JP2023054204A - Controller, control method, and program selectively using many antennas - Google Patents

Abstract

PROBLEM TO BE SOLVED: To efficiently establish connection between a base station device and a terminal device in a system in which one or some of many antennas are selected and used for communication between the base station device and the terminal device.

SOLUTION: A controller is connected to a plurality of antennas and performs communication of user data with a terminal device using at least any of the plurality of antennas. The controller performs control so as to: identify a reception state of a random access preamble including reception timing at each of the plurality of antennas, the random access preamble being transmitted to establish connection with the controller from the terminal device; select antennas having reception timing differences that are within a predetermined value among the plurality of antennas from the plurality of antennas and, when a predetermined number or more of antennas having reception timing differences within the predetermined value exist, select the predetermined number of antennas in order from an antenna having the highest reception power; and perform communication of the user data with the terminal device using the selected antennas.

SELECTED DRAWING: Figure 4

COPYRIGHT: (C)2023,JPO&INPIT

Description

The present invention relates to connection control technology in wireless communication.

A technique of arranging a large number of antennas at a high density and using some of the large number of antennas to communicate with a terminal device is being studied. According to this, by using different antennas for each terminal device, a virtual cell is formed for each terminal device, and the terminal device is generally present in the center of the virtual cell (non-patent Reference 1). According to such technology, a terminal device can obtain uniform communication quality regardless of its position.

M. Karlsson et al., "Techniques for System Information Broadcast in Cell-Free Massive MIMO," IEEE Transaction on Communication, January 2019.

In a system in which antennas are arranged at high density as described above and at least one of them is selectively used, what kind of procedure is used for connection in order for the terminal device to communicate with the base station device? is not defined at all. Therefore, there is a demand for establishing a procedure for efficiently connecting a base station apparatus and a terminal apparatus.

INDUSTRIAL APPLICABILITY The present invention is a technology that enables efficient connection establishment between a base station apparatus and a terminal device in a system in which some of a large number of antennas are selected and used for communication between the base station device and the terminal device. I will provide a.

A control device according to an aspect of the present invention is a control device connected to a plurality of antennas and communicating user data with a terminal device using at least one of the plurality of antennas, wherein the terminal device identifying means for identifying a reception state including reception timing and reception power at each of the plurality of antennas of a random access preamble transmitted from to establish a connection with the control device; and among the plurality of antennas Then, as an antenna to be used when communicating user data with the terminal device, an antenna for which the difference in the reception timing of each of the plurality of antennas is within a predetermined value is selected, and the reception timing of the antenna is selected. when there are a predetermined number or more of antennas whose difference is within a predetermined value, selecting means for selecting a predetermined number of antennas from among the predetermined number or more of the antennas having the higher received power, and using the selected antennas and control means for controlling communication of user data with the terminal device.

According to the present invention, it is possible to efficiently establish a connection between a base station apparatus and a terminal apparatus in a system in which some of a large number of antennas are selected and used for communication between the base station apparatus and the terminal apparatus. becomes possible.

It is a figure which shows the structural example of a radio|wireless communications system. It is a figure which shows the hardware structural example of a control apparatus. It is a figure which shows the functional structural example of a control apparatus. FIG. 3 is a diagram illustrating an example of the flow of processing performed in a wireless communication system;

Hereinafter, embodiments will be described in detail with reference to the accompanying drawings. In addition, the following embodiments do not limit the invention according to the scope of claims. Although multiple features are described in the embodiments, not all of these multiple features are essential to the invention, and multiple features may be combined arbitrarily. Furthermore, in the accompanying drawings, the same or similar configurations are denoted by the same reference numerals, and redundant description is omitted.

(System configuration)
FIG. 1 shows a configuration example of a wireless communication system according to this embodiment. As shown in FIG. 1, in the radio communication system according to the present embodiment, a large number of antennas are arranged at high density in a plane. and so on. The control device 101 communicates by connecting with the terminal device 102 via at least one antenna. In FIG. 1, only a small number of control devices 101 and terminal devices 102 are shown for the sake of simplification of explanation, but naturally there may be more of these devices than shown in FIG.

In the following description, it is assumed that the antennas are distributed and connected to the control device. The included antenna units may be densely arranged. The control device 101 executes communication processing other than the processing performed on the antenna side. That is, the control device 101 performs baseband processing on the received signal, signal processing in the subsequent upper layers, and the like. As shown in FIG. 1, when constructing a system using a large number of antennas, it is preferable that a plurality of control devices 101 are connected to a plurality of antennas to transmit and receive signals in consideration of computational load and the like. is assumed. In addition, this system can be configured by applying a conventional Centralized Radio Access Network (C-RAN), each antenna corresponds to the Transmission / Reception Point (TRP) of C-RAN, and the control device 101 , C-RAN Baseband Unit (BBU).

The terminal device 102 communicates by connecting to any one of the control devices 101 via an antenna that exists nearby. The control device 101 communicates with the terminal device 102 by using at least a part of the antenna connected to the control device 101 when the connection with the terminal device 102 is established. At this time, two or more control devices 101 can concurrently establish connections with the terminal device 102 and perform communication. As a result, one or more control devices 101 configure a virtual area centered on the terminal device 102 (sometimes called a user-centric area), and regardless of the position of the terminal device 102, Communication services with high quality and stability can be provided.

On the other hand, no consideration has been given to the processing at the start of connection in a system using such a large number of antennas. In view of this situation, the present embodiment provides a method for the terminal device 102 to make an initial connection with one or more control devices 101 . In particular, in the system as shown in FIG. 1, one or more control devices 101 are required to appropriately set antennas to be used for each of one or more terminal devices 102 . Therefore, in the present embodiment, a technique for selecting an antenna to be used by the control device 101 for communication with the terminal device 102 will be described. In the following, it is assumed that the terminal device 102 establishes connection with the control device 101 using a conventional random access procedure. Also, the random access procedure may be called RACH.

First, consider a case where one control device 101 can form a virtual area centering on the terminal device 102 . In this case, the terminal device 102 uses the parameters notified by the notification signal sent by the one control device 101 to use the random access preamble (in message A of 2-step RACH or as message 1 of 4-step RACH) to send. Then, one control device 101 combines radio signals detected by each of the connected antennas, and detects a random access preamble based on the combined radio signal. Note that the random access preamble detection process can be performed by detecting the correlation between the sequence used to transmit the random access preamble and the synthesized radio signal. Then, the control device 101 performs subsequent procedures of RACH processing based on successful detection of the random access preamble. Thereby, the connection between the control device 101 and the terminal device 102 is established. Thereafter, for example, the terminal device 102 transmits a sounding reference signal (SRS), and the control device 101 measures the received power of that SRS at each connected antenna. Then, the control device 101 selects, for example, among the connected antennas, (1) a predetermined number of antennas having the highest SRS received power, (2) antennas having a SRS received power equal to or greater than a predetermined value, (3) ) An antenna that satisfies criteria such as an antenna with the highest SRS reception power and an antenna whose SRS timing difference from the SRS reception timing at that antenna is equal to or less than a predetermined value is selected as an antenna to be used for communication with the terminal device 102. can decide. According to the criteria (1) and (2), an antenna that can obtain good radio quality with the terminal device 102 is selected. Further, according to the criterion (3), an antenna that is positioned sufficiently close to the position of the terminal device 102 and an antenna that is assumed to be within a certain distance from the antenna are selected.

Also, when a plurality of control devices 101 cooperate to form a virtual area centered on the terminal device 102, the terminal device 102 first communicates with one control device 101 out of the plurality of control devices 101. establish a connection between Therefore, the terminal device 102 transmits a random access preamble using parameters notified by the notification signal sent by the one control device 101 and establishes connection with the one control device 101 . Then, the one control device 101 notifies the surrounding other control devices that the connection with the terminal device 102 has been established, and causes the SRS from the terminal device 102 to be measured. Then, the control device 101 is notified of the results measured by each antenna connected to the other control device, and the control device 101 uses the above-described criteria (1) to (3) for connection with the terminal device 102. Antenna can be selected. The selected antenna is notified to other control devices connected to that antenna. Also, in this case, parameters used for communication with the terminal device 102 can be notified from the control device 101 to other control devices. In this way, the antennas used for each terminal device 102 can be appropriately configured using SRS.

On the other hand, in the above method, the antenna to be used is determined after the connection is established. Therefore, after connection, it takes a certain amount of time before communication of user data can be started. Further, especially in a situation where the terminal device 102 is connected to a plurality of control devices 101, when the terminal device 102 executes connection processing with one control device 101, another control device 101 Antenna connected to is not used for that connection process. Therefore, usable antennas are limited during the connection process, and as a result, it may take time to detect the random access preamble.

Thus, in order to speed up the initiation of communication of user data, the control device 101 enables the random access preamble transmitted by the terminal device 102 for antenna selection. When the controller 101 detects random access preambles in each connected antenna, it also detects the received power of each antenna. For example, the control device 101 executes random access preamble detection processing using each radio signal without combining the radio signals detected by each antenna, and specifies the received power at that time. As a result, the control device 101 can generate a random access preamble, such as at what strength and at what timing the radio signal from the terminal device 102 is received in each of the antennas connected to the own device. Reception status can be specified. As a result, the control device 101 can select the antenna to be used for communication of user data with the terminal device 102 during the RACH process, according to the above criteria (1) to (3) and the like. That is, the control device 101 selects, for example, among the connected antennas, (1) a predetermined number of antennas in descending order of the received power of the random access preamble, (2) the received power of the random access preamble is a predetermined value or more. (3) An antenna with the highest random access preamble reception power and an antenna with a random access preamble timing difference from the random access preamble reception timing at that antenna that is equal to or less than a predetermined value. An antenna to be used for communication with device 102 may be determined.

In addition, as necessary, the control device 101 provides other control devices with information for enabling detection of the random access preamble from the terminal device 102, and provides random access via an antenna connected to the control device. Enable preamble detection. Here, the information for enabling random access preamble detection is information used when the terminal device 102 generates a random access preamble to be transmitted to each control device (base station device). Information for enabling random access preamble detection is, for example, seed information for generating sequences used in random access preambles, and time/frequency resources used when transmitting random access preambles. contains information to The control device that receives this information, based on the information, for example, identifies the time/frequency resource to wait for the random access preamble, and detects the random access preamble based on the sequence generated based on the seed information. Execute. Then, the control device 101 acquires the detection result of the random access preamble in the antenna connected to the other control device from the other control device. Then, the control device 101, based on the detection result of the random access preamble in its own device and the detection result of the random access preamble in the other control device, according to the above criteria (1) to (3), etc., the terminal device 102 selects an antenna to be referred to in communication of user data with the controller from antennas connected to the own device and antennas connected to other control devices. When the control device 101 determines to use an antenna connected to another control device, the control device 101 may notify the other control device of upper layer communication parameters and the like used for communication of user data. Here, for example, identification information for identifying the selected antenna is notified to other control devices. In addition, a preamble ID that identifies a random access preamble may also be notified in order to enable identification of which terminal device 102 the selected antenna is to be used for communication. Also, the control device 101 and another control device may transmit and receive user data under the control of a higher-level device. Also, a processing method other than these after the antenna is selected may be applied.

Furthermore, the control device 101 acquires information for enabling detection of a random access preamble used when performing connection control with another control device from another control device as necessary, and detects the random access preamble. can be detected. Then, based on the received information, the control device 101 detects a random access preamble transmitted by the terminal device 102 for connection processing with another control device for each antenna connected to the own device, Information on the reception power and reception timing is transmitted to other control devices that have transmitted information for enabling detection of random access preambles. After that, the other control device determines the antenna to be used for transmitting/receiving user data to/from the terminal device 102, and notifies the control device 101 of the determination result as necessary. Also here, for example, the identification information of the selected antenna and, if necessary, the preamble ID of the random access preamble are notified. When it is determined that any of the antennas connected to the control device 101 is used for transmitting/receiving user data to/from the terminal device 102, the control device 101 uses the antenna to transmit/receive user data to/from the terminal device 102. Send and receive data.

(Device configuration)
Next, a description will be given of the configuration of the control device that executes the processes described above. Note that the terminal device is the same as a conventional terminal device that executes RACH processing, and thus description thereof will be omitted here. FIG. 2 shows a hardware configuration example of the control device. The controller, in one example, includes a processor 201 , ROM 202 , RAM 203 , storage device 204 and communication circuitry 205 . In the control device, the processor 201 executes a computer-readable program for realizing each function of the control device as described above, which is recorded in one of the ROM 202, the RAM 203, and the storage device 204, for example. Note that processor 201 may be replaced by one or more processors such as ASICs (Application Specific Integrated Circuits), FPGAs (Field Programmable Gate Arrays), DSPs (Digital Signal Processors), and the like.

The control device controls the communication circuit 205 by using the processor 201, for example, and performs communication with a partner device (eg, terminal device, other control device, upper node, etc.). Note that FIG. 2 shows a schematic diagram of the control device having one communication circuit 205, but the present invention is not limited to this. For example, the control device may have a communication device for communication with terminal devices and a communication device for communication with other control devices or upper nodes.

FIG. 3 shows an example of the functional configuration of the control device. The functions shown in FIG. 3 are implemented by the processor 201 of the control device executing programs stored in the ROM 202, the RAM 203, and the storage device 204, for example. Note that the control device may have hardware corresponding to at least one of the functions described later. Note that FIG. 3 selectively shows functional units particularly related to the present embodiment among the functions of the control device, and the control device naturally has the functions of a general base station device. sell.

The control device is connected to a plurality of antennas 301, and preamble processing for executing random access preamble detection processing and reception power/reception timing measurement for radio signals received by each of the plurality of antennas 301. A part 302 is provided. The preamble processing unit 302 is related to the random access preamble, such as a seed for generating a random access preamble used when the terminal device establishes a connection with the control device, and a time/frequency resource to which the random access preamble should be transmitted. The parameters are used to perform random access preamble detection processing and the like. In one example, the preamble processing unit 302 performs correlation detection using sequences identified based on the parameters in time/frequency resources specified by the parameters, thereby detecting random access preambles and identifying received power. Execute. Note that the parameters are held in preamble parameter holding section 303 .

The reception power and reception timing of the random access preamble for each of the plurality of antennas 301 specified by preamble processing section 302 are input to antenna selection section 304 . In one example, the antenna selection unit 304 selects a predetermined number of antennas from the plurality of antennas 301 in descending order of received power of the random access preamble. Further, antenna selection section 304 selects an antenna whose received power of the random access preamble is equal to or greater than a predetermined value from among multiple antennas 301 . Note that when there are a predetermined number or more of antennas whose received power of the random access preamble is a predetermined value or more, a predetermined number of antennas can be selected from among them. Further, antenna selection section 304 selects one antenna with the maximum random access preamble reception power or a reception power exceeding a predetermined value, and specifies random access preamble reception timing t1 for that antenna. Then, antenna selection section 304 identifies reception timing t2 of the random access preamble at another antenna, and selects an antenna whose size |t1−t2| (|x| is the absolute value of x) is less than or equal to a predetermined value , select more. If there are a predetermined number or more of antennas whose reception timing difference is within a predetermined value, a predetermined number of antennas may be selected from among them, for example, in descending order of received power of the random access preamble. Further, when there are a predetermined number or more of antennas whose reception timing difference is equal to or less than a predetermined value, the predetermined number of antennas may be selected in descending order of the reception timing difference. Although these selection criteria are examples, antennas can be selected so that communication can be performed with sufficient radio quality even if the terminal device moves a certain distance. The selection result is input to antenna control section 305 .

Antenna control section 305 controls to use at least some of the plurality of antennas 301 and not to use other antennas so that the antenna selected by antenna selection section 304 is used to communicate user data. conduct. Then, under the control of the antenna by the antenna control section 305, the user data transmission/reception section 306 uses the antenna selected for use to communicate user data with the terminal device.

According to such a configuration, an antenna to be used for communication of user data is selected in parallel with detection of the random access preamble. Data can be communicated.

Note that the control device may have, for example, a parameter notification unit 307, a detection result acquisition unit 308, and a selection result notification unit 309. Parameter notification section 307 notifies parameters of the random access preamble to other control devices. In general, other control devices do not have information on random access preambles to be used when connecting between adjacent control devices and terminal devices. Therefore, it is impossible to detect the random access preamble transmitted by the terminal device, specify the reception power, specify the reception timing, and the like. If such processing cannot be performed, it is also impossible to select an antenna to be used when communicating user data as described above. In response to this, the parameter notification unit 307 notifies the parameters, enabling other control devices to perform processing such as detection of random access preambles addressed to the control device. This parameter is, for example, the same parameter as the parameter notified to each terminal device by a broadcast signal, and includes information specifying the seed of the random access preamble sequence, the time/frequency resource for transmitting the random access preamble, and the like. sell. The detection result acquisition unit 308 acquires information on the random access preamble detection results (reception power and reception timing) based on the notified parameters from other control devices, and inputs the acquired information to the antenna selection unit 304 . The information acquired here is, for example, information that associates the antenna identifier with the detection result. Also, this information may be further associated with the ID of the preamble used when the detection result was obtained. This makes it possible to identify which terminal device this information relates to.

Antenna selection section 304 determines an antenna to be used for user data communication of the terminal device based on the preamble detection result by preamble processing section 302 and the acquired information. For example, when a random access preamble is received with power equal to or greater than a predetermined power in an antenna connected to another control device, it is determined to use that antenna. Then, when an antenna connected to another control device is selected, the selection result notification unit 309 notifies information indicating the selected antenna to the other control device to which the antenna is connected. . The information notified at this time can be, for example, information that associates the preamble ID with the identification information of the antenna.

Note that the parameter notification unit 307 may notify the other control device of the parameter only once, for example, when the adjacency relationship is set between the control devices and the other is registered in one of the adjacent cell lists. good. Also, the parameter notification unit 307 may notify the parameters to other control devices each time the parameters are changed. Note that the parameters in each control device may be notified to the other control device by another device such as a host device. In this case, the control device does not have the parameter notification unit 307, You may make it acquire a detection result.

Also, the controller may operate as the other controllers described above. Therefore, the control device may have, for example, a parameter acquisition unit 310, a detection result notification unit 311, and a selection result acquisition unit 312. A parameter acquisition unit 310 acquires a parameter related to a random access preamble used when another control device and a terminal device establish a connection from the parameter notification unit 307 of another control device or from another device such as a host device. do. Then, the preamble processing unit 302 uses the parameter to execute random access preamble detection processing and the like from the terminal device, and the detection result notification unit 311 notifies the result of the processing to other control devices. After that, the selection result acquisition unit 312 acquires information about the selected antenna from the other control device, and then uses the selected antenna when communicating user data of the terminal device. Accordingly, when a plurality of control devices cooperate to communicate with a terminal device, it is possible to appropriately select an antenna to be used.

(Processing flow)
Next, with reference to FIG. 4, an example of the flow of processing executed in the wireless communication system according to this embodiment will be outlined. It should be noted that, with regard to the details of each operation, descriptions of the above-described operations may be omitted. Here, as shown in FIG. 1, the case where one terminal device and two control devices exist will be described. Two control devices (control device A and control device B) are each connected to a large number of antennas and configured to communicate with terminal devices via at least one of the antennas. Also, the two controllers shall each have the functions of the controller as described above. Here, it is assumed that the terminal device has received the notification signal from the control device A and tries to establish connection with the control device A. FIG. In addition, in the RACH process, the control device A executes processing such as transmitting a response message to the terminal device in response to the random access preamble from the terminal device. The processing of is omitted.

In this process, for example, when the control device A establishes an adjacency relationship with the control device B, it notifies the control device B of parameters related to the random access preamble when establishing a connection with the control device A. (S401). When controller B receives this parameter, it waits for the arrival of the random access preamble based on the received parameter. On the other hand, the terminal device transmits a random access preamble in order to establish connection with control device A (S402). Control device A and control device B execute detection of this random access preamble and specific processing such as reception power and reception timing for each of the plurality of connected antennas (S403, S404). Note that the control device B can detect the random access preamble transmitted by the terminal device by using the parameters received in S401. After that, the control device B notifies the control device A of the reception power of the random access preamble and the result of specifying the reception timing (S405). Control device B sends information that associates the identification information of each antenna with the specified reception power and reception timing (and, if necessary, information that can specify the terminal device such as preamble ID) to control device A. Notice. After that, the control device A determines the received power and reception timing of the random access preambles for each of the antennas connected to its own device, and the received power and reception timing of the random access preambles for each of the antennas connected to the control device B. An antenna to be used for communication of user data with the terminal device is selected based on the reception timing (S406). This selection criterion is implemented, for example, as described above and will not be repeated here. When selecting the antenna connected to the control device B, the control device A notifies the control device B that the antenna has been selected (S407). Then, the control device A and the control device B transmit and receive user data to and from the terminal device using the selected antenna (S408).

Thus, in this embodiment, a control device that is connected to a large number of antennas and uses at least some of them to communicate with a terminal device receives a random access preamble transmitted from the terminal device to connect to the control device. is used to determine which antenna should be used for communication of user data. This eliminates the need to separately execute processing for determining which antenna to use after establishing a connection. Therefore, it is possible to quickly form a virtual area centered on the terminal device, and to quickly start communication of highly reliable user data.

The present invention is not limited to the embodiments described above, and various modifications and variations are possible without departing from the spirit and scope of the present invention. Accordingly, to publicize the scope of the invention, the following claims are included.

A control device according to an aspect of the present invention is a control device connected to a plurality of antennas and communicating user data with a terminal device using at least one of the plurality of antennas, wherein the terminal device identifying means for identifying a reception state including reception timing at each of the plurality of antennas of a random access preamble transmitted from to establish a connection with the control device; and from among the plurality of antennas, selection means for selecting a predetermined number of antennas for use in communicating user data with the terminal device, the difference in reception timing of each of the plurality of antennas being within a predetermined value; and control means for controlling communication of user data with the terminal device using the selected antenna.

Claims (12)

A control device connected to a plurality of antennas and communicating user data with a terminal device using at least one of the plurality of antennas,
identifying means for identifying a reception state including reception timing and reception power at each of the plurality of antennas of a random access preamble transmitted from the terminal device to establish connection with the control device;
Selecting from among the plurality of antennas an antenna for which the difference in the reception timing of each of the plurality of antennas is within a predetermined value as an antenna to be used when communicating user data with the terminal device. a selection means for selecting a predetermined number of antennas from among the predetermined number or more of the antennas having the higher reception power when there are a predetermined number or more of the antennas whose difference in reception timing is within a predetermined value;
a control means for controlling communication of user data with the terminal device using the selected antenna;
A control device comprising: A control device connected to a plurality of antennas and communicating user data with a terminal device using at least one of the plurality of antennas,
identifying means for identifying a reception state including reception timing of a random access preamble transmitted from the terminal device to establish a connection with the control device at each of the plurality of antennas;
Selecting from among the plurality of antennas an antenna for which the difference in the reception timing of each of the plurality of antennas is within a predetermined value as an antenna to be used when communicating user data with the terminal device. a selection means for selecting a predetermined number of antennas from among the predetermined number or more of the antennas having the smaller reception timing, when there are a predetermined number or more of the antennas whose reception timing difference is within a predetermined value;
a control means for controlling communication of user data with the terminal device using the selected antenna;
A control device comprising: further comprising first acquisition means for acquiring information indicating a reception state of the random access preamble at a plurality of second antennas connected to another control device from the other control device;
The selecting means selects between the plurality of antennas and the plurality of second antennas, based on the reception state of the plurality of antennas and the reception state of the plurality of second antennas, Select the antenna to be used when communicating user data with ,
3. The control device according to claim 1, further comprising first notification means for notifying said another control device of the antenna selected from said plurality of second antennas. controller. further comprising second notification means for notifying the other control device of a first parameter for enabling detection of the random access preamble;
4. The first acquiring means acquires information indicating the reception state of the plurality of second antennas, which is specified by the other control device based on the first parameter. The control device according to . The identifying means identifies the reception state of each of the plurality of antennas of a second random access preamble transmitted from another terminal device to establish connection with another control device,
3. The control device further comprises third notification means for notifying the other control device of information indicating a reception state of the second random access preamble in each of the plurality of antennas. 3. The control device according to 1 or 2. further comprising second acquisition means for acquiring from the other control device a second parameter for enabling detection of the second random access preamble;
6. The control device according to claim 5, wherein said identifying means identifies the reception state of said second random access preamble in each of said plurality of antennas based on said second parameter. Information indicating the antenna selected by the other control device from among the plurality of antennas based on the reception state of the second random access preamble at each of the plurality of antennas is obtained from the other control device. 7. A control device according to claim 5 or 6, further comprising third acquisition means. 8. The control device according to any one of claims 1 to 7, wherein said control device is a base station device. A control method executed by a control device connected to a plurality of antennas and communicating user data with a terminal device using at least one of the plurality of antennas,
identifying a reception state including reception timing and reception power at each of the plurality of antennas of a random access preamble transmitted from the terminal device to establish a connection with the control device;
Selecting from among the plurality of antennas an antenna for which the difference in the reception timing of each of the plurality of antennas is within a predetermined value as an antenna to be used when communicating user data with the terminal device. In addition, when there are a predetermined number or more of antennas whose reception timing difference is within a predetermined value, selecting a predetermined number of antennas from among the predetermined number or more of the antennas having the higher received power;
controlling to communicate user data with the terminal device using the selected antenna;
A control method comprising: A control method executed by a control device connected to a plurality of antennas and communicating user data with a terminal device using at least one of the plurality of antennas,
identifying a reception state, including reception timing, of a random access preamble transmitted from the terminal device to establish a connection with the control device at each of the plurality of antennas;
Selecting from among the plurality of antennas an antenna for which the difference in the reception timing of each of the plurality of antennas is within a predetermined value as an antenna to be used when communicating user data with the terminal device. In addition, when there are a predetermined number or more of antennas whose reception timing difference is within a predetermined value, selecting a predetermined number of antennas from among the predetermined number or more of the antennas with the smaller reception timing;
controlling to communicate user data with the terminal device using the selected antenna;
A control method comprising: A computer provided in a control device that is connected to a plurality of antennas and performs user data communication with a terminal device using at least one of the plurality of antennas,
specifying a reception state including reception timing and reception power at each of the plurality of antennas of a random access preamble transmitted from the terminal device to establish a connection with the control device;
Selecting from among the plurality of antennas an antenna for which the difference in the reception timing of each of the plurality of antennas is within a predetermined value as an antenna to be used when communicating user data with the terminal device. In addition, when there are a predetermined number or more of antennas whose reception timing difference is within a predetermined value, selecting a predetermined number of antennas from among the predetermined number or more of the antennas having the higher received power,
causing control to be performed to communicate user data with the terminal device using the selected antenna;
program for. a computer installed in a control device connected to a plurality of antennas and communicating user data with a terminal device using at least one of the plurality of antennas, from the terminal device to the control device; identify reception conditions, including reception timing at each of the plurality of antennas, of random access preambles transmitted to establish;
Selecting from among the plurality of antennas an antenna for which the difference in the reception timing of each of the plurality of antennas is within a predetermined value as an antenna to be used when communicating user data with the terminal device. In addition, when there are a predetermined number or more of antennas whose reception timing difference is within a predetermined value, selecting a predetermined number of antennas from among the predetermined number or more of the antennas with the smaller reception timing,
causing control to be performed to communicate user data with the terminal device using the selected antenna;
program for.

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