KR20130020545A - Communication path control apparatus and method between multiple du and multiple rfu in wireless communication system - Google Patents

Abstract

PURPOSE: A communication path control device between a digital unit and a radio frequency unit and a method thereof are provided to flexibly transmit and receive data between the digital unit and the radio frequency unit. CONSTITUTION: A first transceiver(600) receives a first signal from a first digital unit. The first signal includes a first identifier indicating a purpose radio frequency unit. A path selecting unit(620) selects a first path of the purpose radio frequency unit based on the first identifier. A second transceiver(640) transmits the first signal to the selected first path. The first identifier indicates one or more purpose antennas. [Reference numerals] (60) Path control unit; (600) First transceiver; (620) Path selecting unit; (640) Second transceiver; (AA,BB,CC) RF unit; (DD) First signal; (EE) Second signal

Description

Communication path control apparatus between a plurality of digital devices and a plurality of RF devices in a wireless communication system and a method therefor {Communication path control apparatus and method between multiple DU and multiple RFU in wireless communication system}

The present invention relates to a communication of a wireless communication system, and more particularly, to a communication path control device and a method between a plurality of digital units (DUs) and a plurality of radio frequency units (RFUs) in a wireless communication system. It is about.

In order to reduce the cost of base station installation and ease of management in a wireless communication system, many attempts have been made to connect digital devices and RF devices using wires such as optical cables, and to deploy only RF devices remotely. lost. An RF device may be called a radio unit (RU). Recently, in the process of actively researching cloud communication center (CCC) technology for integrating digital devices of a plurality of base stations into a communication company of a network operator, research on an effective wired connection between a digital device and an RF device is being conducted.

1 is a diagram illustrating a connection using a PON network between a DU and an RFU.

The technique shown in FIG. 1 attempts to solve the above problem by using a passive optical network (PON) network having a master-slave structure, and OLT transmit signals of digital devices 100 of a plurality of base stations. (optical line terminal 110) using an optical combiner (optical combiner, 120) to transmit in the form of frequency overlay (frequency overlay) over the PON network to the optical network unit (ONU) 160 or ONT (optical network terminal), In the ONU 160 or ONT, an optical diplexer (140) and a frame multiplex control assembly (FMCA) are used to separate a signal transmitted from the digital device 100 and convert the antenna into an RF signal. It relates to a method for transmitting to the terminal via.

2 is a diagram illustrating a connection using an Ethernet line between a DU and an RF module.

The technique shown in FIG. 2 uses a control unit 220 to transmit a signal from the digital device 212 in the form of a frequency overlay over the Ethernet line 205 and using the Ethernet AP w / MUX 230. After separating the signal of the digital device 212, the RF module 240 converts the signal into an RF signal and transmits to the terminals 152, 154 through the antenna (238, 244).

The above techniques only show how one digital device and its limited RF devices are paired and connected, and any antenna mounted on any digital device and any RF device or any digital device and any RF device. Did not suggest a free connection method.

An object of the present invention is to provide a communication path control method between a plurality of DUs, a plurality of RFUs, and a plurality of antennas in a wireless communication system.

Another technical problem of the present invention is to provide a communication path control device between a plurality of DUs, a plurality of RFUs, and a plurality of antennas in a wireless communication system.

Another technical problem of the present invention is to provide a wireless communication system capable of flexibly transmitting and receiving signals between a plurality of DUs, a plurality of RFUs, and a plurality of antennas.

According to an aspect of the present invention, there is provided a path control method by a path control device in a wireless communication system including a plurality of DUs, a plurality of RFUs, and a plurality of antennas. The method includes receiving a first signal from a first DU, the first signal comprising a first identifier indicating at least one target RFU, and selecting a first path to the at least one target RFU indicated by the first identifier. And transmitting the first signal in the selected first path.

According to another aspect of the present invention, in a communication system including a plurality of DUs, a plurality of RFUs, and a plurality of antennas, a path control device for connecting the plurality of DUs and the plurality of RFUs is provided. The path control apparatus may include a first transceiver configured to receive a first signal including a first identifier indicating a target RFU from a first DU, and select a path to select a first path to the target RFU based on the first identifier And a second transceiver for transmitting the first signal through the selected first path.

According to another aspect of the present invention, there is provided a wireless communication system. The wireless communication system includes a plurality of DUs for processing a digital signal, a plurality of RFUs for processing a wireless signal, a plurality of antennas provided at least one of each of the plurality of RFUs, and the plurality of DUs and the plurality of RFUs. A path control device connected to the plurality of DUs and performing a path control of the signals between the plurality of DUs, wherein the plurality of DUs, the plurality of RFUs, and the plurality of antennas each have a unique identifier. The path control device may perform the path control based on the identifier.

According to the present invention, a signal can be flexibly transmitted and received between a plurality of DUs and a plurality of RFUs in a wireless communication system.

According to the present invention, a signal can be flexibly transmitted and received between a plurality of DUs, a plurality of RFUs, and a plurality of antennas respectively provided in the plurality of RFUs.

According to the present invention, in a wireless communication system, communication can be provided using any of a plurality of antennas in any of a plurality of base stations.

1 is a diagram illustrating a connection using a PON network between a DU and an RFU.
2 is a diagram illustrating a connection using an Ethernet line between a DU and an RF module.
3 shows a wireless communication system according to an embodiment of the present invention.
4 is a flowchart illustrating a transmission path control method of a path control apparatus according to an embodiment of the present invention.
5 is a flowchart illustrating a receiving path control method of a path control apparatus according to an embodiment of the present invention.
6 illustrates a path control apparatus according to an embodiment of the present invention.
7 illustrates a case in which a path control device according to an embodiment of the present invention receives a signal from a DU and transmits the signal to an RFU.
8 illustrates a case in which a path control device according to an embodiment of the present invention receives a signal from the RFU and transmits it to the DU.

Hereinafter, some embodiments of the present invention will be described in detail with reference to exemplary drawings. In adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are assigned to the same components as much as possible even though they are shown in different drawings. In addition, in the following description of the embodiments of the present invention, when it is determined that the detailed description of the related known configuration or function may obscure the subject matter of the present specification, the detailed description thereof will be omitted.

3 shows a wireless communication system according to an embodiment of the present invention.

Referring to FIG. 3, the wireless communication system 30 includes a plurality of DUs 300, a plurality of RFUs 320, a plurality of antennas 340, a path control device 360, and a terminal 380. The plurality of DUs 300 respectively process digital signals. The plurality of RFUs 320 process radio signals. At least one antenna 340 is provided in each of the plurality of RFUs 320. The path control device 360 is connected between the plurality of DUs 300 and the plurality of RFUs 320. Here, the path control device 360 is connected between the plurality of DU 300 and the plurality of RFU 320, the path control device 360 is a plurality of DU (300) and a plurality of RFU (320). Or a path control device 360 is connected to the plurality of DUs 300 and the plurality of RFUs 320 via another path control device 360 or another communication device. The path control apparatus 360 may be connected to the plurality of DUs 300 and the plurality of RFUs 320 through a communication line. Here, the communication line is a path through which a signal is transmitted, and may include, for example, a twisted pair cable, a coaxial cable, an optical cable, a microwave, and a wireless radio wave. The path control device 360 and the plurality of RFUs 320 may be connected via an optical cable. Each of the plurality of DUs 300, the plurality of RFUs 320, and the plurality of antennas 340 has a unique identifier. The path control apparatus 360 performs path control of signals between the plurality of DUs 300 and the plurality of RFUs 320 based on the identifier.

For example, the first DU of the plurality of DUs 300 may transmit the first signal including the first identifier indicating the at least one target RFU to the path control apparatus 360. The first identifier may further indicate the first DU. The path control apparatus 360 may select a first path based on the first identifier. For example, the path control apparatus 360 may select the first path based on the first identifier and a lookup table indicating an address or a path corresponding to the first identifier. The path control device 360 may transmit the selected first signal to the destination RFU through the first path. The destination RFU transmits the received first signal to the terminal 380. If there is more than one target RFU, the target RFU may synchronize time with the first DU based on a timestamp. For example, the first DU and the target RFU exchange a time stamp of the first DU and a time stamp of the target RFU via a path control device 360 to calculate a time difference, and based on this. You can synchronize the time. The destination RFU may transmit the first signal to the terminal 380 at a predetermined time based on the synchronized time. In this case, at least one of the first DU and the target RFU may buffer a first signal by buffering the target RFU through the buffering. 380). For example, in transmitting the first signal to the destination RFU via the path control device 360, the first DU may advance the first DU in consideration of a signal transmission delay time between the first DU and the destination RFU. One signal is transmitted to the target RFU. The target RFU receives and buffers the first signal, converts the RF signal into an RF signal at a time when the first signal is to be transmitted through an antenna provided in the target RFU, and transmits the converted RF signal to an antenna provided in the target RFU. .

Also, the first identifier may further indicate at least one destination antenna. In this case, the destination RFU transmits the first signal to the terminal 380 through the destination antenna. The destination antenna refers to a specific antenna instructed to transmit the first signal to the terminal 380 among the antennas provided in the destination RFU. When the target RFU is one, the target antenna may be one or more of the antennas provided in the target RFU. Alternatively, when the target RFU is two or more, the target antenna may be at least one antenna among antennas provided in the at least two target RFUs. If the target RFU is two or more and the first identifier further indicates the target antenna, the target RFU synchronizes time synchronization with the first DU, and transmits the first signal through the target antenna at a predetermined time. Can be sent to. In this case, at least one of the first DU, the path control device 360 and the destination RFU buffers the first signal, and through the buffering, the destination RFU transmits the first signal to the destination antenna at the predetermined time. It can be transmitted to the terminal through. For example, the target RFU receives and buffers the first signal, and converts the RF signal into an RF signal at a time when the first signal is to be transmitted through the target antenna among the antennas included in the target RFU, and is provided in the target RFU. To the intended antenna.

Meanwhile, the first RFU among the plurality of RFUs may transmit a second signal including a second identifier indicating at least one target DU to the path control apparatus 360. The second identifier may further indicate the first RFU. The second signal may be a signal received by the first RFU from the terminal 380. In this case, the first RFU may receive the second signal through all antennas provided in the first RFU, or may receive the second signal only through a specific antenna among the antennas provided in the first RFU. It may be. In addition, the first RFU may be one or more. The path control apparatus 360 may select a second path based on the second identifier. For example, the path control apparatus 360 may select the second path based on a lookup table indicating the second identifier and the address or the path corresponding to the second identifier. The path control device 360 may transmit the second signal to the destination DU through the second path. When the first RFU is two or more, when the first RFU transmits a second signal to the destination DU via the path control device 360, the first RFU and the DU are synchronized with time and the first The second signal may be transmitted to the destination DU via the path control device 360 at a predetermined time by performing buffering in the RFU. Alternatively, buffering may be performed in the path control apparatus 360 or the destination DU.

As described above, the path control apparatus 360 according to the present invention performs flexible connection with any DU of the plurality of DUs 300 and any RFU of the plurality of RFUs 320. Alternatively, the path control apparatus 360 performs flexible connection with any DU of the plurality of DUs 300, any RFU of the plurality of RFUs 320, and any antenna provided in the arbitrary RFU. That is, the wireless communication system 30 according to an embodiment of the present invention may transmit a signal to a terminal from any DU through any RFU (and any antenna among antennas provided in the RFU), or any Through the RFU (and any antenna of the antenna provided in any RFU) can receive a signal from the terminal and transmit to any DU. Accordingly, the wireless communication system 30 may provide a coordinated multipoint (CoMP) and a plurality of base stations through a flexible connection between the plurality of DUs 300, the plurality of RFUs 320, and the plurality of antennas 340. A next-generation wireless base station operation scheme may be performed, such as performing a multiple base station multiple input multiple output (Multi-BS MIMO) for transmitting the same or different data to the terminal 380.

Here, the cooperative multipoint, that is, CoMP, is proposed to reduce inter-cell interference in a multi-cell environment and to improve performance of a terminal at a cell boundary. Using the CoMP system, the terminal can be jointly supported data from a multi-cell base station (multi-cell base station). In this case, communication performance of the cell boundary terminal can be improved.

The MIMO method refers to a method of increasing communication efficiency of data using a plurality of antennas. When using the multiple base station MIMO method, the terminal may be jointly supported with data from the multiple base stations. In this case, intercell interference can be reduced and data throughput can be increased.

Hereinafter, a path control method centering on the path control device 360 in the wireless communication system 30 will be described.

4 is a flowchart illustrating a transmission path control method of a path control apparatus according to an embodiment of the present invention.

Referring to FIG. 4, a first DU of a plurality of DUs constituting a wireless communication system generates a first signal including a first identifier indicating at least one target RFU (S400).

Here, the first DU represents any DU of the plurality of DUs.

The destination RFU indicates a destination in the wireless communication system to which the first DU intends to transmit the first signal among a plurality of RFUs constituting the wireless communication system. The target RFU may be one or more.

The first identifier is an identifier indicating the target RFU. The first identifier may further indicate the first DU.

The first identifier may further indicate at least one destination antenna. That is, in generating the first signal, the first DU may include an identifier indicating the target antenna among the target RFU and the antennas included in the target RFU in the first signal.

The first DU transmits the generated first signal to a path control device (S420).

The path control device receives the first signal including the first identifier.

The path control apparatus selects a first path to the target RFU indicated by the first identifier (S440).

The selecting of the first path may be performed based on a lookup table indicating an address or a path corresponding to the first identifier and the first identifier. The look-up table is a table that associates an identifier of the RFU with a path to the RFU indicated by the identifier of the RFU. Accordingly, the path control apparatus may select a first path from the lookup table to the target RFU corresponding to the first identifier. When the first identifier indicates one or more of the target RFUs, the first path may indicate a path to each of the one or more target RFUs.

The path control apparatus transmits the first signal in the selected first path (S460).

In this case, the first signal is received at the target RFU. The destination RFU may transmit the first signal to the terminal by performing a radio signal processing process on the first signal.

The above description shows a process of transmitting a signal to the terminal through the RFU in a wireless communication system. Receiving a signal from the terminal through the RFU in the wireless communication system can be performed in the above-described reverse, for example, as follows.

5 is a flowchart illustrating a receiving path control method of a path control apparatus according to an embodiment of the present invention.

Referring to FIG. 5, a second signal including a second identifier indicating at least one target DU is generated from a first RFU among a plurality of RFUs constituting a wireless communication system (S500). Here, the generation of the second signal by the first RFU includes receiving the second signal from the terminal by the first RFU, and performing signal processing with a signal that can be recognized by the path control apparatus.

Here, the first RFU represents any RFU of the plurality of RFUs.

The destination DU represents a destination in a wireless communication system to which the first RFU is to transmit the second signal among a plurality of DUs constituting the wireless communication system. The destination DU may be one or more.

The second identifier is an identifier indicating the destination DU. The second identifier may further indicate the first RFU.

The first RFU transmits the generated second signal to the path control device (S520).

The path control device receives the second signal including the second identifier.

The path control apparatus selects a second path to the destination DU based on the second identifier (S540).

The selecting of the second path may be performed based on a lookup table indicating the second identifier and an address or a path corresponding to the second identifier. The lookup table is a table that maps an identifier of a DU and a path to a DU indicated by the identifier of the DU. Accordingly, the path control apparatus may select a second path from the lookup table to the destination DU corresponding to the second identifier. When the second identifier indicates one or more of the destination DUs, the second path may indicate a path to each of the one or more destination DUs.

The path control apparatus transmits the second signal in the selected second path (S560).

In this case, the second signal is received at the destination DU.

As described above, the plurality of DUs and the plurality of RFUs constituting the wireless communication system may perform flexible signal transmission and reception by the path control method of the path control apparatus according to the present invention. Hereinafter, a structure of the path control apparatus according to the present invention will be described with reference to the following.

6 illustrates a path control apparatus according to an embodiment of the present invention.

Referring to FIG. 6, the path control apparatus 60 includes a first transceiver 600, a path selector 620, and a second transceiver 640.

The first transceiver 600 is connected to a plurality of DUs. The first transceiver 600 receives a first signal including a first identifier indicating the target RFU from the first DU among the plurality of DUs, or the second identifier indicating the target DU from the path selection unit 620. The second signal may be received and transmitted to the target DU. The first transceiver 600 may be divided into a first transmitter and a first receiver. In this case, the first transmitter may transmit the second signal to the destination DU, and the first receiver may receive the first signal from the first DU.

The second transceiver 640 is connected to a plurality of RFUs. The second transceiver 640 receives the second signal including the second identifier indicating the target DU from the first RFU among the plurality of RFUs, or indicates the target RFU from the path selector 620. The first signal including the first identifier may be transmitted to a target RFU. The second transceiver 640 may be divided into a second transmitter and a second receiver. In this case, the second transmitter may transmit the first signal to the target RFU, and the second receiver may receive the second signal from the first RFU.

The path selector 620 may select a first path to the target RFU based on the first identifier. In addition, the path selector 620 may select a second path to the destination DU based on the second identifier.

The path control device 60 receives the first signal from the first DU and transmits the operation of the path control device 60 to the destination RFU, and the path control device 60 receives the second signal from the first RFU. If the description is divided into the following case.

7 illustrates a case in which a path control device according to an embodiment of the present invention receives a signal from a DU and transmits the signal to an RFU.

Referring to FIG. 7, the path control device 70 includes a first transceiver 700, a path selector 720, and a second transceiver 740.

The first transceiver 700 is connected to a plurality of DUs. The first transceiver 700 receives a first signal including a first identifier indicating the target RFU 780-1, 780-2 from the first DU 760 among the plurality of DUs.

Here, the first DU 760 represents any DU of the plurality of DUs.

The target RFUs 780-1 and 780-2 indicate destinations in the wireless communication system to which the first DU 760 intends to transmit the first signal among a plurality of RFUs constituting the wireless communication system. The target RFUs 780-1 and 780-2 may be one or more.

The first identifier is an identifier indicating the target RFUs 780-1 and 780-2. The first identifier may further indicate the first DU 760.

The first identifier may further indicate at least one destination antenna 790-1, 790-2. That is, in generating the first signal, the first DU 760 generates the first signal, and among the antennas provided in the target RFU 780-1 and 780-2 and the target RFU in the first signal. 1, 790-2) may be included.

The path selector 720 selects first paths to the destination RFUs 780-1 and 780-2 based on the first identifier.

The path selector 720 may select the first path based on the first identifier and a lookup table indicating an address or a path corresponding to the first identifier. When the first identifier indicates one or more of the destination RFUs 780-1 and 780-2, the first path may indicate a path to each of the one or more destination RFUs 780-1 and 780-2. .

The second transceiver 740 transmits the first signal in the selected first path.

In this case, the first signal is received by the target RFUs 780-1 and 780-2, and the target RFUs 780-1 and 780-2 perform a wireless signal processing process to receive the first signal. Can be sent to. When there are a plurality of destination RFUs 780-1 and 780-2, the wireless communication system including the plurality of destination RFUs 780-2 and 780-2 includes the plurality of destination RFUs 780-1 and 780-. The first signal may be transmitted through 2). In addition, a plurality of the target RFU (780-1.780-2), and the first identifier to the target antenna (790-1, 790-2) provided in the target RFU (780-1, 780-2) If further instructed, the wireless communication system transmits the first signal through only the target antennas 790-1 and 790-2 among the antennas provided in the plurality of target RFUs 780-1 and 780-2, respectively. can do. Based on this, the wireless communication system can perform CoMP and multiple base station MIMO communication.

In the above description, the path control device 70 receives a signal from the first DU 760 and transmits the signal to the target RFUs 780-1 and 780-2. When receiving a signal from any RFU and transmits to the target DU can be performed in the above-described reverse, for example, as follows.

8 illustrates a case in which a path control device according to an embodiment of the present invention receives a signal from the RFU and transmits it to the DU.

Referring to FIG. 8, the path control apparatus 80 includes a first transceiver 800, a path selector 820, and a second transceiver 840.

The second transceiver 840 is connected to a plurality of RFUs. The second transceiver 840 receives a second signal including a second identifier indicating the target DU 860 from the first RFU 880 among the plurality of RFUs.

Here, the first RFU 880 represents any RFU of the plurality of RFUs.

The destination DU 860 indicates a destination in a wireless communication system to which the first RFU intends to transmit the first signal among a plurality of DUs constituting the wireless communication system. The destination DU 860 may be one or more.

The second identifier is an identifier indicating the destination DU 860. The second identifier may further indicate the first RFU 880.

The path selector 820 selects a second path to the destination DU 880 based on the second identifier.

The path selector 820 may select a second path based on a lookup table indicating the second identifier and the address or the path corresponding to the second identifier. When the second identifier indicates one or more of the destination DUs 860, the second path may indicate a path to each of one or more destination DUs.

The first transceiver 800 transmits the second signal through the selected second path.

In this case, the second signal is received by the destination DU 860.

As described above, the wireless communication system having a path control apparatus according to the present invention, freely connects and transmits and receives signals between a plurality of DUs and a plurality of RFUs (and a plurality of antennas respectively provided in the plurality of RFUs). In addition, based on this, it is possible to perform next-generation wireless base station operation methods such as CoMP and multiple base station MIMO.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

Claims (20)

In a wireless communication system including a plurality of digital units (DU), a plurality of radio frequency units (RFU), and a plurality of antennas, a path control method by a path control apparatus,
Receiving a first signal comprising a first identifier indicating at least one destination RFU from the first DU;
Selecting a first path to the at least one destination RFU indicated by the first identifier; And
And transmitting the first signal in the selected first path. The method of claim 1,
Wherein the first identifier further indicates at least one destination antenna. The method of claim 2,
The selecting of the first path may be performed based on a look-up table in which the first identifier and the path correspond to each other. The method of claim 1,
Receiving a second signal including a second identifier indicating at least one destination DU from the first RFU;
Selecting a second path to the at least one destination DU, indicated by the second identifier;
And transmitting the second signal in the selected second path. 5. The method of claim 4,
The selecting of the second path may be performed based on a look-up table that associates the path with the second identifier. In a communication system including a plurality of DUs, a plurality of RFUs, and a plurality of antennas, a path control device for connecting the plurality of DUs and the plurality of RFUs,
A first transceiver configured to receive a first signal including a first identifier indicating a target RFU from the first DU;
A path selector that selects a first path to the target RFU based on the first identifier; And
And a second transceiver configured to transmit the first signal along the selected first path. The method according to claim 6,
And the first identifier further indicates at least one destination antenna. The method according to claim 6,
The path selector selects the first path based on a look-up table that corresponds the path with the first identifier. The method according to claim 6,
The second transceiver receives a second signal including a second identifier indicating at least one destination DU from the first RFU,
The path selector selects a second path to the at least destination DU, indicated by the second identifier,
And the first transceiver transmits the second signal through the second path. The method of claim 9,
And the path selector selects the second path based on a look-up table that associates the path with the second identifier. As a wireless communication system,
A plurality of DUs for processing digital signals;
A plurality of RFUs for processing wireless signals;
A plurality of antennas provided in at least one of the plurality of RFUs; And
A path control device connected between the plurality of DUs and the plurality of RFUs and performing path control of signals between the plurality of DUs and the plurality of RFUs,
Each of the plurality of DUs, the plurality of RFUs, and the plurality of antennas has a unique identifier,
And the path control device performs the path control based on the identifier. 12. The method of claim 11,
The first DU transmits a first signal including a first identifier indicating at least one target RFU to the path control apparatus.
The path control device selects a first path based on the first identifier and transmits the first signal to the at least one destination RFU through the first path. 13. The method of claim 12,
And the first identifier further indicates at least one destination antenna. 13. The method of claim 12,
And the path control device selects the first path based on a look-up table that associates the path with the first identifier. 12. The method of claim 11,
The first RFU transmits a second signal including a second identifier indicating at least one destination DU to the path control apparatus;
And the path control apparatus selects a second path based on the second identifier, and transmits the second signal to the at least one destination DU through the second path. 16. The method of claim 15,
And the path control device selects the second path based on a look-up table that associates the path with the second identifier. 13. The method of claim 12,
The at least one target RFU is time-synchronized with the first DU based on a time stamp (time stamp), characterized in that for transmitting a first signal to the terminal at a predetermined time, the wireless communication system. 18. The method of claim 17,
At least one of the first DU and the at least one destination RFU buffers the first signal, and through the buffering, the at least one destination RFU transmits the first signal to the terminal at the predetermined time. Wireless communication system, characterized in that. The method of claim 13,
The at least one destination RFU is time-synchronized with the first DU based on a timestamp, and transmits the first signal to the terminal through the at least one destination antenna at a predetermined time. . 20. The method of claim 19,
At least one of the first DU and the at least one target RFU buffers the first signal, and through the buffering, the at least one target RFU receives the first signal at the predetermined time by the at least one target antenna. Wireless communication system, characterized in that for transmitting to the terminal.

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