel measurement request message may include information on positions of the plurality of midamble signals.

According to an embodiment of the present invention, by providing a method for measuring and reporting a channel in cooperative communication, interference can be effectively removed.

1 is a diagram illustrating a concept of a cooperative transmission method according to an embodiment of the present invention.
2 is a flowchart illustrating a cooperative transmission method according to an embodiment of the present invention.
3 is a diagram illustrating a method for estimating a channel through a sounding basis according to an embodiment of the present invention.
4 is a diagram illustrating a method for estimating a channel through a midamble according to an embodiment of the present invention.
5 is a diagram illustrating a case in which a plurality of base stations transmit the same midamble at different times.
6 is a diagram illustrating a case in which a plurality of base stations transmit a midamble at the same time.
7 is a diagram illustrating a serving base station 200 according to an embodiment of the present invention.
8 is a diagram illustrating a terminal 100 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 many 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 terminal (MT), a mobile station (MS), an advanced mobile station (AMS), a high reliability mobile station (HR-MS) ), a subscriber station (subscriber station, SS), a portable subscriber station (PSS), an access terminal (AT), user equipment (UE), etc., and may refer to a terminal, MT, It may include all or some functions of AMS, HR-MS, SS, PSS, AT, UE, and the like.

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), may refer to a high reliability relay station (HR-RS) that serves as a base station, etc., and may refer to ABS, NodeB, eNodeB, AP, RAS, BTS, MMR-BS, RS, HR It may include all or part of functions such as -RS.

Hereinafter, a cooperative transmission method, a terminal and a base station supporting the same will be described in detail with reference to the drawings.

The entire system for cooperative transmission includes a base station, a terminal, and a coordinator. The base station and the terminal exchange data through wireless communication, and the coordinator may directly manage or control the terminal or indirectly manage or control the terminal through the base station to control interference. Here, the coordinator may exist in the base station and may exist separately as a device independent of the base station.

In the following description, for convenience, a case in which the coordinator is a separate and independent device will be described as an example. And, for convenience of description, the description is based on the downlink service of the base station and the terminal, but the uplink service may be applied in the same or similar manner.

1 is a diagram illustrating a concept of a cooperative transmission method according to an embodiment of the present invention.

In FIG. 1 , the terminal 100 is included in the cell of the serving base station 200 and is located at the cell boundary. In addition, the base stations 210 and 220 represent neighboring base stations adjacent to the base station 200 . The base stations 200 , 210 , and 220 capable of performing cooperative transmission simultaneously provide services to the terminal 100 , thereby improving service quality.

Here, the base stations 200, 210, and 220 capable of cooperative transmission may be managed as one group (or set). Specifically, the base stations 200, 210, and 220 cooperate with each other (T1). And the terminal 100 measures the channel state and reports the measurement result to the serving base station 200 (T2). The serving base station 200 and the neighboring base stations 210 and 220 perform cooperative transmission of simultaneously transmitting data to the terminal (T3). On the other hand, during cooperative transmission, only one or some base stations among the plurality of base stations 200, 210, 220 transmit data to the terminal, and the remaining base stations may be configured not to transmit data during cooperative transmission. Interference can be reduced through such cooperative transmission.

2 is a flowchart illustrating a cooperative transmission method according to an embodiment of the present invention. Specifically, FIG. 2 illustrates a management interface and procedure for Interference Management (IM). The coordinator is indicated by 300, and the coordinator 300 may be a Network Control Management System (NCMS).

The terminal 100 measures a channel state (eg, Signal to Interference plus Noise Ratio (SINR), Carrier to Interference Noise Ratio (CINR), etc.) for wireless communication, and reports the measurement result to the serving base station 200 ( S210). Here, the channel state may include interference information by the neighboring base stations 210 and 220 .

The serving base station 200 receiving the channel state report reports the channel state to the coordinator 300 for interference control (S220). Specifically, the serving base station 200 reports to the coordinator 300 when the channel state is less than or equal to a threshold value, reports periodically, reports whenever the channel state is reported from the terminal 100, or reports to the coordinator 300 . ) can be reported when a report request is received. On the other hand, the serving base station 200 reports to the coordinator 300 only the channel state of the base station capable of cooperative transmission, or the performance improvement (network performance improvement, terminal performance improvement, etc.) through cooperative transmission. Only channel status can be reported. Alternatively, since the coordinator 300 selects a base station for cooperative transmission and selects an antenna, the serving base station 200 may simply report only the channel state result to the coordinator. In this case, the coordinator 300 may select some or all of the base stations corresponding to the reported channel state. Meanwhile, the coordinator 300 may select a cooperative transmission mode (method).

The coordinator 300 having received the channel state result from at least one base station 200 determines whether to transmit cooperatively according to the channel state of each base station (S230). Specifically, the coordinator 300 may receive a channel state report from not only the serving base station 200 but also from other base stations 210 and 220 managed by the coordinator 300 . When it is determined that cooperative transmission (eg, the start of cooperative transmission, or change of cooperative transmission, etc.) is necessary, the coordinator 300 according to the cooperative transmission mode (method), the base station 200 reporting the channel state result Including, a request for cooperative transmission to the neighboring base station (210, 220) (S241 ~ S243). Meanwhile, the coordinator 300 may request cooperative transmission from some or all of the base stations included in the reported channel state result. The base stations 200 to 220 transmit a message in response to the cooperative transmission request to the coordinator 300 (S241 to S243). In addition, the coordinator 300 may change the existing cooperative transmission for cooperative transmission, and end cooperative transmission when it is determined that cooperative transmission is no longer required. In addition, the coordinator 300 may cause a new base station to start cooperative transmission.

On the other hand, before the base stations 200 to 220 provide the service to the terminal 100 , the coordinator 300 provides service using only some of the base stations using the corresponding resources (resources set by resource management for interference control). and the remaining base stations may set not to use the corresponding resource.

The base stations 200 to 220 requested for cooperative transmission perform cooperative transmission (S251 to S253). Specifically, the base stations 200 to 220 may provide a service to the terminal 100 at the same time by using the set corresponding resource. That is, the base stations 200 to 220 may simultaneously transmit the same data to the terminal 100 .

Meanwhile, the terminal 100 may measure the channel state of the serviced resource and report it to the serving base station 200 ( S260 ).

The serving base station 200 may report the reported channel state to the coordinator 300 (S270). Thereafter, the coordinator 300 may reset or terminate the cooperative transmission method through the above-described processes ( S230 , S241 to S243 ).

Hereinafter, a method of performing and reporting channel measurement for cooperative transmission according to an embodiment of the present invention will be described in detail with reference to FIGS. 3 to 6 .

3 is a diagram illustrating a method of estimating a channel through a sounding basis according to an embodiment of the present invention.

Whether or not sounding is supported may be exchanged by negotiation with the serving base station 200 when the terminal 100 initially accesses the serving base station 200 . Hereinafter, it is assumed that the terminal 100 is a terminal capable of performing sounding-based channel estimation.

First, the serving base station 200 transmits a channel estimation request message based on sounding (S310). That is, the serving base station 200 may request that the terminal 200 supporting uplink sounding transmit a sounding signal. The channel estimation request message includes resource information used to transmit a sounding signal, and the channel estimation request message may be a Sounding CMD IE (Sounding Command Information Element) message. Meanwhile, the neighboring base stations 210 and 220 to perform cooperative transmission may not use the corresponding resource (resource for estimating sounding) for purposes other than sounding. Also, the neighboring base stations 210 and 220 may estimate a channel together with the serving base station 200 when estimating a downlink channel based on sounding.

Upon receiving the sounding estimation request, the terminal 100 transmits a sounding signal to the serving base station 200 (S321). In this case, the sounding signal may also be transmitted to the neighboring base stations 210 and 220 (S322). Here, the terminal 100 transmits a sounding signal using a corresponding resource included in the channel estimation request message.

The serving base station 200 receiving the sounding signal transmitted by the terminal 100 measures the sounding signal, and estimates a downlink channel based on the measured channel state or information (S331). Meanwhile, the neighboring base stations 210 and 220 may also receive (overhear) a sounding signal in the sounding region allocated to the terminal 100 to estimate a downlink channel (S332).

Next, the serving base station 200 reports the estimated channel information to the coordinator 300 (S341). The neighboring base stations 210 and 220 may also report the estimated channel information to the coordinator 200 (S342). In this case, the coordinator 300 may control suitable cooperative transmission for downlink data transmission based on the estimated channel information received from the serving base station 200 or the neighboring base stations 210 and 220 .

Meanwhile, interference control through the sounding-based channel estimation method may be performed without the coordinator 300 . In this case, the serving base station 200 uses the estimated channel information, and the neighboring base station 300 also uses the received (overheared) channel information, each base station can independently perform cooperative transmission that can reduce interference. there is.

When it is determined that cooperative transmission is necessary through the reported estimated channel information, the coordinator 300 requests cooperative transmission to the serving base station 200 (S351). In this case, the coordinator 300 may request cooperative transmission to the neighboring base stations 210 and 220 (S352).

The serving base station 200 or the neighboring base stations 210 and 220 receiving the cooperation request transmits a response message to the coordinator 300 (S361, S362). The response message includes whether to accept the cooperation request.

Finally, the serving base station 200 and the neighboring base stations 210 and 220 perform cooperative transmission (S371, S372). That is, the serving base station 200 and the neighboring base stations 210 and 220 simultaneously provide a service (downlink data) to the terminal 100 .

On the other hand, unlike methods S371 and S372 of FIG. 3 , the neighboring base stations 210 and 220 do not transmit downlink data to the terminal 100 , but can perform cooperative transmission by controlling the terminal belonging to its own cell. That is, when the neighboring base stations 210 and 220 overhear a sounding signal from the terminal 100, a transmission method (eg, multiple antennas) of a terminal belonging to its own cell based on the received sounding signal. A service can be provided by selecting precoding for transmission. In addition, the neighboring base stations 210 and 220 may perform beamforming to reduce interference to the terminal 100 and indirect cancellation (interference cancelation, interference nulling).

And, for more efficient interference cancellation, a base station (a serving base station or a neighboring base station) that has received a sounding signal for cooperative transmission is based on channel environment information favorable to a terminal belonging to its own cell and bad channel environment information due to interference. to determine the cooperative transmission method. To this end, each base station performing cooperative communication determines a cooperative communication method based on channel state information received from a terminal belonging to its own cell in addition to cooperation based on a sounding signal.

Next, a method for estimating a channel through a midamble according to an embodiment of the present invention will be described with reference to FIGS. 4 to 6 . That is, a method in which a transmitting side (eg, a base station) transmits a signal for channel measurement and a receiving side (eg, a terminal) measures and reports a channel will be described. A midamble is a physical channel used for channel measurement when a base station uses multiple antennas.

4 is a diagram illustrating a method for estimating a channel through a midamble according to an embodiment of the present invention.

First, the serving base station 200 transmits a channel measurement request message, which is a message requesting channel measurement, to the terminal 100 to obtain a report on channel measurement (S200). Here, the neighboring base stations 210 and 220 may also transmit a channel measurement request message to the terminal 100 . The channel measurement request message is shown in Table 1 below. As shown in Table 1, the channel measurement request message may include a cell ID (IDcell) for measuring a physical channel, a location of a midamble to be transmitted, and a feedback type. Through such a channel measurement request message, the terminal 100 may measure a channel.

The base stations 200 to 220 performing cooperative transmission transmit signals (eg, preamble, midamble, and pilot) for channel measurement to a specific area ( S410 and S411 ). Hereinafter, a case in which a signal for channel measurement is a midamble is described as an example for convenience of description, but it is natural that other signals may be used. A method of transmitting the midamble will be described in detail with reference to FIGS. 5 and 6 below.

The terminal 100 measures a channel state through a signal for channel measurement (S420). Here, the channel measurement method of the terminal 100 is performed in response to information included in the channel measurement request message.

The terminal 100 reports information on the measured channel state to the serving base station 200 (S430). In this case, the terminal 100 may also report information on the measured channel state to the neighboring base stations 210 and 220 (S431). Reporting on the measured channel state may be performed through the channel response message shown in Table 2 below. As shown in Table 2, the channel response message includes cell ID (ID cell), channel measurement location (Measurement location), measured value, and channel quality information (eg, precoding applied to multi-antenna technology). , SINR (Signal to Interference plus Noise Ratio), CINR (Carrier to Interference Noise Ratio), RSSI (Received Signal Strength Indication), etc.) used for data allocation.

The serving base station 200 reports the reported channel state information to the coordinator 300 (S440). Meanwhile, the neighboring base stations 210 and 220 may also report the reported channel state information to the coordinator 300 (S441). Here, the information on the channel state is precoding applied to the multi-antenna technology, SINR (Signal to Interference plus Noise Ratio) used for data allocation, CINR (Carrier to Interference Noise Ratio), RSSI (Received Signal Strength Indication), etc. this can be

Meanwhile, as for the midamble used for channel measurement, the same midamble type may be transmitted through different resources, or a middleamble type that can be distinguished from each other may be transmitted.

5 is a diagram illustrating a case in which a plurality of base stations transmit the same midamble at different times. In FIG. 5 , each hatched portion assumes that the base stations 200 to 220 include four antennas, and therefore, the base stations 200 to 220 transmit four midamble signals, respectively.

As shown in FIG. 5 , each of the plurality of base stations 200 to 220 transmits the same type of midamble to the terminal 100 at different times. That is, the serving base station 200 transmits the midamble signal to the terminal 100 at time T1, the neighboring base station 210 transmits the midamble signal to the terminal 100 at time T2, and the neighboring base station 220 A midamble signal is transmitted to the terminal 100 at time T3. Here, the time point at which the midamble is transmitted is preset by the above-described channel measurement request message (particularly, Location of Midamble). In this way, since the base stations transmit the midamble at different times, the identifier for distinguishing the middleamble can be reduced.

The terminal 100 may measure the channel state of each midamble by using the midambles received at different times. When transmitting a channel measurement request message (see S400 and S401 of FIG. 4 ), the base stations 200 to 220 independently allocate a reporting area (channel) of the terminal 100 according to the corresponding midamble transmission, and through this, the terminal 100 ) may report the channel state information measured through the allocated reporting area to the base station (serving base station or neighboring base station). The channel response message (refer to Table 2) of the terminal 100 may include an identifier (IDCell) for distinguishing an area measured by the terminal 100 . Meanwhile, the terminal 100 may select only information on a midamble suitable for cooperative communication from among a plurality of channel states measured through a plurality of midambles and report it to the corresponding base station. That is, in FIG. 5 , only the measured channel state of some midambles among the 12 midambles received by the terminal 100 may be reported to the serving base station 200 .

The serving base station 200 or the neighboring base stations 210 and 220 reports channel state information for each midamble to the coordinator 300 . The coordinator 300 may select a transmission method of a base station possessed by the coordinator based on the received channel state information, and inform the base station of a transmission method that the base station can use or a transmission method that the base station should not use. Based on the information received from the coordinator, each base station may select and apply a transmission method capable of improving the service of the lower terminal, or may select and apply a transmission method that eliminates or reduces interference from neighboring base stations.

On the other hand, when cooperative transmission is performed without the control of the coordinator 300 , each base station 200 to 220 independently selects a transmission method based on the channel state for each midamble received from the terminal 100 . Here, the selection of the transmission method of the base station may be applied by selecting and applying a transmission method capable of improving the service of the corresponding terminal, or selecting and applying a transmission method for removing or reducing interference of a neighboring base station.

6 is a diagram illustrating a case in which a plurality of base stations transmit a midamble at the same time.

As shown in FIG. 6 , the plurality of base stations 200 to 210 transmit the midamble to the terminal 100 at the same time. Here, each midamble includes information for identifying the midamble, through which the UE can distinguish the midamble received from a plurality of base stations. The information identifying the midamble may be a permutation identifier, a cell or a base station identifier. Meanwhile, the plurality of base stations 200 to 210 may make a request including an input value required for channel measurement when requesting channel measurement through the midamble (ie, transmitting a channel measurement request message).

The terminal 100 measures the channel state of each midamble by using the midamble identified by the identifier. In addition, the terminal 100 reports the measured channel quality information to the base station (a serving base station or a neighboring base station) using an input value required for channel measurement. Meanwhile, in the same manner as in the case of FIG. 5 , on the other hand, the terminal 100 may select only information on a midamble suitable for cooperative communication among a plurality of channel states measured through a plurality of midambles and report it to the corresponding base station. .

The coordinator 300 may select a transmission method of a base station possessed by the coordinator based on the received channel state information, and inform the base station of a transmission method that the base station can use or a transmission method that the base station should not use. Based on the information received from the coordinator, each base station may select and apply a transmission method capable of improving the service of the lower terminal, or may select and apply a transmission method that eliminates or reduces interference from neighboring base stations.

On the other hand, when cooperative transmission is performed without the control of the coordinator 300 , each base station 200 to 220 independently selects a transmission method based on the channel state for each midamble received from the terminal 100 . Here, the selection of the transmission method of the base station may be applied by selecting and applying a transmission method capable of improving the service of the corresponding terminal, or selecting and applying a transmission method for removing or reducing interference of a neighboring base station.

Before performing cooperative transmission, the base station may provide a service to the terminal by allocating and transmitting data based on the channel state information received from the terminal without the assistance of a coordinator. In this case, the base station may transmit data through cooperative communication when receiving a request from a neighboring base station or a coordinator. In addition, when the service quality of the terminal belonging to the base station is deteriorated due to interference or the like due to data transmitted from the neighboring base station to the terminal, the base station may notify the corresponding fact to the neighboring base station or the coordinator. In response to this, cooperative transmission between base stations may be performed.

Meanwhile, when the base station receives configuration information for cooperative transmission from the coordinator, the base station may apply interference control based on the received information. In this case, the time point at which the base station applies the interference control may be immediately after receiving the related information, after a predetermined time, or the like. Information on such a time may also be included in configuration information for cooperative transmission.

Table 1 below shows a channel measurement request message format, which is a message for a base station to request a measurement of a physical channel to a terminal. This message format may be an IM_CT-CH Report Request (Interference Management_Cooperation Transmission-Channel Report Request).

Table 2 below shows the format of a channel response message, which is a message in which the terminal responds to the channel measurement to the base station. This message format may be IM_CT-CH Report Response (Interference Management_Cooperation Transmission-Channel Response).

7 is a diagram illustrating a serving base station 200 according to an embodiment of the present invention. Although the case where the base station is a serving base station has been described as an example in FIG. 7 , the base station of FIG. 7 may be the neighboring base stations 210 and 220 .

As shown in FIG. 7 , the serving base station 200 according to an embodiment of the present invention includes a processor 201 , a memory 202 , an RF module 203 , and an antenna 204 .

The processor 201 may be configured to implement the procedures, methods, and functions described with reference to FIGS. 2-6 .

The memory 202 is connected to the processor 201 and stores various information related to the operation of the processor 201 .

The RF module 203 is connected to the antenna 204 and transmits or receives a wireless signal. In addition, the antenna 204 includes multiple antennas (MIMO antenna), and the antenna 204 according to an embodiment of the present invention may selectively use multiple antennas to perform cooperative communication.

8 is a diagram illustrating a terminal 100 according to an embodiment of the present invention.

As shown in FIG. 8 , the serving base station 200 according to an embodiment of the present invention includes a processor 101 , a memory 102 , an RF module 103 , and an antenna 104 .

The processor 101 may be configured to implement the procedures, methods, and functions described with reference to FIGS. 2 to 6 .

The memory 102 is connected to the processor 101 and stores various information related to the operation of the processor 101 .

The RF module 103 is connected to the antenna 104 and transmits or receives a radio signal. And the antenna 104 includes a single or multiple antennas (MIMO antenna).

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 (19)

A method in which a terminal is provided with a service through cooperative communication between a first base station to which the terminal belongs and a second base station neighboring the first base station,
receiving a first midamble from the first base station;
receiving a second midamble from the second base station;
measuring a first channel and a second channel through the first midamble and the second midamble, respectively; and
transmitting information on the measured first channel to the first base station;
transmitting information on the measured second channel to the first base station; and
and receiving downlink data from the first base station and the second base station. According to claim 1,
The method further comprises receiving a channel measurement request message, which is a message requesting measurement of the first and second channels,
The channel measurement request message includes information on positions of the first midamble and the second midamble. According to claim 1,
The first midamble and the second midamble are received at different times. According to claim 1,
The first midamble and the second midamble include their own identifiers. According to claim 1,
Each of the first and second midambles is a plurality of midambles,
The transmitting to the first base station includes transmitting the information corresponding to some midambles among the plurality of midambles to the first base station. According to claim 1,
The method further comprising transmitting the measured channel information to the second base station. delete According to claim 1,
The first base station selects a transmission method for improving the service of the terminal, and the second base station selects a transmission method for reducing or eliminating interference to the terminal. 3. The method of claim 2,
The channel measurement request message further includes a cell ID and a type to be fed back by the terminal. A method in which a first base station cooperates with a second base station adjacent to the first base station to provide a service to a terminal belonging to the first base station,
receiving, by the first base station, a sounding signal from the terminal;
estimating, by the first base station, a first downlink channel by measuring the sounding signal;
step of the second base station overhearing the sounding signal from the terminal;
estimating, by the second base station, a second downlink channel using the overheared sounding signal;
and performing, by the first and second base stations, cooperative transmission to the terminal by using the estimated first and second downlink channels, respectively. 11. The method of claim 10,
transmitting information on the estimated first and second downlink channels to a coordinator;
receiving a request for the cooperative transmission from the coordinator; and
and, with the coordinator, responding to the request. 11. The method of claim 10,
The method further includes, by the first base station, transmitting a sounding-based channel estimation request message to the terminal,
The channel estimation request message includes information on resources used to transmit the sounding signal,
The second base station uses the resource only for the sounding signal. 13. The method of claim 12,
The second base station estimates the second downlink channel by overhearing the sounding signal through the resource. delete 14. The method of claim 13,
In response to the estimated second downlink channel, the second base station performs beamforming to reduce interference to the terminal or performs interference cancellation (interference nulling) to the terminal. . As a terminal receiving a service through cooperative communication between a first base station and a second base station,
an RF module receiving a first midamble from the first base station and receiving a second midamble from the second base station; and
a processor for measuring a first channel and a second channel through the first and second midambles, respectively, and controlling to transmit information on the measured first and second channels to the first base station;
The RF module is a terminal for receiving downlink data from the first base station and the second base station. 17. The method of claim 16,
The first midamble and the second midamble are received at different time points. 17. The method of claim 16,
wherein the processor controls to transmit the information corresponding to some midambles of the first and second midambles to the first base station. 17. The method of claim 16,
The RF module receives a channel measurement request message that is a message requesting measurement of the channel,
The channel measurement request message includes information on positions of the first and second midambles.

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