JP2020088410A - Control device, base station device, terminal device, control method, and program - Google Patents

Abstract

To suppress influence of interference for inter-terminal communication.SOLUTION: A control device acquires first information capable of specifying whether or not a terminal device connected to a first base station device that supports a first frequency band and does not support a second frequency band exists at a position that can interfere with communication of a cell developed by a second base station device supporting the second frequency band when performing communication in the second frequency band and second information indicating the usage status of a first wireless resource allocated for communication between terminals that is not through the second base station device and a second wireless resource allocated for communication between the second base station device and the terminal device, out of the second frequency band, in the cell, transmits an instruction signal for instructing increase or decrease of the first wireless resource to the second base station device on the basis of the first information and the second information when the terminal device performs inter-terminal communication in the second frequency band, and notifies the terminal device of the wireless resource to be used by the terminal device for inter-terminal communication.SELECTED DRAWING: Figure 7

Description

The present invention relates to interference control technology for wireless communication.

In 3GPP (3rd Generation Partnership Project), standardization of 5th generation cellular communication systems is in progress. In the fifth generation cellular communication system, it is assumed that a wide signal bandwidth is secured by using a high frequency band in order to support high speed and large capacity communication. On the other hand, in such a high frequency band, it is not easy to secure a communicable area because the radio wave has a high straight traveling property. Therefore, it is assumed that the communicable area is expanded by inter-terminal communication in which two or more terminal devices communicate with each other without going through the base station device. At this time, when many terminal devices perform inter-terminal communication, many radio resources are used for inter-terminal communication, which may affect communication between the base station device and the terminal device. On the other hand, Patent Document 1 describes that inter-terminal communication is performed using a frequency band that is not supported by the base station device.

JP, 2016-096475, A

When a frequency band that the base station device does not support is used for communication between terminals, it may interfere with other communication in that frequency band.

The present invention provides a technique for suppressing the influence of interference due to communication between terminals.

In the control device according to the aspect of the present invention, the terminal device that is connected to the first base station device that supports the first frequency band but does not support the second frequency band is the second device. When communication is performed in the frequency band, the first base that can identify whether or not the communication terminal is present at a position that can interfere with the communication of the cell deployed by the second base station device that supports the second frequency band Information is acquired, and in the cell, a first radio resource allocated for inter-terminal communication that does not go through the second base station device in the second frequency band, and the second base. The second information indicating the usage status of the second radio resource allocated for communication between the station device and the terminal device is acquired, and the terminal device is the first base station in the second frequency band. When performing inter-terminal communication with another terminal device without going through a device, the first radio resource is determined according to the amount of the first radio resource determined using the first information and the second information. 1 is transmitted to the second base station device, and the terminal device is notified of the radio resource to be used for inter-terminal communication. And

According to the present invention, it is possible to suppress the influence of interference due to communication between terminals.

It is a figure showing an example of system composition. It is a figure which shows the hardware structural example of each apparatus. It is a figure showing an example of functional composition of a control device. It is a figure which shows the function structural example of a macrocell base station. It is a figure which shows the functional structural example of a small cell base station. It is a figure showing an example of functional composition of a terminal unit. It is a figure which shows the example of the flow of the process performed with a system.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

(System configuration)
FIG. 1 shows a configuration example of a communication system according to this embodiment. In one example, the communication system includes a first base station device that deploys a macro cell (hereinafter, referred to as “macro cell base station”) and a second base station device that deploys a small cell (hereinafter, “small cell base”). It is called "station".). Here, it is assumed that the macro cell base station supports the first frequency band and does not support the second frequency band supported by the small cell base station. The small cell base station may or may not support the first frequency band. In the present embodiment, the term “support” represents that it has a function capable of executing communication in that frequency band. For example, the device has a communication function in a specific frequency band but is in a power saving state. Even if it is not operating, the device is said to support that particular frequency band. In the communication system, at least two terminal devices located within the macro cell range and outside the small cell range perform inter-terminal communication using the second frequency band under the control of the macro cell base station.

Note that the relationship between the macro cell and the small cell is only an example, and the same discussion can be applied to the relationship between two cells whose areas are adjacent to each other or have an inclusion relationship. However, within the range of the first cell expanded by the first base station apparatus that does not support the second frequency band, the second cell expanded by the second base station apparatus that supports the second frequency band is included. There shall be a range that is not within the range. Then, at least two terminal devices located in the range perform inter-terminal communication using the second frequency band under the control of the first base station device.

By performing communication in the terminal-to-terminal communication using a frequency band not used in the macrocell, it is possible to prevent radio resources available to the macrocell base station from being wasted in the terminal-to-terminal communication. On the other hand, such communication between terminals may mutually interfere with communication in the small cell by using the frequency band used in the small cell. That is, in general, the terminal-to-terminal communication is scheduled to be performed in the uplink frequency band in which the terminal device can transmit the signal, so the signal transmitted in the terminal-to-terminal communication is received by the small cell base station. When the terminal device transmits a signal to the small cell base station, the signal may interfere with the inter-terminal communication.

In this embodiment, a control device for suppressing the occurrence of such interference is used. The control device is a device on the network side, and may be included in a base station device such as a macro cell base station or another network node. The control device may exist in a form in which its function is distributed to a plurality of devices on the network.

The control device acquires predetermined information capable of specifying whether or not each of the at least two terminal devices connected to the macrocell base station is located at a position where they may interfere with small cell communication. The collection of this information can be performed by receiving information from the terminal device (via another device or directly) by the control device, but for example, another device on the network (in one example, is defined by 3GPP). Pro Se function). If another device collects the information, the control device can obtain the necessary information from this device. In one example, the acquisition of this information may be performed by the control device transmitting a request signal to the terminal device or another device, or by a setting that is periodically transmitted from the terminal device or another device. May be done.

The acquired information may include information regarding the adjacency relationship with another terminal device in each of the plurality of terminal devices. This information is collected by, for example, each terminal device sending out a predetermined signal (eg, beacon) at regular intervals, and other terminal devices in the surroundings observing this. Each terminal device recognizes the other terminal devices existing in the vicinity by acquiring the identification information of the terminal device included in the predetermined signal transmitted from the surrounding terminal devices. Then, each terminal device transmits the information (for example, the above-mentioned identification information) that identifies the recognized surrounding terminal devices to the base station device that develops the cell in which the own device is staying, at regular intervals. As a result, on the network side, it is possible to specify the terminal devices existing around each terminal device and to specify the adjacency relationship between the terminal devices.

Further, the acquired information may include CBR (Channel Busy Ratio) information. The CBR here includes the channel usage rate in the frequency band supported by the small cell base station. Further, this information is obtained at least as a result of the measurement by the terminal device which is connected to the macro cell base station. That is, the terminal device measures the CBR for a radio resource that is not supported by the currently connected base station (macro cell base station) and is used in an adjacent cell (supported by the small cell base station). And notify the network side. Note that the terminal device may measure the CBR in parallel for the frequency band supported by the currently connected base station in parallel and notify the network side. The terminal device measures the usage rate for each resource block in the frequency band that can be used in the small cell, for example, by acquiring the RSSI (received signal strength indicator) over a period of a specific time period before the timing at which the notification is made. .. Then, the terminal device notifies the measurement result to the network side (macrocell base station) at regular intervals (for example, together with the above-described information for identifying the terminal devices in the surroundings or separately from the information). Further, the CBR can be notified in a unit of a predetermined frequency width such as a unit of 5 MHz width. That is, the frequency band supported by the small cell base station can be divided into a predetermined frequency width, and the CBR can be notified for each of the divided frequency bands. Further, for example, the CBR may be notified only to the frequency band having the highest CBR value among the plurality of frequency bands after the division. When the terminal device notifies the CBR of a neighboring cell such as a small cell, thereby notifying that the CBR has a sufficiently high value, the terminal device indicates that the terminal device exists in the vicinity of the neighboring cell. The side can recognize. Further, based on the information indicating the adjacency relationship between the terminal devices described above, for example, a second terminal device that has an adjacency relationship with the first terminal device that has a high measured CBR value and is determined to be present in the vicinity of an adjacent cell, A maximum of n terminal devices up to a third terminal device adjacent to the second terminal device,..., And an nth terminal device adjacent to the (n−1)th terminal device, It may be determined that the cell exists near the adjacent cell. The size of n can be set appropriately. The CBR information may be periodically notified to the network side, and in this case, the control device can acquire the notified information from another device or the storage area of its own device. Note that the control device may instruct the base station device connected to the terminal device to transmit the request signal to the terminal device, and acquire the CBR information as a response to the request signal. .

Further, the acquired information may be information specifying the base station device to which each terminal device is connected. This information is information managed on the network side. The control device may obtain this information, for example, by sending a request signal to another device that manages this information. The control device may periodically acquire this information. Based on this information, the control device can determine whether the terminal device is connected to the macro cell base station or the small cell base station. Therefore, when the terminal device connected to the predetermined base station device performs the inter-terminal communication, the control device, together with the above information, the inter-terminal communication may interfere with the communication in the adjacent cell. Can be predicted.

Note that the above information is merely an example, and other information may be acquired. Instead of the above information, when each of at least two terminal devices performs inter-terminal communication, the inter-terminal communication is performed. Any other information that can specify whether or not the communication with the small cell exists at a position where the communication with the small cell may interfere may be acquired. In addition, the control device may search for and acquire the information about the terminal device scheduled to start the inter-terminal communication from the information collected in advance. That is, the control device selects from among the information collected by the control device or another device in advance and the information of the terminal device that executes the inter-terminal communication when the inter-terminal communication is performed. You can get it.

The control device can further acquire information on the usage rate of radio resources (frequency and time resources, power (code) resources, etc.) from the small cell base station. Here, the control device can acquire, in the small cell base station, information indicating the usage rates of the radio resources assigned to the terminal communication and the radio resources not used in the terminal communication, in a distinguishable manner. That is, the control information is assigned to the communication between the small cell base station and the terminal in the small cell, and the information on the usage rate of the radio resource (for the communication between the terminals) that is allocated to the terminal communication in the small cell. Information of the wireless resource (for cellular communication) and the usage rate of the wireless resource. In the following, the term "cellular communication" refers to direct communication (communication without using inter-terminal communication) between the base station device and the terminal device. That is, although cellular communication can be said to be a concept that includes communication between terminals in a broad sense, in this embodiment, the term cellular communication is used as a concept that does not include communication between terminals. The wireless resource for communication between terminals may be a wireless resource dedicated to communication between terminals, or may be a wireless resource shared by communication between terminals and cellular communication. It should be noted that the control device acquires information that presents information on the usage rate of the wireless resource dedicated to the terminal communication and information on the usage rate of the wireless resource shared by the terminal communication and the cellular communication in a distinguishable manner. Good. That is, the control device uses each of (1) radio resources for inter-terminal communication, (2) radio resources shared by inter-terminal communication and cellular communication, and (3) radio resources for cellular communication. May be acquired, or two pieces of information indicating the usage rate of (1) and (2) and the usage rate of (3) may be acquired. Even when the three radio resources are distinguished, the control device may acquire only the information of (1) and (3), for example. According to this information, it is determined whether or not there is room to not use the radio resource for the inter-terminal communication for the small cell in which the inter-terminal communication by the terminal device connected to the macro cell base station may interfere. be able to. That is, the control device determines that the radio resource can be left unused in the small cell for the terminal-to-terminal communication performed in the adjacent cell (macro cell) when the usage rate of any radio resource is low. be able to.

The control device, for example, when the communication between terminals is started, for small cells located in the vicinity of the terminal device that executes the communication between the terminals, it may be possible to obtain this information, or all of the information in a fixed cycle. Alternatively, this information may be acquired for some cells (for example, only small cells). In any case, the control device is assumed that the inter-terminal communication executed by the terminal device connected to the macro cell can interfere with the communication of the small cell and the radio resource of the small cell. It is configured so that the usage rate can be referred to. In the above example, the information on the usage rate of the wireless resource is acquired, but it is sufficient if the information can specify whether or not there is a surplus in the wireless resource. May be obtained.

The control device, based on the above-mentioned information, by the terminal-to-terminal communication by the terminal device being connected to the macrocell base station which is about to be started, determines that interference may occur with the communication of any of the small cells. , It is determined whether or not it is possible to secure radio resources for communication between the terminals in the small cell. That is, the control device, based on the information of the usage rate of the radio resource in the small cell, the current radio resource for terminal communication in the small cell, there is a free space available for terminal communication in the adjacent cell To judge. For example, the control device determines that there is no vacancy when the usage rate of the radio resource for terminal-to-terminal communication in the small cell is higher than a predetermined value, and determines that there is a vacancy when it is lower than the predetermined value.

Then, when the control device determines that there is a free space, the control device determines to perform inter-terminal communication using the free wireless resource. In this case, the control device transmits to the terminal device, via the macrocell base station, an instruction signal for instructing communication between the terminals using the vacant radio resource. In this case, the control device can notify the small cell base station of information that specifies the radio resource used for the terminal-to-terminal communication by the terminal device connected to the macrocell base station. Based on this information, the small cell base station performs control so that the radio resource used for this inter-terminal communication is not used in the small cell. Incidentally, the control device, because it is possible to know the adjacency relationship between the terminal device connected to the macrocell base station and the terminal device connected to the small cell base station, for example, the terminal by the terminal device connected to the macrocell base station The small cell base station may be notified of information that identifies a terminal device in a small cell that may be affected by inter-communication. In this case, the small cell base station allocates the radio resource used in the terminal communication by the terminal device connected to the macro cell base station for the communication of the terminal device which is considered not to be affected by the terminal communication. May be.

Further, the control device, even if the terminal device connected to the macro cell performs inter-terminal communication using the radio resource for inter-terminal communication in the small cell, if it is determined that there is a further surplus in the radio resource, the It may decide to reduce the amount of radio resources (increase radio resources for cellular communication). In this case, the control device can generate an instruction signal for instructing reduction of radio resources for communication between terminals according to the determined result, and transmit the instruction signal to the small cell base station. It should be noted that this instruction signal may include information specifying how much the wireless resource for inter-terminal communication should be reduced, or the instruction signal may be transmitted and received as a predetermined amount of information. It may be implicitly instructed to reduce radio resources for end-to-end communication. Further, the control device instructs, via the macro cell base station, a radio resource to be used to a terminal device which executes inter-terminal communication. For example, the control device, for the terminal device performing the terminal communication, information designating the whole or part of the set of radio resources for terminal communication reduced in the small cell base station, or between the terminals Information for individually designating a specific radio resource to be used for communication can be notified via the macrocell base station. At this time, the control device may notify the small cell base station of the specific radio resource when individually specifying the specific radio resource to be used in the inter-terminal communication.

In addition, the control device is in a state where it is assumed that the terminal-to-terminal communication executed by the terminal device connected to the macro cell does not mutually interfere with the communication in the small cell, and the usage rate of the radio resource in the small cell. It is possible to determine to perform terminal-to-terminal communication by using any part of the frequency band supported by the small cell base station without considering the above. That is, in this case, the control device may decide to use not only the radio resource for inter-terminal communication in the small cell but also the radio resource for cellular communication in the inter-terminal communication. According to this, for the terminal-to-terminal communication at a position that may interfere with the communication in the small cell, the radio resource allocated for the terminal-to-terminal communication is used in the small cell, and does not interfere with the communication in the small cell. Since other wireless resources are used for communication between terminals at a location, wireless resources can be effectively utilized. Then, the control device instructs, via the macrocell base station, a radio resource to be used to a terminal device that executes inter-terminal communication. For example, the control device, for a terminal device that performs inter-terminal communication, information designating the whole or a part of the radio resources in the small cell, or a specific radio resource to be used in the inter-terminal communication The specified information can be notified via the macro cell base station.

On the other hand, the control device, when the inter-terminal communication executed by the terminal device connected to the macro cell is assumed to mutually interfere with the communication of the small cell, the radio resource for inter-terminal communication in the small cell is available. If it is determined that there is no such, it is determined whether or not it is possible to increase the radio resources for communication between terminals in the small cell. For example, the control device can determine whether to increase the radio resources for inter-terminal communication in the small cell, based on the information on the amount of radio resources to be secured for the cellular communication in the small cell. In one example, the control device can determine to increase the radio resources for inter-terminal communication within a range in which the amount of radio resources to be reserved for the cellular communication in the small cell is reserved. In this case, the control device, the total amount of radio resources to be secured for cellular communication in the small cell, and the amount of radio resources considered necessary for inter-terminal communication, the total resource amount or for example total resources When the amount does not exceed the predetermined amount, such as the amount obtained by multiplying the amount by a predetermined multiplier less than 1, it can be determined that the wireless resource of the inter-terminal communication can be increased. According to this, it is possible to prevent the cellular communication from being disabled in the small cell due to lack of resources. When the control device determines to increase radio resources for communication between terminals in the small cell, it generates an instruction signal for instructing increase of radio resources for communication between terminals, and transmits the instruction signal to the small cell base station. sell. The instruction signal may include information that specifies how much the wireless resource for inter-terminal communication should be increased, or may be predetermined by the fact that the instruction signal is transmitted and received. It may be implicitly instructed to increase a predetermined amount of radio resources for communication between terminals.

Further, the control device instructs, via the macro cell base station, a radio resource to be used to a terminal device which executes inter-terminal communication. For example, the control device, for the terminal device performing the inter-terminal communication, information specifying the whole or part of the set of radio resources for inter-terminal communication in the small cell base station, or used in the inter-terminal communication Information for individually designating a specific radio resource to be transmitted can be notified via the macrocell base station. At this time, when designating a specific radio resource to be used in the terminal-to-terminal communication, the control device can notify the small cell base station of the specific radio resource. In this case, the small cell base station can avoid assigning the radio resource used in the terminal-to-terminal communication by the terminal device connected to the macrocell base station to the communication of the terminal device in the small cell. As a result, it is possible to prevent the communication in the small cell and the inter-terminal communication by the terminal device connected to the macro cell base station from interfering with each other.

Further, the control device, for example, among the radio resources for communication between terminals in the small cell, to notify the terminal device via the macrocell base station that the increased radio resources by the control of the control device should be used. May be. This notification can include, for example, information specifying all or a part of the increased wireless resources or a specific wireless resource to be used in the end-to-end communication. In this case, the small cell base station, in response to receiving an instruction to increase the radio resource for communication between terminals from the control device, do not allow the terminal device in the small cell to use the increased radio resource Can be Note that radio resources that should not be used may be explicitly notified from the control device to the small cell base station. By this means, it is possible to prevent inter-terminal communication in the small cell from interfering with inter-terminal communication outside the small cell. In the inter-terminal communication outside the small cell, any part of the radio resource for inter-terminal communication in the small cell shall be used, and the radio resource specifically used is not notified to the small cell base station. Even in the case, it is possible to reduce the probability that the communication between terminals outside the small cell and the communication inside the small cell interfere with each other. This is because the probability that the same radio resource will be used can be reduced by increasing the radio resource for communication between terminals in the small cell.

In the above example, the control device, to the small cell base station, is to transmit an instruction signal for increasing or decreasing the radio resource for inter-terminal communication, this instruction signal, in one example, the radio resource for inter-terminal communication It may include 2-bit (or 3-bit or more) information indicating increase/decrease. This 2-bit information may indicate, for example, an instruction to increase radio resources for communication between terminals, maintain the current state, reduce radio resources for communication between terminals, or the like. Incidentally, the control device, for each fixed period, determines whether the radio resource for inter-terminal communication in the small cell is large or small, and, depending on the result, increases, maintains, or reduces the radio resource in the small cell base. The station may be instructed.

The control device may perform flexible radio resource allocation control based on a QCI (Quality of Service Class Identifier) or the like of communication performed by the terminal device. For example, if the QCI of the terminal-to-terminal communication by the terminal device connected to the macrocell base station indicates a service class higher than a predetermined level, the control device determines whether or not there is a free radio resource dedicated to the terminal-to-terminal communication in the small cell. To judge. On the other hand, when the QCI of the inter-terminal communication indicates a service class lower than a predetermined level, the control device has a free radio resource dedicated to the inter-terminal communication in the small cell or a shared radio resource for the inter-terminal communication and the cellular communication. Or not. Then, the control device can execute the above-described processing according to the determination result. That is, the control device allocates radio resources for communication between terminals to communication between terminals with a QCI higher than a predetermined level, and performs communication between terminals with communication between terminals with a relatively low level QCI. The use of shared radio resources with cellular communication may be allowed. Similarly, the control device can determine that the radio resource dedicated to the cellular communication is necessary for the cellular communication with high QCI. In this case, the control device determines not to increase the wireless resources available for the terminal-to-terminal communication when the amount of wireless resources required for the cellular communication with the QCI equal to or higher than a predetermined level cannot be secured as the wireless resource dedicated to the cellular communication. You can.

As described above, the small cell base station is required based on the control by the control device while securing the radio resource for the terminal communication for the terminal communication by the terminal device connected to the own device. Increase the amount of wireless resources accordingly. Thereby, even if the terminal-to-terminal communication in the adjacent cell (macro cell) uses the radio resource, the terminal-to-terminal communication is prevented from interfering with the terminal-to-terminal communication in the small cell, for example, or It is possible to reduce the probability of occurrence of such interference. In the above example, the control device transmits the instruction signal to the small cell base station, but the small cell base station may reject this instruction. That is, the control device requests the increase or decrease of the radio resource for communication between terminals, and only when the small cell base station transmits a signal approving the request to the control device, the increase or decrease of the amount of the radio resource as described above. Control may be performed. Here, the control device, if it is determined that it is not possible to increase the amount of radio resources for communication between terminals in the small cell or if the increase in radio resources for communication between terminals is rejected from the small cell base station, the terminal It may be decided that the intercommunication should be performed in the frequency band supported by the macrocell base station. In this case, the control device can instruct the terminal device, through the macrocell base station, to use a part of the frequency band supported by the macrocell base station for inter-terminal communication.

(Device configuration)
FIG. 2 shows a hardware configuration example of the control device, the base station device, and the terminal device that execute the above-described processing. In one example, each device includes a processor 201, a ROM 202, a RAM 203, a storage device 204, and a communication circuit 205. The processor 201 is a computer including one or more processing circuits such as a general-purpose CPU (central processing unit) and ASIC (application-specific integrated circuit), and is stored in the ROM 202 or the storage device 204. By reading and executing the stored program, the entire processing of each device and the above-described processing are executed. The ROM 202 is a read-only memory that stores information regarding programs executed by each device and various parameters. The RAM 203 is a random access memory that functions as a workspace when the processor 201 executes a program and that stores temporary information. The storage device 204 is composed of, for example, a removable external storage device or the like. The communication circuit 205 is composed of, for example, a circuit for wired communication or wireless communication. The base station device is configured to include, as a communication circuit 205 for communication with the terminal device, for example, a baseband circuit for LTE (Long Term Evolution) or NR (New Radio) and an RF circuit, and an antenna. The communication circuit 205 in the base station device may include, for example, a circuit for performing (wired or wireless) communication with another base station device or control device. In addition, the communication circuit 205 of the terminal device includes a baseband circuit for RF or NR, an RF circuit, and the like for communication with the base station device or another terminal device, and an antenna. The communication circuit 205 of the control device includes a circuit for performing (wired or wireless) communication with the base station device. When the control device is provided inside a base station device (for example, a macrocell base station), the communication circuit 205 can be an internal communication circuit of the base station device. Although one communication circuit 205 is illustrated in FIG. 2, each device may include a plurality of communication circuits.

FIG. 3 shows an example of the functional configuration of the control device. The control device has, for example, a communication unit 301, a terminal information acquisition unit 302, a resource information acquisition unit 303, and a resource increase/decrease determination unit 304 as its functional configuration. The communication unit 301 is a communication interface that enables communication with at least a network node in the core network, a macro cell base station, and a small cell base station. The terminal information acquisition unit 302 is information regarding the adjacency relationship between terminal devices and the adjacency relationship with an adjacent cell such as a small cell, that is, whether or not the terminal device exists at a position that can interfere with the communication of the adjacent cell. Get identifiable information. It should be noted that this information may be obtained from the terminal device via a base station device to which the terminal device is connected, such as a macrocell base station, or may be notified to the network node from the terminal device and stored in the network node. If it does, it may be obtained from that network node. The resource information acquisition unit 303 acquires information on the resource usage status of a base station device that expands a cell such as a small cell base station that may be interfered by communication between terminals in adjacent cells. The resource information acquisition unit 303, for example, based on the information acquired by the terminal information acquisition unit 302 when the start of inter-terminal communication by the terminal device connected to the macro cell base station is requested (for example, from the macro cell base station). Then, it is possible to acquire the information on the resource usage status of the adjacent cell that is expected to cause interference with the terminal device. The resource information acquisition unit 303 may periodically collect the resource usage status of the managed cell. The resource increase/decrease determination unit 304 determines the amount of radio resources for inter-terminal communication in an adjacent cell in which the inter-terminal communication may cause interference, based on the information acquired by the terminal information acquisition unit 302 and the resource information acquisition unit 303. Then, it is decided to increase/decrease the amount of radio resources for communication between terminals from the current state according to the amount. The amount of wireless resources for communication between terminals may be determined by a device other than the control device. The resource increase/decrease determination unit 304 transmits a resource increase/decrease instruction to the small cell base station via the communication unit 301, and, in response to receiving a response thereto, a radio resource that the terminal device should use for inter-terminal communication. To the terminal device via the macrocell base station. By this means, resource allocation control can be performed so that inter-terminal communication by the terminal device that is connected to the macro cell base station and communication within the small cell do not interfere. Since the details of the operation of the control device are as described above, the details will not be repeated here.

FIG. 4 shows an example of the functional configuration of the macrocell base station. The macro cell base station is configured to include, for example, a communication unit 401, a resource designation receiving unit 402, and a resource notification unit 403 as its functional configuration. The communication unit 401 is a communication interface for communicating with other devices such as a terminal device, a control device, and a small cell base station connected to the macro cell base station. The macro cell base station may include the above-described control device in one example. In this case, communication with the control device is performed through an internal circuit. The resource designation receiving unit 402 receives, from the control device, information that designates a radio resource that can be used for inter-terminal communication by the terminal device that is connected to the macro cell base station. The resource notification unit 403 notifies the terminal device, which executes the inter-terminal communication, of the wireless resource that can be used for the inter-terminal communication notified from the control device. Note that the resource notification unit 403 may notify the terminal device of information indicating the whole or a part of a set of wireless resources available for the inter-terminal communication notified from the control device, or the available wireless resources Of these, information that individually specifies some wireless resources to be used in the inter-terminal communication may be notified to the terminal device. When the resource designation receiving unit 402 has acquired from the control device the information designating some wireless resources to be used in the inter-terminal communication, the resource notification unit 403 transfers the information to the terminal device. In addition, when a whole or a part of a set of usable wireless resources is notified, this notification uses a broadcast signal (for example, SIB (System Information Block) type 18 transmitted by a physical downlink shared channel (PDSCH)). Can be done. Further, when indicating an individual radio resource to be used for the terminal-to-terminal communication, notification can be performed by dedicated signaling (for example, downlink control information (DCI) format 5 in the physical downlink control channel (PDCCH)). Even when individual radio resources are indicated, the terminal device can be notified of information indicating the whole or a part of the available radio resources. As a result, the information designating the individual radio resources is notified as the information designating which one of all the available radio resources or a set of some of them should be used.

FIG. 5 shows an example of the functional configuration of the small cell base station. The functional configuration of the small cell base station includes, for example, a communication unit 501, a resource information notification unit 502, a resource amount control unit 503, and a resource allocation unit 504. The communication unit 501 is a communication interface for communicating with other devices such as a terminal device, a control device, and a macrocell base station that are connected to the small cell base station. The resource information notifying unit 502 outputs at least information individually indicating the usage state (for example, usage rate, usage amount) of wireless resources allocated to inter-terminal communication and the usage status of wireless resources allocated to cellular communication. Notify to. The resource amount control unit 503 controls the increase/decrease of the amount of wireless resources for inter-terminal communication according to an instruction from the control device. It should be noted that the resource amount control unit 503 is, for example, in the case where an instruction to increase radio resources for inter-terminal communication is given from the control device, and the amount of radio resources required for cellular communication in a small cell is large, and so on. When it is not possible to increase the wireless resources for inter-communication, a response that rejects the instruction from the control device may be transmitted, and control may be performed so as not to increase the wireless resources for inter-terminal communication. Similarly, when the resource amount control unit 503 is instructed by the control device to reduce radio resources for inter-terminal communication, for example, the reason is that the amount of radio resources required for inter-terminal communication in a small cell is large. When the wireless resource cannot be reduced by the above, a response that rejects the instruction from the control device can be transmitted, and control can be performed such that the wireless resource for inter-terminal communication is not reduced. When the instruction from the control device is not rejected, the resource amount control unit 503 can send a response to approve the instruction to the control device to control increase/decrease of wireless resources for inter-terminal communication. The resource allocation unit 504 controls the allocation of radio resources to the terminal devices in the small cell based on the control by the control device. For example, when the resource allocation unit 504 receives from the control device a designation of a radio resource used for terminal-to-terminal communication by a terminal device outside the small cell, the resource allocation unit 504 avoids the designated radio resource, and the small cell Radio resources are allocated to the terminal devices in the inside.

FIG. 6 shows a functional configuration example of the terminal device. The terminal device is configured to include, for example, a communication unit 601, an adjacency relation information notification unit 602, a CBR notification unit 603, and a communication control unit 604 as its functional configuration. The communication unit 601 is a communication interface for communicating with base station devices existing around. The adjacency relation information notification unit 602 identifies another terminal device existing in the vicinity by, for example, receiving a beacon transmitted from another terminal device in the vicinity, and identifies the base station device that is connecting the specified information. Via a network node or control device in the core network. The CBR notification unit 603 measures the usage rate (Channel Busy Rate) of the wireless channel and notifies the network node or control device in the core network of information corresponding to the measurement result. Note that the CBR notification unit 603 only needs to notify the information that can determine whether or not the transmission/reception of radio waves has been confirmed in the channel included in the frequency band used in the surrounding cells, and notifies the CBR numerical value itself. You don't have to. In one example, the CBR notification unit 603 can notify information on whether the CBR value exceeds a predetermined value. In addition, as long as it is possible to notify the network side of information capable of determining whether or not interference may occur in an adjacent cell when performing inter-terminal communication, information other than the adjacency relationship of terminal devices or CBR information may be notified. Good. The communication control unit 604 performs wireless communication according to an instruction from the connected base station device. The communication control unit 604 can execute the inter-terminal communication by using the radio resource notified from the macro cell base station when performing the inter-terminal communication while connecting to the macro cell base station, for example. When the communication control unit 604 receives from the macrocell base station a notification of a set of wireless resources capable of performing inter-terminal communication, the communication control unit 604 autonomously selects the wireless resource actually used for inter-terminal communication from the set. Can be decided. Further, when the communication control unit 604 receives designation of an individual radio resource to be used for inter-terminal communication, the communication control unit 604 performs inter-terminal communication using the radio resource.

(Process flow)
Next, an example of the flow of processing executed in the wireless communication system will be outlined using FIG. 7. Since the specific contents of each process are as described above, detailed description will be omitted. First, the terminal device periodically notifies the network node (or the control device in the core network) of the adjacency relationship information and the CBR information via the connected base station device (macrocell base station), for example. To do. The adjacency information includes information for identifying other terminal devices in the vicinity, and the CBR information is supported by the base station device (small cell base station) in the surrounding cell and is connected to the macro cell base. Includes measurement results for channels in frequency bands not supported by the station. The network node holds these pieces of information, and transmits these pieces of information to the control device in response to a request from the control device, for example. The control device, for example, according to the macrocell base station has determined that the specific terminal device to perform inter-terminal communication, the adjacency relationship information about the specific terminal device, and a certain adjacency relationship from the specific terminal device. CBR information of other terminal devices (reachable within (n-1) hops following the adjacency relationship from the specific terminal device). Then, when the CBR of another terminal device having a certain adjacency relationship with the specific terminal device exceeds a predetermined value, the control device interferes with the communication of the adjacent cell when the specific terminal device performs inter-terminal communication. It is determined to be possible. When the control device determines that a specific terminal device that performs inter-terminal communication may interfere with communication in an adjacent cell, the radio resource for inter-terminal communication of the base station device (for example, a small cell base station) in the adjacent cell and The information indicating the usage status of the wireless resource for the cellular communication is acquired. Then, the control device, the specific terminal device can perform the inter-terminal communication in the current radio resource for inter-terminal communication in the adjacent cell, or can increase the radio resource for inter-terminal communication in the adjacent cell Based on such information, it is determined whether or not to increase the radio resource for communication between terminals in the adjacent cell. It should be noted that the control device can determine whether or not to reduce resources when there is a surplus of radio resources for inter-terminal communication even when inter-terminal communication is performed by a specific terminal device. Here, it is assumed that the control device determines to increase the radio resources for communication between terminals in the adjacent cell. In this case, the control device transmits a resource increase instruction to the base station device (small cell base station) of the adjacent cell. Then, when the base station device (small cell base station) of the adjacent cell approves the instruction, it transmits a response including information indicating that the instruction is approved to the control device. In response to receiving this response, the control device recognizes that the wireless resource for inter-terminal communication in the adjacent cell has increased, and uses the increased wireless resource for inter-terminal communication to perform inter-terminal communication. As is done, the terminal device is notified via the macrocell base station. It should be noted that this notification includes at least a notification of a set of wireless resources that can be used for inter-terminal communication, and if necessary, further notification that specifies a wireless resource individually assigned to a terminal device that executes inter-terminal communication. May be. These notifications can be performed separately by, for example, a broadcast signal and dedicated signaling. The terminal device executes the inter-terminal communication with the partner device of the inter-terminal communication using the notified wireless resource.

As described above, by using the predetermined frequency band which is not supported by the first base station device such as the macro cell base station and is supported by the second base station device around the small cell base station or the like. In a system for performing terminal-to-terminal communication, it is possible to prevent the terminal-to-terminal communication from interfering with the communication at the second base station device, or to suppress the probability of such interference to be sufficiently low. By this means, it is possible to use radio resources that are not originally used in the cell deployed by the first base station device for inter-terminal communication, and thus it is possible to improve frequency use efficiency. Further, even if such inter-terminal communication is performed, it is possible to reduce the influence on the communication of other cells and prevent the efficiency of the entire system from being lowered.

Claims (14)

When the terminal device that is connected to the first base station device that supports the first frequency band and does not support the second frequency band performs communication in the second frequency band, Acquiring first information capable of specifying whether or not there is a position that can interfere with the communication of the cell deployed by the second base station device supporting the second frequency band,
In the cell, in the second frequency band, a first radio resource allocated for inter-terminal communication that does not go through the second base station device, the second base station device, and a terminal device. Acquiring second information indicating the usage status of the second wireless resource allocated for communication with
When the terminal device performs inter-terminal communication with another terminal device in the second frequency band without going through the first base station device, using the first information and the second information According to the amount of the determined first radio resource, an instruction signal for instructing increase or decrease of the first radio resource is transmitted to the second base station device,
The terminal device notifies the terminal device of a wireless resource to be used for performing inter-terminal communication,
A control device characterized by the above. Receiving, from the second base station device, a response indicating whether or not the second base station device has approved the instruction related to the instruction signal,
The control device according to claim 1, wherein: When the instruction signal instructs to increase the first radio resource, and when the response indicating approval of the instruction is received from the second base station device, the radio increased by the instruction Resource, notifies the terminal device as the wireless resource to be used,
The control device according to claim 2, wherein: In the case where the instruction signal instructs the increase of the first radio resource and the response indicating that the instruction is not approved is received from the second base station device, the first frequency band The radio resource included in the above is notified to the terminal device as the radio resource to be used,
The control device according to claim 2 or 3, characterized in that. The second information indicates at least one of a usage rate and a usage amount of the first wireless resource and the second wireless resource,
The control device according to claim 1, wherein the control device is a control device. The first information includes information indicating another terminal device adjacent to the terminal device and the second frequency band in each of the other terminal devices up to a predetermined number of hops following the adjacent relationship from the terminal device. Including the result of radio wave measurement,
The control device according to claim 1, wherein the control device is a control device. The control device according to claim 1, wherein the control device is included in the first base station device. A base station device that is adjacent to another base station device that supports the first frequency band and does not support the second frequency band and that supports the second frequency band,
In a cell in which the base station device is deployed, a first radio resource allocated for inter-terminal communication that does not go through the base station device in the second frequency band, and the base station device. Notifying the control device of the first information indicating the usage status of the second radio resource allocated for communication with the terminal device,
When the terminal device connected to the other base station device performs inter-terminal communication with another terminal device without going through the other base station device in the second frequency band, the first information and , Located at a position where, when the terminal device performs communication in the second frequency band, communication with a cell deployed by a second base station device supporting the second frequency band can interfere According to the amount of the first radio resource determined by using the second information capable of specifying whether or not, an instruction signal instructing increase or decrease of the first radio resource is received from the control device,
Controlling increase or decrease of the second radio resource based on the instruction signal,
A base station device characterized by the above. The base station apparatus according to claim 8, wherein a response indicating whether to approve the instruction related to the instruction signal is transmitted to the control apparatus. The first information indicates at least one of a usage rate and a usage amount of the first wireless resource and the second wireless resource,
The base station device according to claim 8 or 9, characterized in that. A terminal device that is connected to a first base station device that supports the first frequency band and does not support the second frequency band,
When the terminal device performs communication in the second frequency band, the terminal device exists at a position where it can interfere with communication in a cell deployed by a second base station device supporting the second frequency band. Transmitting first information capable of specifying whether to perform to the network node via the first base station device,
When the terminal device performs inter-terminal communication with another terminal device in the second frequency band without going through the first base station device, the terminal device acquires the first information from the network node From a control device that determines a radio resource to be used for inter-communication, receive a notification of the radio resource via the first base station device,
Is configured as
The radio resource to be used is the first information and the first frequency assigned in the cell for inter-terminal communication in the second frequency band that does not go through the second base station device. Of the first base station apparatus and the second information indicating the usage status of the second radio resource allocated for communication between the second base station apparatus and the terminal apparatus. The control device instructs the second base station device to increase or decrease the first radio resource according to the amount of radio resource, and is determined according to the instruction.
A terminal device characterized by the above. The first information includes information indicating another terminal device adjacent to the terminal device and the second frequency band in each of the other terminal devices up to a predetermined number of hops following the adjacent relationship from the terminal device. Including the result of radio wave measurement,
The terminal device according to claim 11, wherein the terminal device is a terminal device. A control method executed by a control device, comprising:
When the terminal device that is connected to the first base station device that supports the first frequency band and does not support the second frequency band performs communication in the second frequency band, Acquiring first information capable of specifying whether or not the mobile terminal is present at a position that can interfere with the communication of the cell deployed by the second base station device supporting the second frequency band,
In the cell, in the second frequency band, a first radio resource allocated for inter-terminal communication that does not go through the second base station device, the second base station device, and a terminal device. Acquiring second information indicating a utilization status of a second radio resource allocated for communication with
When the terminal device performs inter-terminal communication with another terminal device in the second frequency band without going through the first base station device, using the first information and the second information Transmitting, to the second base station device, an instruction signal instructing to increase or decrease the first radio resource according to the determined amount of the first radio resource;
Notifying the terminal device of the radio resource that the terminal device should use to perform inter-terminal communication,
A control method comprising: In the computer equipped in the control device,
When the terminal device that is connected to the first base station device that supports the first frequency band and does not support the second frequency band performs communication in the second frequency band, The first information capable of specifying whether or not the cell is present at a position that can interfere with the communication of the cell deployed by the second base station device supporting the second frequency band is acquired.
In the cell, in the second frequency band, a first radio resource allocated for inter-terminal communication that does not go through the second base station device, the second base station device, and a terminal device. The second information indicating the usage status of the second wireless resource allocated for communication with
When the terminal device performs inter-terminal communication with another terminal device in the second frequency band without going through the first base station device, using the first information and the second information According to the determined amount of the first radio resource, an instruction signal for instructing increase or decrease of the first radio resource is transmitted to the second base station device,
A program for informing the terminal device of a wireless resource to be used by the terminal device for communication between terminals.

Images