JP2017158046A - Communication control apparatus, communication system, and communication control method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a communication control apparatus which performs control in such a manner that communication devices can efficiently perform communications, a communication system and a communication control method.SOLUTION: A communication control apparatus 1 is configured to control communications in multiple communication devices 2A and 2B capable of transmitting beams having directivity in multiple directions. The communication control apparatus comprises: a storage section for storing combination information indicating a combination of beams generated by interference; an identification section for identifying beams that the multiple communication devices 2A and 2B use for communications with radio communication terminals; and a communication control section for controlling timing in the communications using the identified beams in the multiple communication devices 2A and 2B based on the combination indicated by the combination information and situations of communications of the multiple communication devices 2A and 2B with the radio communication terminals.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a communication control device, a communication system, and a communication control method.

  In recent years, in high-speed railway vehicles, etc., a plurality of access points for transmitting millimeter waves to a seat have been arranged so that a user's wireless communication terminal sitting on the seat can communicate with the outside via the access point. To be done.

  When a plurality of access points are densely arranged, millimeter waves transmitted from the respective access points interfere with each other. In response to this, various countermeasures have been studied in order to eliminate interference. For example, Non-Patent Document 1 discloses that when a plurality of access points communicate with each of a plurality of wireless communication terminals using millimeter waves, communication that may cause interference is performed in a time division manner. Yes. Specifically, in Non-Patent Document 1, a centralized control device (BBU: Baseband Unit) centrally manages a plurality of access points (or RRH (Remote Radio Head)). In Non-Patent Document 1, the beam search process is completely time-divided before communication starts, and the timing at which each access point connected to the centralized control apparatus transmits information and the timing at which ACK is transmitted. The interference is avoided by differentiating. In addition, the central control apparatus manages which beam the access point communicates by constantly updating beam information for specifying a beam having the highest RSSI during communication.

K. Sakaguchi, et.al, “Millimeter-wave Wireless LAN and Its Extension toward 5G Heterogeneous Networks”, IEICE Trans. Comm., Vol. E98-B, no. 10, pp.1932-1948, Oct. 2015

  However, in the technique described in Non-Patent Document 1, a communication device such as an access point updates beam information at a constant time interval even when any of a plurality of communications that cause interference is not performed. To do. In addition, even when any one of a plurality of communications in which interference occurs is not performed, the communication device does not use the time division channel assigned for each communication in other communications, and thus the usage efficiency is poor. There was a problem.

  Therefore, the present invention has been made in view of these points, and provides a communication control device, a communication system, and a communication control method capable of controlling a communication device so that the communication device performs efficient communication. With the goal.

  A communication control apparatus according to a first aspect of the present invention is a communication control apparatus that controls communication in a plurality of communication apparatuses capable of transmitting a beam having directivity in a plurality of directions, and the communication control apparatus includes: A storage unit that stores combination information indicating a combination, a specifying unit that specifies the beam that each of a plurality of communication devices uses for communication with a wireless communication terminal, the combination, and the wireless communication of each of the plurality of communication devices A communication control unit that controls the timing of communication using the identified beam in the plurality of communication devices based on the communication status with the terminal.

  The communication control device further includes a communication unit that receives data to be transmitted to the wireless communication terminal, and the specifying unit specifies the beam used for communication with the wireless communication terminal that is the transmission destination of the data, and The communication control unit, when a plurality of the beams are identified, when at least one combination of the plurality of beams is a combination in which interference occurs, the communication control unit transmits the data to a plurality of communication apparatuses corresponding to the combination. You may transmit at a different timing.

The communication control device further includes a temporary storage unit that temporarily stores data to be transmitted to the wireless communication terminal, and the communication control unit is configured such that the combination of the identified beams is a combination in which interference occurs. Data to be transmitted to the first communication device corresponding to the combination is stored in the temporary storage unit, transmitted to the first communication device after waiting for a predetermined time, and transmitted to the second communication device corresponding to the combination The data to be transmitted may be transmitted without being stored in the temporary storage unit.
When the combination of the identified beams is a combination that does not cause interference, the communication control unit may transmit the data to a plurality of communication devices corresponding to the combination without adjusting the transmission timing. .

  The storage unit stores priority information that associates the type of the data and the priority of the data, and the communication control unit, when the identified beam combination is a combination in which interference occurs, The data may be transmitted to a plurality of communication devices corresponding to the combination based on the priority corresponding to the data type.

  The storage unit stores priority information in which the identification information of the beam is associated with the priority of the beam, and the communication control unit is configured such that the specified beam combination is a combination in which interference occurs. The data may be transmitted to a plurality of communication devices corresponding to the combination based on the priority corresponding to the beam used for communication by the communication device.

  The communication control device includes a communication unit that receives data to be transmitted to the wireless communication terminal, a temporary storage unit that temporarily stores the received data, and a storage control unit that stores the received data in the temporary storage unit The specifying unit may specify the beam used for communication with the wireless communication terminal that is the transmission destination of the received data stored in the temporary storage unit.

  A communication system according to a second aspect of the present invention is a communication system including a plurality of communication apparatuses capable of transmitting a beam having directivity in a plurality of directions, and a communication control apparatus that controls communication in the communication apparatus. The communication control device includes a storage unit that stores combination information indicating a combination of the beams in which interference occurs, a specifying unit that specifies the beam that each of a plurality of communication devices uses for communication with a wireless communication terminal, A communication control unit for controlling the timing of communication using the identified beam in the plurality of communication devices based on the combination and the communication status of each of the plurality of communication devices with the wireless communication terminals; Each of the plurality of communication devices has a transmission unit that transmits the beam based on control by the communication control unit.

  In the communication control method according to the third aspect of the present invention, each of the plurality of communication devices causes a computer that controls communication in a plurality of communication devices capable of transmitting directional beams in a plurality of directions to perform wireless communication. A step of identifying the beam used for communication with the terminal, a combination of the beams in which interference occurs, indicated by combination information stored in advance in a storage unit, and the wireless communication terminals of each of a plurality of communication devices Controlling the timing of communication using the identified beam in the plurality of communication devices based on the communication status.

  According to the present invention, there is an effect that the communication apparatus is controlled so that the communication apparatus performs communication efficiently.

It is a figure which shows the outline | summary of the communication system which concerns on 1st Embodiment. It is a figure which shows the structure of the communication control apparatus which concerns on 1st Embodiment. It is a figure which shows an example of combination information. It is an example of the sequence diagram which shows the flow of the process which concerns on the transmission control of the directional beam in the communication system which concerns on 1st Embodiment. It is an example of the flowchart which shows the flow of a process in the communication control apparatus which concerns on 1st Embodiment. It is a figure which shows an example of interference information. It is a figure which shows the structure of the communication control apparatus which concerns on 2nd Embodiment.

<First Embodiment>
[Outline of Communication System S]
FIG. 1 is a diagram illustrating an overview of a communication system S according to the first embodiment.
As shown in FIG. 1, the communication system S includes a communication control device 1, a plurality of communication devices 2, and a plurality of wireless communication terminals 3.

  The plurality of communication devices 2 are installed in an environment in which a user's seat is closely installed, for example, in a high-speed rail car, in a passenger aircraft, or in a stadium premises, and a plurality of directional beams indicating directional radio waves are provided. Wireless communication access point that can transmit in the direction. The communication device 2 performs wireless communication with the wireless communication terminal 3 owned by the user seated in these seats by transmitting a directional beam corresponding to each of a plurality of seats in a high-speed railway vehicle or the like. be able to. In the present embodiment, a communication device 2A and a communication device 2B are provided as the plurality of communication devices 2, and a wireless communication terminal 3A and a wireless communication terminal 3B are provided as the plurality of wireless communication terminals 3. Shall.

  Here, the radio wave having directivity is, for example, a millimeter wave. In the following description, the radio wave transmitted by the communication device 2 is described as being a millimeter wave, but the frequency of the radio wave transmitted by the communication device 2 may be a frequency other than the millimeter wave.

  The communication control device 1 is a device that controls communication in a plurality of communication devices 2. The communication control device 1 is connected to a plurality of communication devices 2 by, for example, gigabit Ethernet (“Ethernet” is a registered trademark) using an optical fiber or the like. The communication control device 1 is wirelessly connected to a plurality of relay devices (not shown) installed on the track side of the high-speed railway or an internal relay device installed in the vehicle by a wireless communication method suitable for the high-speed railway. The communication control device 1 communicates with an internal device installed in the vehicle or an external device connected on a communication network such as the Internet via these relay devices.

  Since the plurality of communication apparatuses 2 transmit directional beams in a dense environment such as a seat of a high-speed railway vehicle or the like, there is a possibility that the directional beams transmitted from these communication apparatuses 2 interfere with each other. For example, as shown in FIG. 1, when the wireless communication terminal 3A and the wireless communication terminal 3B are close to each other, the directional beam BA transmitted from the communication device 2A to the wireless communication terminal 3A and the communication device 2B are wireless. The directional beam BB transmitted to the communication terminal 3B interferes.

  In contrast, the communication control device 1 according to the present embodiment, when each of the plurality of communication devices 2 intends to transmit a directional beam to the wireless communication terminal 3 at the same timing, the combination of these directional beams. However, when a combination of directional beams in which interference occurs, the plurality of communication apparatuses 2 are controlled so that the transmission timings of these directional beams are different. By doing in this way, the communication control apparatus 1 can suppress that interference generate | occur | produces by transmission of a several directional beam.

Further, the communication control device 1 is configured so that interference does not occur even when a plurality of directional beams transmit data at the same time, or when any one of the plurality of directional beams transmits data independently. Do not adjust the transmission timing. By doing in this way, the communication control apparatus 1 can make the communication apparatus 2 communicate efficiently.
Next, the configuration of the communication control device 1 will be described.

[Configuration of Communication Control Device 1]
FIG. 2 is a diagram illustrating a configuration of the communication control apparatus 1 according to the present embodiment. The communication control device 1 includes a communication unit 11, a storage unit 12, a temporary storage unit 13, and a control unit 14.
The communication unit 11 communicates with a plurality of communication devices 2. The communication unit 11 performs wireless communication with a plurality of relay apparatuses installed on the track side or in the vehicle based on a wireless communication method suitable for high-speed railway. The communication unit 11 communicates with the external device 4 or the internal device 5 connected to a communication network such as the Internet via at least one of the plurality of relay devices. The communication unit 11 receives data to be transmitted from the external device 4 or the internal device 5 to the wireless communication terminal 3 via the relay device.

  The storage unit 12 is, for example, a ROM and a RAM. The storage unit 12 stores various programs for causing the communication control device 1 to function. The storage unit 12 stores a communication control program that causes the control unit 14 of the communication control device 1 to function as the learning unit 141, the specifying unit 142, and the communication control unit 143. The storage unit 12 may read and store a program stored in a storage medium such as an external memory, or may store a program downloaded from an external device via a communication network.

  The storage unit 12 stores combination information that is generated by the control unit 14 and indicates a combination of directional beams that cause interference. FIG. 3 is a diagram illustrating an example of combination information. As illustrated in FIG. 3, the combination information is information indicating whether or not a combination of a plurality of directional beams used in each of the two communication apparatuses 2 is a combination in which interference occurs. For example, when each of the two communication apparatuses 2A and 2B can transmit eight directional beams, the combination information includes the communication apparatus 2B for each of the eight directional beams transmitted by the communication apparatus 2A. Information indicating whether the eight directional beams to be transmitted interfere with each other is stored. In the present embodiment, each of the two communication apparatuses 2A and 2B is described as being capable of transmitting eight directional beams. However, each of the communication apparatuses 2A and 2B has a plurality of directivities other than eight. The beam may be transmittable.

  In the example shown in FIG. 3, when two directional beams interfere with each other, a cell indicating a combination of these directional beams is indicated with a cross indicating that these beams interfere. For example, a cell corresponding to a beam ID “1” for identifying a directional beam transmitted by the communication apparatus 2A and a beam ID “8” for identifying a directional beam transmitted by the communication apparatus 2A is indicated by a cross. Can be confirmed. In the example shown in FIG. 3, when two directional beams interfere with each other, a cell indicating a combination of these directional beams is indicated by a cross, but the storage unit 12 interferes. It is assumed that information such as numbers and characters identifying the combination is stored. In the present embodiment, two directional beams are described as interfering with each other. However, two or more directional beams transmitted from two or more communication apparatuses 2 may interfere with each other.

  When three or more communication devices 2 are installed, the combination information is stored in the storage unit 12 corresponding to each combination of two communication devices 2 in the three or more communication devices 2. For example, when three communication devices 2A, 2B, and 2C are installed in a high-speed railway vehicle, the storage unit 12 includes combination information corresponding to the communication devices 2A and 2B and combination information corresponding to the communication devices 2B and 2C. The combination information corresponding to the communication devices 2C and 2A is stored.

  The temporary storage unit 13 is configured by a RAM, for example, and temporarily stores data received by the communication control device 1 from the external device 4 or the internal device 5 and destined for the wireless communication terminal 3. In the present embodiment, the temporary storage unit 13 includes a first buffer 13A that temporarily stores data to be transmitted to the communication device 2A, and a second buffer 13B that temporarily stores data to be transmitted to the communication device 2B. Is provided.

  The control unit 14 is, for example, a CPU. The control unit 14 controls functions related to the communication control device 1 by executing various programs stored in the storage unit 12. The control unit 14 includes a learning unit 141, a specifying unit 142, and a communication control unit 143.

  The learning unit 141 learns combinations in which interference occurs in advance, and generates combination information based on the learning results. First, the learning unit 141 performs time synchronization for each of the plurality of communication devices 2. Then, the user of the communication control device 1 selects one combination from the directional beam combinations, and places a measurement terminal (not shown) at a position where the directional beam corresponding to the combination is transmitted. Then, the learning unit 141 determines whether interference occurs due to the combination by measuring the communication state in the communication device 2 or the measurement terminal when data is transmitted using the directional beam, The determination result is reflected in the combination information. The learning unit 141 determines whether or not interference occurs for each of all combinations, and reflects the determination result in the combination information.

  The specifying unit 142 and the communication control unit 143 function as a scheduler that performs transmission control of a directional beam. Details of the specifying unit 142 and the communication control unit 143 will be described below with reference to a sequence diagram and a flowchart illustrating a flow of processing related to transmission control of a directional beam.

[Processing for Transmission Control of Directional Beam in Communication System S]
FIG. 4 is an example of a sequence diagram illustrating a flow of processing relating to transmission control of a directional beam in the communication system S.
In 802.11ad, beamforming technology must be implemented. There are two stages of beamforming: Sector Level Sweep (SLS) and Beam Refinement. First, in the SLS stage, the communication device 2 selects a directional beam used for wireless communication with the wireless communication terminal 3 by performing SSW (Sector Sweep) with the wireless communication terminal 3 to communicate with the wireless communication terminal 3. A connection is established (S1). Note that the communication device 2 may appropriately perform BRP (Beam Refinement Protocol) for selecting a directional beam after the SLS in accordance with the link being broken.

  Subsequently, each of the plurality of communication devices 2 gives the communication control device 1 a beam ID for identifying the selected directional beam, a device ID for identifying the communication device 2 that performs communication using the directional beam, A terminal ID for identifying the wireless communication terminal 3 that performs communication using the directional beam is transmitted (S2A, S2B). The scheduler (specification unit 142) of the communication control device 1 associates the received beam ID, device ID, and terminal ID with each other and stores them in the storage unit 12 as usage status information.

  Subsequently, the scheduler of the communication control device 1 performs a scheduling process for controlling the transmission timing of the directional beam in response to receiving data addressed to the wireless communication terminal 3 from the external device 4 or the internal device 5. In the scheduling process, the specifying unit 142 specifies a directional beam that each of the plurality of communication devices 2 uses for communication with the wireless communication terminal 3. And the communication control part 143 is based on the combination which the combination information memorize | stored in the memory | storage part 12 shows, and the communication condition with each radio | wireless communication terminal 3 of the some communication apparatus 2, In the some communication apparatus 2, The timing of communication using the specified directional beam is controlled. Details of the scheduling process will be described later.

  For example, when the scheduler of the communication control device 1 receives data addressed to each of the plurality of wireless communication terminals 3 at the same time, as a result of performing a scheduling process, the scheduler of the communication control device 1 and the plurality of wireless communication terminals If it is determined that the directional beam used for communication with 3 does not interfere, data is directly transmitted to each of the plurality of communication devices 2 (S4A, S4B).

  When the scheduler of the communication control apparatus 1 determines that the directional beam interferes as a result of performing the scheduling process, the scheduler transmits the data to be transmitted to one communication apparatus 2 directly to the communication apparatus 2 and other communication. Data to be transmitted to the device 2 is stored in a buffer provided in the temporary storage unit 13, and after a predetermined time has passed, the data is transmitted to another communication device 2. In the example illustrated in FIG. 4, the scheduler of the communication control device 1 directly transmits data to be transmitted to the communication device 2A to the communication device 2A (S5A), and transmits data to be transmitted to the communication device 2B to the second buffer 13B. After the time is stored, it is transmitted to the communication device 2B (S5B).

[Processing in Communication Control Device 1]
Next, a process in the communication control apparatus 1, that is, a scheduling process flow will be described. FIG. 5 is an example of a flowchart showing the flow of processing in the communication control apparatus 1 according to the first embodiment.

First, the communication unit 11 of the communication control device 1 receives data to be transmitted from the external device 4 or the internal device 5 to the wireless communication terminal 3 (S31).
Subsequently, the specifying unit 142 analyzes a packet for transmitting data, and specifies the terminal ID of the wireless communication terminal 3 that is the data transmission destination (S32).

  Subsequently, the specifying unit 142 refers to the terminal ID of the specified wireless communication terminal 3 and the usage status information stored in the storage unit 12 so that each of the plurality of communication devices 2 is a data transmission destination. A beam ID for identifying a directional beam used for communication with a certain wireless communication terminal 3 is specified (S33).

  Subsequently, the communication control unit 143 determines whether or not a plurality of directional beams are specified in the process shown in S33 (S34). If the communication control unit 143 determines that a plurality of directional beams have been identified, the communication control unit 143 proceeds to S35. If the communication control unit 143 determines that a plurality of directional beams have not been identified and one directional beam has been identified, the communication control unit 143 proceeds to S37. Move.

  In S35, the communication control unit 143 determines whether or not the combination of the plurality of specified directional beams is an interfering combination based on the combination indicated by the combination information stored in the storage unit 12. Here, when three or more directional beams are identified in S34, the communication control unit 143 uses combinations that interfere with all combinations of two directional beams that can be taken in three or more directional beams. It is determined whether or not there is. If the communication control unit 143 determines that the combination is an interfering combination, the process proceeds to S36. If the communication control unit 143 determines that the combination does not interfere, the process proceeds to S37.

  In S35, the communication control unit 143 determines whether the combination is an interference based on the combination indicated by the combination information stored in the storage unit 12. However, the present invention is not limited to this. For example, the learning unit 141 may store, in the storage unit 12, information obtained by extracting only the combination in which interference occurs when learning the combination in which interference occurs. FIG. 6 is a diagram illustrating an example of interference information. As shown in FIG. 6, the interference information includes a combination ID for identifying a combination in which interference occurs, a name of a communication device that performs communication using a directional beam corresponding to the combination, a name of the wireless communication terminal 3, The beam ID of the directional beam is stored in association with each other. Then, the communication control unit 143 may determine whether or not the specified combination of directional beams interferes with reference to the interference information.

  In S36, when at least one combination among the plurality of identified directional beams is a combination in which interference occurs, the communication control unit 143 changes the data to the plurality of communication devices 2 corresponding to the combination. Send at the timing. Specifically, when the combination of the specified directional beams is a combination in which interference occurs, the communication control unit 143 analyzes the packet transmitting each data and calculates the time during which communication is performed at the same time. . More specifically, the communication control unit 143 divides the size of A-MPDU (Aggregation MAC Protocol Data Unit) by the transmission speed of the directional beam or transmits data of the same size in the past for each data. The time required for transmission is calculated based on the difference between the time stamp when the data is received and the time stamp when the block ACK corresponding to the data is received. And the communication control part 143 calculates the time when communication is performed simultaneously by calculating the difference of the time concerning transmission of each data.

The communication control unit 143 is provided in the temporary storage unit 13 with data to be transmitted to the first communication device 2 (for example, the communication device 2A) that transmits one directional beam corresponding to the combination in which interference occurs. Stored in a buffer (for example, the first buffer 13A). The communication control unit 143 obtains the data from the buffer after waiting for a predetermined time (a time during which communication is performed simultaneously), and transmits the data to the first communication device 2. In addition, the communication control unit 143 stores the data to be transmitted to the second communication device 2 (for example, the communication device 2B) that transmits another directional beam corresponding to the combination without storing the data in the temporary storage unit 13. It transmits directly to the second communication device 2.
The plurality of communication devices 2 function as transmission units that transmit directional beams based on control by the communication control unit 143. In response to receiving data from the communication control device 1, the plurality of communication devices 2 transmit the data to the wireless communication terminal 3 using a directional beam.

  Here, when the specified combination of directional beams corresponds to the combination in which interference occurs, the communication control unit 143 determines the data transmission order based on a predetermined criterion, and based on the transmission order, Data may be transmitted.

  For example, priority information that associates the type of data with the priority of the data may be stored in the storage unit 12. And when the combination of the directional beam specified by the communication control unit 143 is a combination in which interference occurs, a plurality of communication devices 2 corresponding to the combination are assigned to the plurality of communication devices 2 based on the priority corresponding to the type of data. You may make it transmit. For example, the priority of a data type having a low tolerance for delay such as a moving image may be set large, and the priority of a data type having a high tolerance for delay such as text data may be set small. By doing so, the communication control device 1 can preferentially transmit data with low tolerance for delay.

  The storage unit 12 may store priority information in which the beam ID of the directional beam is associated with the priority of the directional beam. Then, when the specified combination of directional beams corresponds to a combination in which interference occurs, the communication control unit 143 transmits to the plurality of communication devices 2 corresponding to the combination the directional beams that the communication device 2 uses for communication. The transmission may be performed based on the priority corresponding to. For example, you may set so that a priority may become large in order with QoS (Quality of Service) and a received signal strength (RSSI: Received Signal Strength Indication). By doing in this way, the communication control apparatus 1 can prevent the communication delay by communication with the radio | wireless communication terminal 3 with small QoS and received signal strength from affecting other communication.

  In S37, the communication control unit 143 transmits the data without adjusting the timing for transmitting the data. Specifically, when only one directional beam is specified in the determination shown in S34, the communication control unit 143 transmits the data without adjusting the data transmission timing using the directional beam. .

  In addition, in the determination shown in S35, when it is not determined that one combination included in the plurality of combinations is an interfering combination, the communication control unit 143 transmits a plurality of directional beams corresponding to the combination. Data is transmitted to the communication device 2 without adjusting the transmission timing. In this way, the communication control device 1 determines the data transmission timing when data is transmitted alone with one directional beam or when the combination of a plurality of directional beams is a combination that does not cause interference. Since no adjustment is made, the communication device 2 can efficiently communicate.

[Effect in the first embodiment]
As described above, in the communication system S according to the first embodiment, the communication control device 1 specifies a directional beam that each of the plurality of communication devices 2 uses for communication with the wireless communication terminal 3, and interference occurs. The timing of communication using the specified directional beams in the plurality of communication devices 2 is controlled based on the combination of directional beams to be transmitted and the communication status of each of the plurality of communication devices 2 with the wireless communication terminals 3. To do. By doing in this way, the communication control apparatus 1 can control the communication apparatus 2 so that each communication apparatus 2 can communicate efficiently while suppressing that each directional beam interferes. Moreover, since each communication apparatus 2 can communicate efficiently, communication with many radio | wireless communication terminals 3 can be performed with a small number of communication apparatuses 2. FIG.

Second Embodiment
[Provide a buffer to temporarily store received data]
Next, the communication system S according to the second embodiment will be described. In the communication system S according to the second embodiment, the communication control device 1 is different from the first embodiment in that it includes a buffer that temporarily stores received data, and is the same in other points. Hereinafter, a different part from 1st Embodiment is demonstrated. The description of the same parts as in the first embodiment will be omitted as appropriate.

  FIG. 7 is a diagram illustrating a configuration of the communication control device 1 according to the second embodiment. As shown in FIG. 7, the scheduler of the control unit 14 further includes a storage control unit 144. The temporary storage unit 13 further includes a common buffer 13C that temporarily stores received data. The common buffer 13C is, for example, a queue, and previously stored data is extracted first. Here, the storage areas in the queue are called BUF (0), BUF (1),... BUF (N) in order from the storage area in which the oldest data is stored.

  When the communication unit 11 receives data destined for the wireless communication terminal 3 from the external device 4 or the internal device 5, the storage control unit 144 stores the data in the common buffer 13 </ b> C of the temporary storage unit 13. Here, priority information in which the type of data is associated with the priority of the data may be stored in the storage unit 12. When the storage control unit 144 receives a plurality of data at the same time, the storage control unit 144 specifies the priority of these data based on the priority information, and the data is stored in the common buffer 13C based on the priority. You may make it determine the order to memorize | store.

  The specifying unit 142 specifies a directional beam used for communication with the wireless communication terminal 3 that is a transmission destination of data stored in the common buffer 13C. Specifically, the specifying unit 142 uses the directional beam used for communication of the oldest data among the data stored in the common buffer 13C and the directivity used for communication of the next oldest data after the data. Identify the beam.

  The communication control unit 143 determines whether or not the combination of directional beams specified by the specifying unit 142 is a combination that causes interference. If the communication control unit 143 determines that the combination causes interference, the communication control unit 143 extracts the oldest data from the common buffer 13C, and transmits the data to the communication device 2 that transmits a directional beam used for communication of the data. Send. In addition, the communication control unit 143 stores the data stored in the BUF (1) in a buffer (first buffer 13A or second buffer 13B) corresponding to the communication device 2 that transmits the data to the wireless communication terminal 3. Let Thereby, transmission of the data stored in BUF (1) is waited, and it is suppressed that data is simultaneously transmitted from the directional beam corresponding to the combination in which interference occurs.

When the communication control unit 143 determines that the combination does not cause interference, the communication control unit 143 extracts the oldest data and the next oldest data from the common buffer 13C, and transmits the respective data to the communication device 2. .
When the communication control unit 143 extracts the data stored in BUF (0) and BUF (1), the communication control unit 143 converts the data stored in BUF (N) (where N> 1) to BUF (N-2). Store.

[Effects of Second Embodiment]
As described above, in the communication system S according to the second embodiment, the communication control apparatus 1 temporarily stores the received data in the common buffer 13C and directs it based on the data stored in the common buffer 13C. Identify sex beams. For example, by increasing the capacity of the common buffer 13C, the communication control device 1 can continue processing without losing these data even when a large amount of data is received.

  In the second embodiment, the communication control unit 143 determines whether or not the combination of directional beams corresponding to the two data of the oldest data and the next oldest data is a combination in which interference occurs. Although it determined, it is not restricted to this. The communication control unit 143 may determine whether or not a plurality of combinations of directional beams corresponding to a predetermined number (for example, four) of data in order from the oldest data are combinations in which interference occurs.

  In the second embodiment, the communication control unit 143 includes the first buffer 13A, the second buffer 13B, and the common buffer 13C. However, the present invention is not limited to this. For example, only the common buffer 13C may be provided. In this case, if the communication control unit 143 determines that the combination of directional beams specified by the specifying unit 142 is a combination that causes interference, the communication control unit 143 extracts the oldest data from the common buffer 13C, and performs communication of the data. The data may be transmitted to the communication device 2 that transmits the directional beam used for the transmission. Then, the communication control unit 143 may not extract the data stored in the BUF (1). Then, the communication control unit 143 stores the data stored in the BUF (2) in the BUF (0) and the data stored in the BUF (N) (where N> 2). You may make it store in 1).

  As mentioned above, although this invention was demonstrated using embodiment, the technical scope of this invention is not limited to the range as described in the said embodiment. In addition, it will be apparent to those skilled in the art that various modifications or improvements can be added to the above embodiment. For example, in the above-described embodiment, two communication devices 2 and two wireless communication terminals 3 are provided. However, the present invention is not limited to this, and three or more communication devices 2 and wireless communication terminals 3 are provided. May be. In particular, the specific embodiments of the distribution / integration of the devices are not limited to those illustrated above, and all or a part thereof may be arbitrarily selected according to various additions or according to the functional load. It can be configured to be functionally or physically distributed and integrated in units.

DESCRIPTION OF SYMBOLS 1 ... Communication control apparatus, 11 ... Communication part, 12 ... Memory | storage part, 13 ... Temporary memory | storage part, 14 ... Control part, 141 ... Learning part, 142 ... Identification part 143: Communication control unit 144: Storage control unit 2 ... Communication device 3 ... Wireless communication terminal 4 ... External device 5 ... Internal device S ... Communications system

Claims (9)

A communication control device for controlling communication in a plurality of communication devices capable of transmitting a beam having directivity in a plurality of directions,
A storage unit for storing combination information indicating a combination of the beams in which interference occurs;
A specifying unit that specifies the beam used by each of the plurality of communication devices for communication with the wireless communication terminal;
A communication control unit that controls the timing of communication using the identified beam in the plurality of communication devices based on the combination and the communication status of each of the plurality of communication devices with the wireless communication terminals;
A communication control device comprising: A communication unit for receiving data to be transmitted to the wireless communication terminal;
The specifying unit specifies the beam used for communication with the wireless communication terminal to which the data is transmitted,
In the case where a plurality of the beams are specified and the communication control unit determines that at least one combination of the plurality of beams is a combination in which interference occurs, the communication control unit transmits the data to a plurality of communication apparatuses corresponding to the combination. Send at different times,
The communication control apparatus according to claim 1. A temporary storage unit that temporarily stores data to be transmitted to the wireless communication terminal;
When the specified beam combination is a combination in which interference occurs, the communication control unit stores data to be transmitted to the first communication device corresponding to the combination in the temporary storage unit and waits for a predetermined time. Data to be transmitted later to the first communication device and transmitted to the second communication device corresponding to the combination without being stored in the temporary storage unit,
The communication control apparatus according to claim 2. When the specified beam combination is a combination in which interference does not occur, the communication control unit transmits the data to a plurality of communication devices corresponding to the combination without adjusting the transmission timing.
The communication control apparatus according to claim 2 or 3. The storage unit stores priority information that associates the type of data and the priority of the data,
When the specified beam combination is a combination in which interference occurs, the communication control unit sends the data to a plurality of communication devices corresponding to the combination based on the priority corresponding to the data type. Send,
The communication control apparatus according to any one of claims 2 to 4. The storage unit stores priority information that associates the identification information of the beam and the priority of the beam,
When the combination of the identified beams is a combination in which interference occurs, the communication control unit determines a plurality of communication apparatuses corresponding to the combination based on the priority corresponding to the beam used for communication by the communication apparatus. To send the data,
The communication control apparatus according to any one of claims 2 to 4. A communication unit for receiving data to be transmitted to the wireless communication terminal;
A temporary storage unit for temporarily storing received data;
A storage control unit for storing the received data in the temporary storage unit;
The specifying unit specifies the beam used for communication with the wireless communication terminal that is a transmission destination of the received data stored in the temporary storage unit;
The communication control apparatus according to any one of claims 1 to 6. A communication system comprising a plurality of communication devices capable of transmitting a beam having directivity in a plurality of directions, and a communication control device for controlling communication in the communication device,
The communication control device includes a storage unit that stores combination information indicating a combination of the beams in which interference occurs;
A specifying unit that specifies the beam used by each of the plurality of communication devices for communication with the wireless communication terminal;
A communication control unit configured to control timing of communication using the specified beam in the plurality of communication devices based on the combination and a communication status of each of the plurality of communication devices with the wireless communication terminals; Have
Each of the plurality of communication devices includes a transmission unit that transmits the beam based on control by the communication control unit.
Communications system. Causing a computer to control communication in a plurality of communication apparatuses capable of transmitting a beam having directivity in a plurality of directions;
Identifying each beam used for communication with a wireless communication terminal by each of a plurality of communication devices;
Based on the combination of the beams that cause interference and the communication status of each of the plurality of communication devices with each of the wireless communication terminals indicated by the combination information stored in the storage unit in advance, in the plurality of communication devices, Controlling the timing of communication using the identified beam;
A communication control method comprising:

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