JP2021170816A - Base station device, terminal device, and control method - Google Patents

Abstract

To prevent a trial of an unnecessary access by a terminal device to a backhaul channel between a base station device and a repeating device.SOLUTION: A base station device includes a first period in which a radio link is provided for a backhaul channel to a repeating device and a radio resource is used for the backhaul channel and a second period in which a radio resource is not used for the backhaul channel.SELECTED DRAWING: Figure 5

Description

The present invention relates to a connection control technique in a wireless communication network.

In the 3rd Generation Partnership Project (3GPP), relay communication technology for enabling communication between a base station device and a distant terminal is being discussed (see Non-Patent Document 1 and Non-Patent Document 2). In this relay communication technology, it can be used in a backhaul line established between a base station device (donor node) and a relay device (relay node) and an access line for the terminal device to connect to the base station device or the like. The frequency band may be common (see Non-Patent Document 2). Further, the establishment of the connection between the base station device and the relay device is executed in the same manner as the procedure for connecting the conventional terminal device to the base station device (see Non-Patent Document 1).

3GPP TR 36.806, V9.0.0, March 2010 3GPP TR 36.8286, V11.0.0, September 2012

When a common frequency band is used for the backhaul line and the access line, the terminal device unintentionally connects to the base station device when or after the base station device establishes the backhaul line with the relay device. It is possible to try. That is, the base station device transmits a synchronization signal and a notification signal at regular intervals so that a backhaul line can be established when the relay device is started / restarted, but the connection procedure is performed between the backhaul line and the access line. Because of the commonality, the terminal device can attempt to access the base station device based on this synchronization signal or broadcast signal. The base station device can also establish a connection with the terminal device, but if an access attempt by such a terminal device is unnecessarily performed, it may not be possible to obtain a sufficient communication speed on the backhaul line.

The present invention has been made in view of such a problem, and provides a technique for preventing an unnecessary access attempt by a terminal device to a backhaul line between a base station device and a relay device.

The base station apparatus according to one aspect of the present invention has a first period in which a wireless link is set for a backhaul line with a relay device and wireless resources are used for the backhaul line, and for the backhaul line. Is provided with a second period in which wireless resources are not used.

Further, the terminal device according to one aspect of the present invention has a first period in which the radio resource is used for the backhaul line provided by the base station device in which the radio link is set for the backhaul line with the relay device. Of the second period in which the radio resource is not used for the backhaul line, the access line connection request to the base station apparatus is made in the second period.

According to the present invention, it is possible to prevent unnecessary access attempts by the terminal device to the backhaul line between the base station device and the relay device.

It is a figure which shows the configuration example of the wireless communication system with relay transmission. It is a figure which shows the hardware configuration example of the apparatus. It is a figure which shows the functional configuration example of a base station apparatus. It is a figure which shows the functional configuration example of a terminal apparatus. It is a figure which shows the 1st example of the process flow. It is a figure which shows the 2nd example of the process flow. It is a figure which shows the 3rd example of the process flow.

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

(System configuration)
FIG. 1 shows a configuration example of a wireless communication system according to the present embodiment. The wireless communication system is configured with relay transmission, and in one example, includes a base station device 101, a relay device 102, and terminal devices 103 and 104. Although one base station device 101, one relay device 102, and two terminal devices 103 and 104 are shown in FIG. 1, a large number of base station devices, relay devices, and terminal devices may exist. .. Further, in FIG. 1, one relay device 102 forms a one-hop relay path, but a plurality of relay devices may form a multi-hop relay path. Further, in FIG. 1, one relay device 102 forms one relay path, but a plurality of relay devices may form a plurality of relay paths. Further, for example, by connecting the relay device 102 to a plurality of relay devices, a relay path that branches in the relay device 102 may be formed. That is, the topology of the relay route is not particularly limited, and any configuration may be used. In this wireless communication system, communication is performed in accordance with the 5th generation NR (New Radio) standard, but communication is performed in accordance with the 5th generation or earlier standards such as LTE and future standards that have not been established at this time. The following discussion can also be applied when it is done.

The base station apparatus 101 can form one or more beams 121 and 122, and at least one of them (beam 121 in the case of FIG. 1) is used to connect the backhaul line to and from the relay apparatus 102. Establish a wireless link 111 for this. Then, the relay device 102 relays the communication executed by the base station device 101 (for example, the communication between the terminal device 103 and the base station device 101). In one example, the relay device 102 is a fixed station that does not move, but may be a mobile station in some cases. However, in the present embodiment, the wireless link between the base station device 101 and the relay device 102 can ensure sufficiently good wireless quality, and the wireless link between the base station device 101 and the relay device 102 can be ensured. A wireless link is called a backhaul line (backhaul link).

The backhaul line is established by the same procedure as the access line established by the terminal device with the base station device. That is, the relay device 102 establishes synchronization by the synchronization signal transmitted by the base station device 101, acquires various information by the broadcast signal, and then connects to the base station device 101 by radio resource control (RRC). Executes processing such as establishment of, and starts communication. At this time, since the wireless communication environment is stable when the relay device 102 is fixed, for example, the base station device 101 sets the transmission cycle of the synchronization signal and the broadcast signal for establishing the backhaul line on the access line. It can be longer than the transmission cycle for establishment. However, since these synchronization signals and notification signals are not stopped from being transmitted, it can be assumed that, for example, the terminal device 104 attempts to establish an access line based on the synchronization signals and notification signals. Since the backhaul line is generally used for relaying communication between a large number of terminal devices and the base station device 101, it is often necessary to secure a sufficiently large communication capacity. However, if an access line is established together with the backhaul line, a part of the communication capacity is allocated to the access line, which makes it difficult to secure the communication capacity of the backhaul line. In addition, the base station device 101 may refuse to establish a wireless link for a signal that attempts to establish an access line from the terminal device. However, since it can be assumed that radio or arithmetic resources are wasted for the refusal, and the signal from the terminal device interferes with the backhaul line, an attempt to establish such an access line from the terminal device is attempted. It is important not to do it unnecessarily.

The base station apparatus 101 of the present embodiment uses radio resources for the backhaul line so that an attempt to establish the access line is not unnecessarily made when or after the backhaul line is established. A notification signal including information indicating that is transmitted. For example, a predetermined field (for example, 1 bit) is reserved in the broadcast signal, and the bit (bit string) in the field is used by the base station device transmitting the broadcast signal to backhaul the radio resource. It is configured to indicate whether or not it is being used. Here, it is explained that a notification signal including "information indicating whether or not wireless resources are used for the backhaul line" is transmitted, but this information is a request for establishment of a connection by the terminal device. Can be arbitrary information indicating whether or not to limit. This information may, in one example, be broadcast by the Master Information Block (MIB) on the physical broadcast channel (PBCH). According to this, the terminal device that has established the synchronization can recognize whether or not the radio resource is used for the backhaul line in the base station device without connecting to the base station device. In addition, this information may be announced by the System Information Block (SIB) in the physical downlink shared channel (PDSCH).

Upon receiving such a notification signal, the terminal device 104 recognizes whether or not the base station device that is the source of the notification signal is using the radio resource to which the notification signal is transmitted for the backhaul line. .. Then, for example, when the wireless resource is used as a backhaul line, the terminal device 104 does not try to establish an access line using the wireless resource, that is, the base station device that is the source of the broadcast signal. Decide not to request a connection to. On the other hand, the terminal device 104 determines, for example, to request a connection from the base station device that is the source of the broadcast signal when the radio resource is not used as a backhaul line. As described above, since the terminal device 104 does not try to establish an access line with the wireless resource used for the backhaul line, it becomes easy to secure the communication capacity of the backhaul line.

When the base station apparatus 101 can form a plurality of beams 121 and 122 as described above and provide separate radio links, the base station apparatus 101 includes information as described above for each of the plurality of beams. A notification signal may be transmitted. For example, in the example of FIG. 1, a backhaul line is established for the beam 121, but a backhaul line is not established for the beam 122. In this case, the base station apparatus 101 transmits a broadcast signal including information indicating that the beam 121 uses the radio resource for the backhaul line, and the beam 122 uses the radio resource for the backhaul line. A notification signal including information indicating that the signal has not been sent is transmitted. In this case, the terminal device 104 receives the notification signal via at least one of these beams, and determines whether or not to request the base station device 101 to connect based on the notification signal. For example, when the terminal device 104 can receive the broadcast signals of both the beams 121 and 122, the beam 121 uses radio resources for the backhaul line, so that the connection can be established via the beam 121. It is determined that the base station device 101 is not requested. On the other hand, since the terminal device 104 does not use radio resources for the backhaul line in the beam 122, the terminal device 104 can request the base station device 101 to establish a connection via the beam 122.

Further, the base station apparatus 101 may further transmit information indicating whether or not another base station apparatus within a predetermined range from the position of the own apparatus is using the radio resource for the backhaul line. Here, the predetermined range can be defined as a range in which the base station devices to which the terminal device capable of receiving the broadcast signal from the base station device 101 can be connected are distributed. In one example, a predetermined range may be a range of a circle centered on the base station device 101, whose radius is twice the receivable distance of the signal transmitted by the base station device 101. This information can also be transmitted by MIB, SIB, or the like. Upon receiving this information, the terminal device 104 may determine the base station device requesting a connection based on this information. That is, the terminal device 104 selects a base station device (or a beam to which the base station device can provide a wireless link) that does not use radio resources for the backhaul line and connects to the base station device. Can be required to be established. This makes it possible to avoid the terminal device attempting to establish an access line with the radio resources used for the backhaul line.

The terminal device 104 may exclude the base station device or beam whose radio resource is shown to be used for the backhaul line by the above-mentioned notification signal from the target of the radio quality measurement for a certain period of time. .. According to this, since the terminal device 104 does not measure the base station device or the beam that uses the radio resource for the backhaul line for a certain period of time, it does not require the establishment of the connection.

The base station apparatus 101 may further transmit, for example, conditions that allow the wireless resource to be used as an access line. This condition can also be transmitted by MIB, SIB, or the like in one example. If the notified condition is satisfied, the terminal device 104 may request the establishment of a connection even when the radio resource is used for the backhaul line. Here, the condition may include, in one example, at least one of the amount of transmitted data or the required speed of data communication being equal to or less than a predetermined value and being an emergency call. According to this, when the communication capacity of the backhaul line does not decrease significantly or when urgent communication such as an emergency call is required, the base station apparatus uses wireless resources for the backhaul line. However, the connection with the terminal device can be established. In the terminal device, when it is shown that the wireless resource is used for the backhaul line in all the received notification signals, that is, the wireless resource that is not used for the backhaul line exists in the surroundings. If not, the radio resource may be connected to the base station device (or beam) used for the backhaul line. In this case, the terminal device may transmit a connection establishment request signal together with information indicating that there is no base station device (or beam) that does not use the radio resource for the backhaul line in the surroundings. good. The base station device may allocate wireless resources to such a terminal device to such an extent that the communication capacity of the backhaul line does not significantly decrease.

The base station apparatus 101 uses the radio resource for the backhaul line when the usage amount of the radio resource used for the backhaul line (for example, the cumulative usage within a certain period) exceeds a predetermined amount. A notification signal including information indicating that the device may be transmitted may be transmitted. That is, even if the base station apparatus 101 uses the wireless resource for the backhaul line, if the usage amount is less than or equal to the predetermined amount, the base station apparatus 101 does not use the wireless resource for the backhaul line. A broadcast signal containing the indicated information can be transmitted. According to this, the base station device can allow the terminal device to request the establishment of a connection when the amount of radio resources used for the backhaul line is small and the communication capacity is sufficient. .. The base station apparatus 101 may periodically aggregate the amount of radio resources used by the backhaul line and periodically update the information of the broadcast signal.

Further, the base station apparatus 101 includes information indicating that the radio resource is used for the backhaul line for a period of a length corresponding to the usage amount of the radio resource used for the backhaul line. However, a notification signal may be transmitted. For example, when the usage of the radio resource used for the backhaul line is 30%, the base station apparatus 101 is for the backhaul line during the period of 30 + α% (α ≧ 0) during the whole period. Can transmit a broadcast signal containing first information indicating that the radio resource is being used. On the other hand, in this case, the base station apparatus 101 transmits a broadcast signal including a second information indicating that the radio resource is not used for the backhaul line during the remaining 70-α% period. sell. According to this, when the terminal device 104 receives the notification signal including the second information, the terminal device 104 can request the base station device 101 to connect. That is, even with this method, the base station device allows the terminal device to request the establishment of a connection when the amount of radio resources used for the backhaul line is small and the communication capacity is sufficient. Can be done.

Hereinafter, a configuration example of the base station device and the terminal device that execute the above-mentioned processing and the flow of the executed processing will be described. The above-mentioned base station device may be replaced with a relay device. For example, the relay device can transmit a broadcast signal including the above-mentioned information about the wireless link formed by the relay device. That is, when a communication link is established including two or more relay devices, a relay device connected to another relay device notifies the above-mentioned information regarding the backhaul line established between these relay devices. It may be included in the signal and transmitted. That is, the relay device according to the present embodiment and the attached claims can be treated as the above-mentioned base station device.

(Hardware configuration)
FIG. 2 shows a hardware configuration example of the base station device 101 and the terminal device 104. In one example, the base station device 101 and the terminal device 104 have a hardware configuration as shown in FIG. 2, and include, for example, a CPU 201, a ROM 202, a RAM 203, an external storage device 204, and a communication circuit 205. In the base station device 101 and the terminal device 104, the CPU 201 executes, for example, a program recorded in any of the ROM 202, the RAM 203, and the external storage device 204 that realizes each function of the base station device 101 and the terminal device 104 as described above. Will be done.

Then, the base station device 101 and the terminal device 104 control the communication circuit 205 by, for example, the CPU 201 to communicate with other devices. The communication circuit 205 of the base station device 101 can communicate with another base station device or another network node (for example, an external processing device 131) through, for example, a wired line. Further, the communication circuit 205 of the base station device 101 may form one or more (plurality) beams and perform wireless communication with the relay device 102 and the terminal device 104. Further, in this case, the communication circuit 205 of the terminal device 104 transmits at least one of the beams formed by the communication circuit 205 of the base station device 101 or the relay device 102 (in some cases, the beam formed by the relay device 102). It is configured to be connectable to the base station apparatus 101 via this connection, and is configured to be able to communicate with the base station apparatus 101 through this connection. In the configuration of FIG. 2, the base station device 101 and the terminal device 104 show a schematic diagram in which one communication circuit 205 is provided, but the present invention is not limited to this, and a plurality of communication circuits may be provided. .. For example, the base station device 101 has a first communication circuit for wired communication with another base station device 101 and a second communication circuit for wireless communication with the relay device 102 and the terminal device 104. Can be done. Further, the terminal device 104 may have, for example, a first communication circuit for NR and a first communication circuit for LTE (Long Term Evolution). Further, the terminal device 104 may have a wireless communication circuit related to a standard other than cellular, such as a wireless LAN, or may further have a wired communication circuit used for a wired connection such as a USB connection.

The base station device 101 and the terminal device 104 may be provided with dedicated hardware for executing each function, or a part of the base station device 101 and the terminal device 104 may be provided with the hardware, and the other parts may be executed by the computer running the program. May be good. Also, all functions may be performed by a computer and a program.

(Functional configuration)
FIG. 3 shows an example of the functional configuration of the base station apparatus 101. As an example, the base station device 101 includes a communication unit 301, a BH line usage determination unit 302, a broadcast signal generation unit 303, another base station information acquisition unit 304, and a condition storage unit 305. Note that this functional configuration example is an example, and the base station apparatus 101 can have other functions as a general base station apparatus, and a part or in some cases all of the functions of FIG. 3 are base stations. It does not have to be provided in the device 101.

The communication unit 301 performs wireless communication with the relay device 102 and, in some cases, the terminal devices 103 to 104. The communication unit 301 can perform wireless communication in accordance with, for example, the NR (New Radio) standard, which is a fifth-generation communication standard, or an earlier-generation communication standard such as LTE. The communication unit 301 may, for example, form one or more beams with variable directivity by using an antenna array including a plurality of antenna elements, but the present invention is not limited to this. For example, the communication unit 301 may not form a beam by using an omni-antenna, or may perform communication by using an antenna in a fixed directivity direction such as a parabolic antenna. In some cases, the communication unit 301 may be connected to the relay device 102 by using a parabolic antenna, and may be connected to a surrounding terminal device by using an omni-antenna or an antenna array. Even in such a case, since the terminal device 104 may receive the signal transmitted by the beam emitted from the parabolic antenna, the process described in the present embodiment can be executed.

The BH line usage determination unit 302 determines whether the base station apparatus 101 is using the radio resource for the backhaul line. In one example, the BH line usage determination unit 302 determines that the radio resource is being used for the backhaul line in response to the communication unit 301 establishing a backhaul line with the relay device 102. .. Further, the BH line use determination unit 302 receives the first beam in response to the communication unit 301 establishing a backhaul line with the relay device 102 in the first beam of the formed plurality of beams. Is determined that the radio resource is being used for the backhaul line. In this case, the BH line use determination unit 302 has a backhaul line for the second beam, which is different from the first beam among the above-mentioned plurality of beams, unless a backhaul line is established with another relay device. , It can be determined that the radio resource is not being used for the backhaul line. Further, the BH line usage determination unit 302 monitors the actual usage of the radio resource in the established backhaul line, and when the usage exceeds a predetermined amount, the radio resource is used for the backhaul line. It can be determined that it is. In this case, the BH line usage determination unit 302 may determine that the wireless resource is not used for the backhaul line when the usage amount is equal to or less than a predetermined amount, and the usage amount is as described above. If it is less than or equal to a second predetermined amount, which is even smaller than the fixed amount, it may be determined that the radio resource is not used for the backhaul line. When the second predetermined amount is used, when the usage amount is less than or equal to the predetermined amount and exceeds the second predetermined amount, the BH line usage determination unit 302 performs the radio resource in a period of a length corresponding to the usage amount. May be processed to determine that is being used for the backhaul line. The length according to the usage amount can be a length having a positive correlation such as being proportional to the ratio between the amount of available radio resources and the actual usage amount. In this case, the BH line usage determination unit 302 outputs a determination result that the radio resource is used for the backhaul line in a period of a length corresponding to the usage amount, and in other institutions, the radio is wireless. It is possible to output the judgment result that the resource is not used for the backhaul line. Further, in the BH line usage determination unit 302, even when the usage amount exceeds the predetermined amount or is equal to or less than the second predetermined amount, the wireless resource is backhaul line in the period of the length corresponding to the usage amount. You may perform processing that determines that it is being used for. That is, when the usage amount exceeds the above-mentioned predetermined amount, the BH line usage determination unit 302 may determine that the radio resource is used for the backhaul line during the entire period. It may be determined that the radio resource is being used for the backhaul line for a period of length depending on the usage, without setting an upper limit such as a quantification. Similarly, the BH line usage determination unit 302 may determine that the radio resource is not used for the backhaul line during the entire period when the usage is equal to or less than the second predetermined amount, or the second It is not necessary to set a lower limit such as a predetermined amount of.

The notification signal generation unit 303 sets the value of the field indicating whether or not the radio resource is used for the backhaul line by using the determination result of the BH line usage determination unit 302 to generate the notification signal. .. The broadcast signal generation unit 303 sets the value of this field to "1" according to the determination result that the radio resource is used for the backhaul line, and the radio resource is used for the backhaul line, for example. The value of this field is set to "0" according to the determination result that the field is not set. The opposite may be true, for example, when the value of this field is "0", it may be indicated that the radio resource is not used for the backhaul line. When a plurality of beams are formed in the communication unit 301, the broadcast signal generation unit 303 generates a separate broadcast signal for each beam, and whether or not radio resources are used for the backhaul line for each beam. Fields can be set. Further, the broadcast signal generation unit 303 uses radio resources for the backhaul line in another base station device (and a beam formed by the base station device) acquired by the other base station information acquisition unit 304 described later. Information on whether or not the information is provided may be included in the notification signal. In this case, the broadcast signal generation unit 303 may include only the information of other base station devices / beams whose radio resources are not used for the backhaul line in the broadcast signal, or the radio resource may be included in the backhaul line. Only information on other base station equipment / beams used for this may be included in the broadcast signal. Further, the notification signal generation unit 303 sets a notification signal on the condition that the terminal device is allowed to request the wireless resource used for the backhaul line, which is stored in the condition storage unit 305 described later. May be included in.

The other base station information acquisition unit 304 acquires information on whether or not radio resources are used for the backhaul line in other base station devices within a predetermined range from the position of the base station device 101. For example, the other base station information acquisition unit 304 uses the X2 or Xn interface by wired or wireless communication to transmit a radio resource from another base station device to the base station device (or a beam formed by the base station device). Receives information on whether or not is used for the backhaul line. Further, the other base station information acquisition unit 304 can acquire at least one of the identification information of the base station apparatus using the radio resource for the backhaul line and the identification information of the beam, for example. The base station device 101 itself can also transmit information on whether or not the own device uses wireless resources for the backhaul line or information on identifying the own device to other base station devices. When the base station apparatus 101 forms a plurality of beams, the base station apparatus 101 can transmit the identification information of the beams using the radio resources for the backhaul line. The predetermined range may be, for example, a range of a circle centered on the base station device 101 and having a radius twice the receivable distance of the signal transmitted by the base station device 101. Further, in a predetermined range, for example, a general base station device transmits a signal from a position where a signal transmitted by the base station device 101 can be received by a beam using a radio resource for a backhaul line. It may be defined as a range up to a position separated by a predetermined distance determined by the available electric power. Further, the predetermined range may be the range of cells registered as cells having an adjacent relationship with the base station apparatus 101 (or the formed beam). In this case, the other base station information acquisition unit 304 can acquire the above-mentioned information from a part or all of the base station devices corresponding to the cells registered in the adjacent cell list.

The other base station information acquisition unit 304 may acquire the above-mentioned information by requesting information from another base station device existing within a predetermined range, or may acquire the above-mentioned information without making the request. Information transmitted periodically from the base station apparatus may be received. Information about other base station devices is input to the broadcast signal generation unit 303, and the broadcast signal generation unit 303 can generate a broadcast signal based on this information. At this time, the notification signal generation unit 303 transmits rough information as information about another base station device existing at a position away from the base station device 101, and another base existing at a position close to the base station device 101. A broadcast signal may be generated to transmit detailed information as information about the station equipment. For example, as for the information about other base station devices existing at a position close to the base station device 101, the information about each of the beams formed by those base station devices can be included in the broadcast signal. On the other hand, for a distant base station device, if any one of the plurality of beams uses the radio resource for the backhaul line, the radio resource is used for the backhaul line in the base station device. Information indicating that this is done can be included in the broadcast signal. As described above, the information to be transmitted may be different depending on the distance from the base station apparatus 101. Information on other base station devices is not essential, and the other base station information acquisition unit 304 may be omitted.

The condition storage unit 305 stores the conditions under which the radio resource is allowed to be used as the access line when the radio resource is used for the backhaul line. This condition may include, for example, at least one of the amount of data transmitted or the speed of data communication required being less than or equal to a predetermined value, and being an emergency call. That is, it may be included as a condition that the communication does not put pressure on the communication capacity of the backhaul line or that the connection needs to be established urgently. The conditions may be appropriately set by, for example, the telecommunications carrier that manages the base station apparatus 101, and conditions other than the amount of data / communication speed and whether or not the call is an emergency call may be set. The broadcast signal generation unit 303 can refer to the conditions stored in the condition storage unit 305 as necessary and generate a broadcast signal including the information of the conditions. If a specific condition such as an emergency call is provided in common to all telecommunications carriers, the common condition may not be included in the notification signal. This is because such conditions can be set in the terminal device in advance. The base station apparatus 101 may reject all connection requests to the wireless resources used for the backhaul line without using the above conditions. In this case, the condition storage unit 305 is omitted. Can be done.

Subsequently, an example of the functional configuration of the terminal device 104 will be described with reference to FIG. In one example, the terminal device 104 has a communication unit 401, a connection availability determination unit 402, and a connection destination determination unit 403. Note that this functional configuration example is an example, and the terminal device 104 can have other functions as a general terminal device, and a part or in some cases all of the functions of FIG. 4 can be provided in the terminal device 104. It does not have to be provided. The terminal device 103 can also have a similar functional configuration.

The communication unit 401 wirelessly communicates with the base station device 101 and the relay device 102. The communication unit 301 can perform wireless communication in accordance with, for example, the NR (New Radio) standard, which is a fifth-generation communication standard, or an earlier-generation communication standard such as LTE.

The connection availability determination unit 402 analyzes the notification signal received via the communication unit 401, and determines whether the radio resource to which the notification signal is transmitted is used for the backhaul line. The connection availability determination unit 402 can confirm a specific field in the broadcast signal, and make this determination depending on which bit of "0" or "1" is set in the field. In the connection availability determination unit 402, when the base station device 101 receives notification signals with a plurality of beams and receives at least a part of those notification signals, the radio resource backhauls for each beam. Determine if it is being used for the line. Then, the connection availability determination unit 402 does not require the establishment of the access line for the base station device or the beam whose radio resource is used for the backhaul line, for example.

Further, when the connection availability determination unit 402 describes a condition in which the request for establishment of the access line is permitted in the notification signal, the connection availability determination unit 402 acquires and stores the information of the condition. Then, when the terminal device 104 tries to connect to the network, the connection availability determination unit 402 determines whether or not the communication executed by the connection satisfies the acquired condition. Then, when the communication executed by the terminal device 104 does not satisfy the conditions for the base station device or beam whose wireless resource is used for the backhaul line, the connection availability determination unit 402 determines the base station device or beam. It is possible not to request the establishment of an access line for. On the other hand, when the communication executed by the terminal device 104 satisfies the condition for the base station device or beam whose wireless resource is used for the backhaul line, the connection availability determination unit 402 sends the base station device or beam to the base station device or beam. It is determined that the request is acceptable for the establishment of the access line of. Here, as described above, the condition may include, for example, the amount of data, the communication speed, the emergency call, and the like.

In one example, the connection availability determination unit 402 may exclude the base station device or the beam that does not require the establishment of the access line from the measurement target of the radio quality for a certain period of time. This is because the terminal device 104 does not request a connection for the base station device or the beam that is excluded from the measurement target of the radio quality.

The connection destination determination unit 403 determines whether or not radio resources are used for the backhaul line in another base station device in the notification signal received from the base station device 101 (or the beam formed by the base station device 101). If there is information, get that information and save it. Then, the connection destination determination unit 403 determines the target (connection destination) base station device or beam for which the establishment of the access line is requested based on the acquired information of the other base station device. The connection destination determination unit 403 may not require the establishment of an access line for, for example, another base station device whose radio resource is used for the backhaul line or a beam formed by the base station device. .. That is, the connection destination determination unit 403 can determine the connection destination from among the base station devices or beams that do not use the radio resources for the backhaul line, for example, based on the radio quality. According to this, the terminal device 104 selects a beam formed by the surrounding base station devices or those base station devices that is not used for the backhaul line, and makes the selected target. On the other hand, it is possible to request the establishment of an access line.

When there is no other base station device or relay device that can be connected to the surroundings, the terminal device 104 requests the base station device whose wireless resource is used for the backhaul line to connect. May be good. In this case, the terminal device 104 may transmit, for example, the connection request signal including information indicating that there is no connectable device in the surroundings. The base station device 101 may allow connection to the terminal device 104 that includes such information. However, the base station apparatus 101 may give priority to the backhaul line, or may provide a communication service to the terminal apparatus 104 by using a wireless resource that is not used in the backhaul line.

(Processing flow)
Subsequently, some examples of the processing flow executed in the wireless communication system according to the present embodiment will be described. In the following example, it is assumed that a 1-bit "BH use" field indicating whether or not the radio resource is used for the backhaul line is prepared in the broadcast signal, and this value is "1". It shall indicate that the radio resource is being used for the backhaul line.

FIG. 5 shows a first example of a processing flow executed in a wireless communication system. In this process, the base station apparatus 101 establishes a backhaul line with the relay apparatus 102 (S501). In this case, the base station apparatus 101 periodically transmits a notification signal in which the "BH use" field is set to "1" (S502). This notification signal is received by a part or all of a communication device (for example, the relay device 102 and the terminal device 104) capable of receiving the signal transmitted from the base station device 101. When the base station apparatus 101 forms a plurality of beams, a notification signal for specifying whether or not the radio resource is used for the backhaul line is separately specified for each of the plurality of beams. Can be sent. Further, the base station apparatus 101 may set the "BH use" field to "1" from the time when the process for establishing the backhaul line is started, or the process is completed and the backhaul line is released. Once established, the "Use BH" field may be set to "1". Upon receiving the broadcast signal, the terminal device 104 extracts the value set in the "Use BH" field. Then, in this case, since "1" is set, the terminal device 104 indicates that the radio resource is used for the backhaul line at the source of this broadcast signal (that is, the base station device 101). Can be identified. Then, based on this specific result, the terminal device 104 determines that the base station device 101 is not requested to connect (S503).

After that, it is assumed that the base station device 101 disconnects the backhaul line established with the relay device 102 (S504). The base station apparatus 101 sets the "BH use" field in the notification signal to "0" in response to the disconnection of the backhaul line. The base station apparatus 101 may set the "BH use" field to "0" when the backhaul line disconnection process is started. The base station apparatus 101 transmits a notification signal in which the “BH use” field is set to “0” (S505). Upon receiving this notification signal, the terminal device 104 extracts the value set in the "Use BH" field. Then, in this case, since "0" is set, the terminal device 104 indicates that the radio resource is not used for the backhaul line at the source of this broadcast signal (that is, the base station device 101). Can be identified. Based on this specific result, the terminal device 104 determines that it is permissible to request the base station device 101 to establish an access line (S506). Then, the terminal device 104 can request a connection to the base station device 101 whose wireless resource is not used for the backhaul line, if necessary (S507).

The base station device 101 may transmit a notification signal in which the "BH use" field is set to "0" while maintaining the state in which the backhaul line with the relay device 102 is established. For example, the base station apparatus 101 monitors the amount of communication actually executed on the established backhaul line, and if the amount of communication is less than a predetermined amount, sets the "BH use" field to "0". Can be done. Further, the base station apparatus 101 may be provided with a period in which the "BH use" field is set to "0" and a period in which the "BH use" field is set to "1" at a time ratio according to the amount of communication. That is, the base station device 101 can set a period for accepting a connection request from the terminal device and a period for not accepting the connection request from the terminal device in a certain period according to the amount of communication actually performed on the backhaul line. In this case, the terminal device 104 sets the connection destination to the base station device 101 or another base station device or relay device according to the value in the "BH use" field of the notification signal received during the period when the access line should be established. Can be decided. According to such a method, access of an appropriate amount of terminal devices is allowed according to the usage rate of the backhaul line in the base station device 101, so that access from an unnecessarily large number of terminal devices is not generated. can do.

In this way, the terminal device 104 recognizes whether the base station device 101 is using the radio resource for the backhaul line by monitoring a predetermined field of the broadcast signal transmitted by the base station device 101. Can be done. Then, since the terminal device 104 does not request a connection while the base station device 101 is using the radio resource for the backhaul line, it prevents the communication capacity of the backhaul line from being reduced by the establishment of the access line. be able to. Further, since the terminal device 104 does not make a connection request, the processing load on the base station device 101 can be reduced.

Subsequently, a second example of the processing flow executed in the wireless communication system will be described with reference to FIG. In this example, in the broadcast signal, in addition to information on whether the radio resource is being used for the backhaul line, the conditions under which the connection request is allowed are notified. Note that, for example, a plurality of conditions are defined in advance, and information on which of the plurality of conditions is satisfied to allow the connection request can be included in the broadcast signal. For example, a 3-bit condition specification field is prepared in the broadcast signal, "1" is set when the condition is that the amount of data to be communicated is equal to or less than a predetermined value in the first bit, and "1" is set in the second bit. "1" is set when the required communication speed is less than or equal to a predetermined value, and "1" is set when the condition is that the call is an emergency call in the third bit. You may. In this case, by setting "0", it can be indicated that the connection request is not allowed even if the condition corresponding to the bit in which the "0" is set is satisfied. For example, by setting this field to "011", the connection request is not allowed even when the amount of data is small, but when the communication speed is below the predetermined value or when the call is an emergency call. , Indicates that the connection request is acceptable. The predetermined value regarding the amount of data and the communication speed may be a predetermined fixed value, or may be specified in another field in the broadcast signal. For example, after the above-mentioned 3-bit field, a field indicating a predetermined number of bits of data amount or communication speed may be provided. In this case, when the data amount or communication speed is not used as a condition, the field indicating the data amount or communication speed may be omitted.

In FIG. 6, a backhaul line is established between the base station device 101 and the relay device 102, as in FIG. 5 (S501). In this case, the base station apparatus 101 sets the above-mentioned "BH use" field to "1" and transmits a notification signal including information on conditions under which a connection request is permitted (S601). Upon receiving this broadcast signal, the terminal device 104 first checks the "BH use" field, and if the value of this field is "0", determines that the connection request is allowed. On the other hand, in the case of FIG. 6, since the value of the "BH use" field is set to "1", the terminal device 104 subsequently acquires information on the conditions under which the connection request is allowed. Then, when requesting the establishment of the access line, the terminal device 104 determines whether or not the acquired condition is satisfied (S602), and if the condition is satisfied, requests the base station device 101 to connect. can do. If the condition is not satisfied, the terminal device 104 does not make such a connection request to the base station device 101, but makes a connection request to another base station device or a relay device, for example. do. As a result, the terminal device 104 that does not significantly affect the communication capacity of the backhaul line or satisfies limited conditions such as an emergency call is allowed to be connected, and the terminal device can be used while maintaining the quality of the backhaul line. It is possible to provide the necessary communication services.

Subsequently, a third example of the processing flow executed in the wireless communication system will be described with reference to FIG. 7. In this example, the base station device 101 is information indicating whether or not the radio resource is used for the backhaul line not only in the own device but also in other surrounding base station devices (relay device in some cases). Is included in the broadcast signal and transmitted (S701). The terminal device 104 determines the base station device or relay device to be connected based on this information (S702). For example, the terminal device 104 is a device that does not use wireless resources for the backhaul line among the surrounding base station devices or relay devices, and the wireless quality is equal to or higher than a predetermined value. Can be determined as. At this time, the terminal device 104 performs unnecessary measurement for a beam or the like for which a connection request is not allowed, for example, by excluding the device using the radio resource for the backhaul line from the measurement target of the radio quality. Since this is not the case, power consumption and processing load can be reduced.

As described above, the terminal device 104 unnecessarily requests the base station device 101 to connect by transmitting by the broadcast signal whether or not the base station device 101 is using the wireless resource for the backhaul line. Will not be done. Therefore, it is possible to maintain high communication capacity and communication quality of the backhaul line. Note that "whether or not the wireless resource is used for the backhaul line" may be read as "whether or not the connection request by the terminal device 104 is allowed", and whether or not the connection request is allowed is determined. The deciding factor does not necessarily have to be the presence or absence of use on the backhaul line. That is, the above configuration and processing can be applied in all situations where it is necessary to avoid unnecessary connection requests by the terminal device 104.

Claims (14)

It ’s a base station device,
Set up a wireless link for the backhaul line with the repeater,
A first period in which the radio resource is used for the backhaul line and a second period in which the radio resource is not used for the backhaul line are provided.
Base station equipment configured as. The base station apparatus according to claim 1, wherein a connection request from the terminal apparatus to the access line to the base station apparatus in the second period is permitted. The base station apparatus according to claim 1, which does not allow a connection request from the terminal apparatus to the access line to the base station apparatus in the first period. The base station device according to any one of claims 1 to 3, wherein the base station device is configured to transmit a broadcast signal including information regarding the first period and the second period. The base station apparatus according to any one of claims 1 to 4, which is configured to transmit a condition that allows the wireless resource to be used as an access line. The first period in which the radio resource is used for the backhaul line provided by the base station apparatus that sets the radio link for the backhaul line with the relay device and the radio resource is used for the backhaul line. A terminal device configured to request a connection of an access line to the base station device in the second period of the second period. The terminal device according to claim 6, wherein the base station device is not requested to connect to the access line during the first period. A broadcast signal including information indicating whether or not a radio resource is used for the backhaul line is received from the base station apparatus.
Determine whether to request a connection to the base station apparatus based on the information.
The terminal device according to claim 6 or 7. Receives the conditions for using wireless resources as an access line,
Determining whether to request connection to the base station apparatus based on whether or not the conditions are met.
The terminal device according to any one of claims 6 to 8. A control method performed by a base station device,
Setting up a wireless link for a backhaul line with a repeater,
A first period in which the radio resource is used for the backhaul line and a second period in which the radio resource is not used for the backhaul line are provided.
Control methods including. The control method according to claim 10, further comprising permitting a connection request from the terminal device to the access line to the base station device in the second period. The control method according to claim 10, further comprising disallowing a connection request from the terminal device to the access line to the base station device in the first period. A control method performed by a terminal device
The first period in which the radio resource is used for the backhaul line provided by the base station apparatus that sets the radio link for the backhaul line with the relay device and the radio resource is used for the backhaul line. A control method comprising requesting a connection of an access line to the base station apparatus in the second period, which is not included in the second period. The control method according to claim 13, wherein the base station apparatus is not requested to connect to the access line during the first period.

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