JP6567846B2 - Synchronization apparatus, base station apparatus, network node, and control method - Google Patents

Description

  The present invention relates to a technique for establishing time synchronization.

  In a wireless communication network, a plurality of base station apparatuses are distributed in a plane, and each base station apparatus is a terminal that exists in a range where radio communication can be performed (range in which radio waves reach at a predetermined power level). Wireless communication with At this time, a plurality of base station devices and a network node in the wireless communication network establish time or frequency synchronization with a reference device that provides a time reference. The synchronization may not be established by the base station apparatus and the network node itself, but may be a synchronization apparatus that is physically or logically different from these, and the base station apparatus and the network node may be synchronized with each other. The device can be contained. In this case, the base station device and the network node establish time synchronization according to the synchronization device. Note that the reference device may be a dedicated device that is disposed in the network and gives a time reference to the base station device and the network node (synchronization device) via wired communication. In addition, the reference device may be a device that provides a time reference wirelessly, such as a GPS satellite, a broadcast synchronization reference device, and a radio clock synchronization reference device.

  In Patent Literature 1, in a base station device that can directly receive signals from a plurality of reference devices and establish synchronization, for example, even when a failure occurs in synchronization with one reference device, A technique for establishing synchronization with other reference devices is described. According to the technique described in Patent Literature 1, since synchronization is established with any of a plurality of reference devices, it is possible to prevent an event that the base station device cannot establish synchronization.

JP 2006-217359 A

  In the technique described in Patent Document 1, when the base station apparatus cannot receive a signal from any of a plurality of reference apparatuses that can establish direct synchronization, there is a problem that synchronization cannot be established with any of the reference apparatuses. It was. Further, for example, when a base station apparatus and a network node (synchronization apparatus) can establish synchronization directly with only one reference apparatus, if a failure occurs in synchronization with the reference apparatus, the base station apparatus There was a problem that synchronization with the device could not be established.

  The present invention has been made in view of the above problems, and an object of the present invention is to make it possible to establish synchronization with a reference device even in an environment where synchronization with the reference device cannot be established directly.

In order to achieve the above object, a synchronization device according to the present invention receives a signal through a reference device that provides a reference of time through another synchronization device that establishes time synchronization or without using the other synchronization device. Based on the reference signal, the establishing means for establishing the synchronization with the reference device, and the reference signal received via the other synchronization device when establishing the synchronization with the reference device Determining means for determining whether the synchronization is established based on the reference signal received without passing through the other synchronization device, and the reference received via the other synchronization device When the synchronization is established based on a signal, the synchronization is established based on a reference signal received without passing through the other synchronization device so that the synchronization is established based on a reference signal received from the other synchronization device. If you want to establish before To establish the synchronization based on a reference signal received from the reference device, and a control means for controlling said establishing means, the determining means of the network that is received without passing through the other synchronization devices The synchronization based on the reference signal received through the other synchronization device when the synchronization accuracy does not satisfy a predetermined reference when the synchronization is established based on the reference signal that is affected by the congestion and affects the synchronization accuracy. Is determined to be established.

  According to the present invention, it is possible to establish synchronization with a reference device even in an environment where synchronization with the reference device cannot be established directly.

The figure which shows the structural example of the system for synchronization establishment. The block diagram which shows the hardware structural example of a synchronizer and a control apparatus. The block diagram which shows the function structural example of a synchronizer. The block diagram which shows the function structural example of a control apparatus. The flowchart which shows the flow of a process.

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

(System configuration)
FIG. 1 is a diagram illustrating a configuration example of a system for establishing synchronization according to the present embodiment. This system can be a part related to synchronization establishment in a wireless communication network including a base station device, a network node, and a terminal, for example. The synchronization here refers to time synchronization. The system includes a plurality of reference devices that each distribute a signal serving as a reference for synchronization, and a synchronization device that receives a signal distributed from the reference device and establishes synchronization with the reference device. Here, the synchronization device may be included in a base station device (in the facility of the base station device) or a network node in the wireless communication network, or may exist separately from the base station device or the network node. The base station device or the network node operates according to time synchronization established by the synchronization device.

  Here, the first reference device 111 and the second reference device 112 have, for example, a chassis redundant configuration, and transmit a signal for synchronization to the synchronization device via the network. Although the reliability of the first reference device 111 and the second reference device 112 is high, since the signal reaches the synchronization device via the network, for example, when the network is congested, time synchronization is inaccurate (in the example, there is a failure). Can occur). The synchronization between the first reference device 111 and the second reference device 112 can be established, for example, by the synchronization device (first synchronization device 101 to third synchronization device 103) surrounded by reference numeral 121 in FIG. And the fourth synchronization device 104 cannot be established.

  The third reference device 113 is a GPS satellite, for example, and distributes a reference signal by radio waves. For this reason, synchronization with the third reference device 113 can be established only by a synchronization device that can receive radio waves. In the example of FIG. 1, it is assumed that only the first synchronization device 101 can establish synchronization with the third reference device 113, and the second synchronization device 102 to the fourth synchronization device 104 cannot be established.

  In the example of FIG. 1, the first synchronization device 101 to the fourth synchronization device 104 establish time synchronization with any of the first reference device 111 to the third reference device 113, but the fourth synchronization device 104 Direct synchronization cannot be established with any of these reference devices. The first synchronization device 101 to the third synchronization device 103 also establish accurate time synchronization with any of the first reference device 111 to the third reference device 113, for example, when there is network congestion or when a wireless signal cannot be received. It may not be possible. Therefore, the synchronization device (at least one of the first synchronization device 101 to the fourth synchronization device 104) of the present embodiment establishes synchronization with another synchronization device that can directly establish synchronization with any of the reference devices. It has the function to do.

  The synchronization device establishes direct synchronization with any of the reference devices without passing through other synchronization devices as much as possible, but such direct synchronization cannot be established or the synchronization accuracy satisfies a predetermined reference. If not, establish synchronization with one of the reference devices via another synchronization device. Therefore, the synchronization device according to the present embodiment can establish synchronization with the reference device with or without the other synchronization device establishing synchronization with a reference device. It is determined whether to establish synchronization through the other synchronization device or to establish synchronization without going through another synchronization device. When the synchronization device determines to establish synchronization with the reference device without going through another synchronization device, the synchronization device establishes synchronization directly with the reference device. On the other hand, for example, when there is no reference device that can establish synchronization without going through another synchronization device, the synchronization device synchronizes with any of the reference devices and other synchronization devices that can establish synchronization. Establish.

  That is, in the example of FIG. 1, the first synchronization device 101 can directly establish synchronization with the first reference device 111 to the third reference device 113, and thus establishes synchronization with any of these. To do. Here, for example, the network is not congested, and synchronization is established with the first reference device 111 or the second reference device 112, rather than establishment with the third reference device 113. Assume that accurate time synchronization can be established. In this case, the first synchronization device 101 establishes synchronization with the first reference device 111 or the second reference device 112. At this time, when the first synchronization apparatus 101 receives a request for establishment of synchronization from another synchronization apparatus, the first synchronization apparatus 101 distributes a synchronization reference signal to the other synchronization apparatus. The first synchronization apparatus 101 is a signal indicating that the first synchronization apparatus 101 itself can distribute a reference signal as information for searching for a synchronization apparatus with which another synchronization apparatus should establish synchronization. May be sent. At this time, if the first synchronization apparatus 101 can establish synchronization directly with the reference apparatus, the first synchronization apparatus 101 transmits a signal indicating that the reference signal can be distributed (for example, periodically). It may be.

  Here, after that, for example, the network starts to be congested, and the first synchronization device 101 establishes synchronization with the first reference device 111 or the second reference device 112, rather than the first reference device 111 or the second reference device 112. Assume that the person who has established synchronization can establish accurate time synchronization. In that case, the first synchronization device 101 switches the synchronization destination device from the first reference device 111 or the second reference device 112 to the third reference device 113. Even in this case, since the first synchronization device 101 can establish synchronization with the third reference device 113 without passing through another synchronization device, synchronization with the other synchronization device is possible. Do not perform processing to establish For example, when receiving a request for establishment of synchronization from the second synchronization apparatus 102 to the fourth synchronization apparatus 104, the first synchronization apparatus 101 distributes a reference signal for establishment of synchronization. Further, as described above, the first synchronization apparatus 101 can distribute the reference signal as information for searching for a synchronization apparatus with which another synchronization apparatus should establish synchronization. You may transmit the signal which shows that there exists.

  Since the second synchronization device 102 and the third synchronization device 103 can establish synchronization with the first reference device 111 or the second reference device 112 without passing through another synchronization device, Establish synchronization between. At this time, when the second synchronization device 102 and the third synchronization device 103 receive a synchronization establishment request from another synchronization device, the second synchronization device 102 and the third synchronization device 103 distribute the synchronization reference signal to the other synchronization device. As with the first synchronization device 101, the second synchronization device 102 and the third synchronization device 103 deliver a reference signal as information for searching for a synchronization device with which other synchronization devices should establish synchronization. You may transmit the signal which shows that it is possible to do.

  Here, after that, for example, the network starts to be congested, and a failure occurs in synchronization between the second synchronization device 102 and the third synchronization device 103 and the first reference device 111 or the second reference device 112. Here, it is assumed that the second synchronization device 102 and the third synchronization device 103 cannot receive the radio signal from the third reference device 113 accurately, for example, because they exist indoors. Then, in the second synchronization device 102 and the third synchronization device 103, in addition to the first reference device 111 and the second reference device 112, there is another reference device that can establish synchronization without going through another synchronization device. Therefore, it becomes impossible to establish synchronization directly with the reference device. In this case, the second synchronization device 102 and the third synchronization device 103 switch the synchronization destination devices so as to establish synchronization with other synchronization devices.

  Here, as the other synchronization devices for the second synchronization device 102 and the third synchronization device 103, the first synchronization device 101 and the fourth synchronization device 104 exist. The first synchronization device 101 can directly establish synchronization with the third reference device 113 even when the network is congested. However, the fourth synchronization device 104 does not However, direct synchronization cannot be established. For this reason, the second synchronization device 102 and the third synchronization device 103, for example, request the first synchronization device 101 to establish synchronization, and for synchronization establishment distributed from the first synchronization device 101 in response to the request. A signal is received and synchronization is established with the first synchronization device 101. The second synchronizer 102 and the third synchronizer 103 establish a synchronization with the first synchronizer 101 so that the first synchronizer 101 establishes synchronization directly with the third reference device 113. You can establish synchronization indirectly.

  Since the fourth synchronization device 104 cannot directly establish synchronization with any reference device as described above, the fourth synchronization device 104 establishes synchronization with any one of the first synchronization device 101 to the third synchronization device 103. Here, if any of the first synchronization device 101 to the third synchronization device 103 can establish direct synchronization with the first reference device 111 or the second reference device 112, the fourth synchronization device 104 determines the first synchronization. One of the synchronization destination devices is selected from the devices 101 to the third synchronization device 103. For example, the fourth synchronization device 104 selects, as a synchronization destination device, another synchronization device having the shortest time (round trip time) from when a signal is transmitted to when a response is returned. Note that the fourth synchronization device 104 is a synchronization target device that is another synchronization device in which the length of time required for transmission / reception of any signal (network latency) is stable, that is, another synchronization device with low latency jitter. You may choose as When another synchronization device establishes synchronization with the reference device via another synchronization device, the synchronization device that establishes synchronization based on such a reference may be selected.

  Further, each synchronization device may select a synchronization destination device from other synchronization devices that cannot directly establish synchronization with any reference device. That is, a certain synchronization device may be synchronized with a second other synchronization device that is synchronized with the first other synchronization device. The synchronizer is, for example, when a value such as a round trip time with a third other synchronizer that is directly synchronized with the reference device does not meet sufficient criteria to establish accurate synchronization. Such a selection can be made. That is, if the synchronization device cannot establish accurate synchronization with another synchronization device that has established direct synchronization with the reference device, it does not establish direct synchronization with the reference device. Synchronization can be established with other synchronization devices that can be established. In the above example, if the second other synchronization device is correctly synchronized with the first other synchronization device that is accurately synchronized with the reference device, then the synchronization device is the third other synchronization device. In some cases, time synchronization can be accurately achieved by synchronizing with the second other synchronization device rather than synchronizing with the device.

  When the first synchronization device 101 to the fourth synchronization device 104 switch the synchronization destination device, the first synchronization device 101 to the fourth synchronization device 104 synchronize the frequency with the synchronization destination device before the switching until the time synchronization switching is completed. You may make it maintain. That is, the synchronization device is not synchronized with any of the reference devices during the process of switching the synchronization destination device. For example, if the first synchronization device 101 to the third synchronization device 103 fail due to network congestion in synchronization with the first reference device 111 or the second reference device 112, the reception timing of the reference signal itself is congestion. Therefore, time synchronization is lost. However, the time interval at which the reference signal is received may be generally maintained even if the network is congested. Accordingly, the first synchronization device 101 to the third synchronization device 103 maintain the frequency synchronization until the time synchronization processing with other devices is completed, so that no synchronization is established. It can be prevented from occurring. Thereafter, the synchronization device releases the frequency synchronization with the synchronization destination device before switching by completing the time synchronization with the synchronization destination device after switching.

  Note that the synchronization destination device with which the synchronization device establishes synchronization may be determined by the synchronization device itself, or may be determined by the control device 105 different from the synchronization device.

  When the control device 105 determines a synchronization destination device of each synchronization device, the control device 105 obtains information on a reference device with which each of the synchronization devices can directly establish synchronization, for example, from each synchronization device And manage. Then, for the synchronization device that can establish synchronization with a plurality of reference devices, for example, as described above, the control device 105 sets the reference device that can establish synchronization more accurately as the synchronization device. As the synchronization destination device. When the control device 105 receives a notification from each synchronization device that a failure has occurred in synchronization with the reference device that is currently establishing direct synchronization (the synchronization has become inaccurate), the synchronization device 105 Determine if there are other reference devices with which the device can establish synchronization directly. Note that the determination as to whether or not a failure has occurred in the synchronization between a certain synchronization device and the reference device is made by, for example, the control device 105 attempting to establish synchronization with the synchronization device, and the clock accuracy of the synchronization device. May be performed by estimating.

  When there is another reference device that can directly establish synchronization with respect to a certain synchronization device, the control device 105 selects the other reference device as a synchronization destination device of the synchronization device. Here, when such other reference device does not exist, the control device 105 selects another synchronization device as the synchronization destination device of the synchronization device. The other synchronization device selected may be, for example, a device that can establish direct synchronization with the reference device, but may be another synchronization device that cannot establish direct synchronization with the reference device. If accurate time synchronization can be established, the device can be selected. Also, if there are multiple other synchronization devices that can establish direct synchronization with the reference device, the other selected synchronization devices can establish direct synchronization with the reference device that can achieve the most accurate synchronization. It may be a device. In addition, the control device 105 selects a device having the smallest network latency jitter or a device having the smallest round trip time from the synchronization device to which the synchronization destination device should be switched. You may select as an apparatus. As described above, the control device 105 transmits an instruction to specify a synchronization destination device to each synchronization device initially or when a failure occurs in synchronization.

  In response to this instruction, for example, the synchronization device establishes synchronization with the reference device via another synchronization device, or establishes synchronization with the reference device directly without going through another synchronization device. Note that the control device 105 may periodically transmit an instruction for specifying a device with which each synchronization device should establish synchronization to each synchronization device. In this case, in accordance with the received instruction, the synchronization apparatus determines whether it is necessary to switch the synchronization destination apparatus, for example, by confirming the identity between the apparatus currently established in synchronization with the apparatus specified in the instruction. Thus, when switching is necessary, the synchronization destination device can be switched. In addition, when the synchronization device establishes synchronization with another synchronization device, the control device 105 transmits an instruction to the other synchronization device to distribute a reference signal for establishing synchronization. Also good. In this case, the synchronization device may start distributing the reference signal in response to receiving this instruction, and may not distribute the reference signal when the instruction is not received. Furthermore, in this case, the synchronizer need not transmit a signal indicating that it can deliver the reference signal.

  Next, the configuration and operation of the synchronization device and the control device according to the present embodiment as described above will be described in detail.

(Configuration of synchronization device and control device)
FIG. 2 shows a hardware configuration example of the synchronization device and the control device. The synchronization device and the control device include, for example, a CPU 201, a ROM 202, a RAM 203, an external storage device 204, and a communication device 205. In the synchronization device and the control device, for example, the CPU 201 executes a program that realizes each function of each device recorded in any of the ROM 202, the RAM 203, and the external storage device 204.

  Then, the synchronization device and the control device control the communication device 205 by the CPU 201, for example, and perform communication with the reference device and other synchronization devices. In FIG. 2, the synchronization device and the control device have one communication device 205, but the present invention is not limited to this and may have a plurality of communication devices.

  Note that the synchronization device and the control device may include dedicated hardware for executing each function, or a part of the functions may be implemented by hardware and the other function may be executed by a computer that operates the program. May be. All functions may be implemented by a computer and a program.

  FIG. 3 shows a functional configuration example of the synchronization device. The synchronization devices (the first synchronization device 101 to the fourth synchronization device 104) include, for example, a synchronization establishment unit 301, a failure detection unit 302, a synchronization destination determination unit 303, a switching control unit 304, a synchronization request unit 305, as its functional configuration. And a reference signal distribution unit 306. Note that the synchronization device does not have to have all of these functional configurations, and some of these functional configurations may be omitted. The synchronization device may have functions other than these functional configurations.

  The synchronization establishment unit 301 establishes time synchronization directly with the reference device, and establishes synchronization with other synchronization devices when direct synchronization with the reference device cannot be established. Specifically, a reference signal for time synchronization distributed from the reference device or another synchronization device is received, and the clock in the device is controlled so as to establish synchronization with the reference signal.

  The failure detection unit 302 detects that a failure has occurred when a failure has occurred (becomes inaccurate) in the currently established time synchronization. The failure detection unit 302 can detect that a failure has occurred in time synchronization, for example, when a signal that should be continuously received from the reference device is lost without being intermittently received. Further, the failure detection unit 302 determines that a failure has occurred in time synchronization when the fluctuation of the time information in the incoming reference signal is larger than a predetermined degree as compared with the fluctuation of the oscillator in the synchronization device. May be. Further, the failure detection unit 302 has a predetermined degree of fluctuation of the time information of the reference signal received from a certain reference device compared to the fluctuation of the time information of the reference signal received from another reference device or another synchronization device. If it is greater than, the time synchronization may be determined to have failed. When the failure detection unit 302 detects that a failure has occurred in time synchronization, the failure detection unit 302 gives an opportunity to start control for starting switching of a synchronization destination device. For example, when the control device 105 does not exist, the failure detection unit 302 transmits a control signal to the synchronization destination determination unit 303 so as to reselect the synchronization destination device. In addition, when the control device 105 exists, the failure detection unit 302 notifies the control device 105 that a failure has occurred. When the control device 105 detects whether a failure has occurred, the failure detection unit 302 does not have to exist in the synchronization device.

  The synchronization destination determination unit 303 selects a synchronization destination device when the synchronization device is activated or when a synchronization failure occurs. For example, when a synchronization failure occurs while establishing synchronization directly with a certain reference device, the synchronization destination determination unit 303 may establish direct synchronization with another reference device. Determine if you can. Then, the synchronization destination determination unit 303 determines that synchronization is established with the other reference device when direct synchronization can be established with the other reference device.

  On the other hand, when there is no other reference device that can establish direct synchronization, the synchronization destination determination unit 303 determines to establish synchronization with another synchronization device. At this time, for example, the synchronization destination determination unit 303 can select another synchronization device that can establish direct synchronization with any reference device as the synchronization destination device. In addition, when there are a plurality of such other synchronization devices, the synchronization destination determination unit 303 determines the synchronization destination device based on the time (round trip time, network latency) related to communication with the other synchronization devices. You may choose. Further, the synchronization destination determination unit 303 may select another synchronization device that provides accurate synchronization as a synchronization destination device regardless of whether synchronization can be established directly with the reference device. The synchronization destination determination unit 303 performs this selection by preliminarily storing information that identifies other synchronization devices with which the synchronization device can establish synchronization and information that serves as a selection criterion. Also good. Here, the information serving as the selection criterion may include, for example, information indicating whether direct synchronization with the reference device is possible, information indicating the above-described time, information regarding the probability that accurate time synchronization can be established, and the like. When the control device 105 selects a synchronization destination device of each synchronization device, the synchronization destination determination unit 303 determines the synchronization destination device by receiving the result of selection of the synchronization destination device by the control device 105. To do.

  Note that the synchronization destination determination unit 303 may perform this determination by storing in advance information on a reference device with which the synchronization device can directly establish synchronization. At this time, the synchronization destination determination unit 303 can manage a list including a reference device that can establish synchronization and another synchronization device. This list includes, for example, the priority when synchronization can be established, and the synchronization destination determination unit 303 selects, for example, a device with the highest priority as possible as a synchronization destination device. Here, for example, the highest priority is given to the reference device that can establish direct synchronization, and the second highest priority is given to other synchronization devices that can establish synchronization. Here, for example, when there are a plurality of other synchronization devices that can establish synchronization, other synchronization devices with a small number of steps to the reference device, that is, the number of hops when subordinate synchronization is performed in multiple stages is small. The synchronizer is given higher priority. Further, for example, a higher priority is given to another synchronization device with a small delay. At this time, when there are a plurality of other synchronization devices having an equally small delay, a higher priority is given to the other synchronization device having a small delay fluctuation (jitter). Here, an equivalent priority may be given to a reference device with a small delay fluctuation. And, for example, another synchronization device / reference device that can be expected to have higher synchronization accuracy, for example, whether the synchronization establishment method is via a network, by GPS, or by broadcast Accordingly, a priority order may be determined. Furthermore, the higher the stability of the oscillator of the other synchronization device or reference device, the higher priority can be given.

  The switching control unit 304 controls the synchronization establishing unit 301 according to the selection of the synchronization destination determination unit 303 to switch the synchronization destination device. For example, when switching the synchronization destination device, the switching control unit 304 switches the frequency with the synchronization destination device before switching until the establishment of time synchronization with the synchronization destination device after switching is completed. Control can be performed so as to maintain synchronization.

  The synchronization request unit 305 requests other synchronization devices to distribute a synchronization reference signal. When the control device 105 transmits a reference signal distribution instruction in each synchronization device, the synchronization request unit 305 may not exist in the synchronization device.

  The reference signal distribution unit 306 distributes a reference signal for synchronization to other synchronization devices in accordance with the time synchronization established by the synchronization establishment unit 301. For example, the reference signal distribution unit 306 distributes the reference signal when a reference signal distribution request is received from another synchronization device or when a reference signal distribution instruction is received from the control device 105. The reference signal distribution unit 306 does not immediately distribute the reference signal in response to receiving the reference signal distribution request from another synchronization device, but first, by information indicating that the reference signal can be distributed, You may respond to other synchronizers. By receiving this response, other synchronizers may measure, for example, the round trip time and select which synchronizer to establish synchronization with. The reference signal distribution unit 306 can distribute the reference signal when, for example, a reference signal distribution start instruction transmitted from another synchronization apparatus according to the selection result is received. When another synchronization device decides not to establish synchronization with the synchronization device after receiving the signal from the synchronization device, it sends a signal instructing the synchronization device not to distribute the reference signal. However, when establishing synchronization with the synchronization device, it is not necessary to transmit a signal. In this case, the reference signal distribution unit 306, when a signal including an instruction from another synchronization device is not received during a predetermined period after transmission of the signal indicating that the Hanshin of the reference signal is possible, Reference signal delivery may begin. Note that the reference signal distribution unit 306 may periodically distribute a signal indicating that the reference signal can be distributed while the synchronization establishment unit 301 establishes direct synchronization with the reference device.

  In addition, the reference signal distribution unit 306 stops the distribution of the reference signal when receiving a reference signal distribution stop request from another synchronization device or when receiving a reference signal distribution stop instruction from the control device 105. sell. Note that the reference signal distribution unit 306 does not have to be provided in all the synchronization devices, and may be included in only some of the synchronization devices. A synchronization device that does not have the reference signal distribution unit 306 can be recognized by other synchronization devices as a device that cannot establish synchronization.

  FIG. 4 shows a functional configuration example of the control device 105. The control device 105 includes, for example, a synchronization state acquisition unit 401, a synchronization destination selection unit 402, and an instruction notification unit 403 as functional configurations. Note that the control device 105 does not have to have all of these functional configurations, and some of these functional configurations may be omitted. The control device 105 may have functions other than these functional configurations.

  The synchronization state acquisition unit 401 acquires the synchronization state in each synchronization device. The synchronization state acquisition unit 401 determines, for example, whether a failure has occurred in the synchronization established in the synchronization device based on a notification from the synchronization device. In addition, the synchronization state acquisition unit 401 may estimate the synchronization state in each synchronization device by estimating whether synchronization with each reference device can be accurately established through signaling with each reference device. Further, the synchronization state acquisition unit 401 may determine whether time synchronization in each synchronization device has been accurately established by trying to establish synchronization for each synchronization device.

  The synchronization destination selection unit 402 selects a device with which the synchronization device should establish synchronization when there is a failure (inaccuracy) in synchronization established in a certain synchronization device. For example, in the example of FIG. 1, the synchronization destination selection unit 402 performs the first synchronization when a failure occurs in the synchronization between the first reference device 111 and the second reference device 112 in the first synchronization device 101. The third reference device 113 is selected as the device with which the device 101 should establish synchronization. Similarly, in the example of FIG. 1, the synchronization destination selection unit 402 selects the second when the synchronization between the first reference device 111 and the second reference device 112 in the second synchronization device 102 has failed. The first synchronization device 101 is selected as the device with which the synchronization device 102 should establish synchronization. Since these selection criteria are the same as the selection criteria in the synchronization destination determination unit 303 described above, detailed description thereof is omitted.

  The instruction notification unit 403 transmits an instruction signal including a result of selection by the synchronization destination selection unit 402 to the synchronization device that should switch the synchronization destination device.

(Process flow)
Next, the flow of processing executed by the synchronization device will be described with reference to FIG. First, the synchronization device selects a synchronization destination device that initially establishes time synchronization, for example, at startup (S501). At this time, for example, the synchronization device selects one reference device from among the reference devices that can establish time synchronization. For example, when the synchronization accuracy by the first reference device 111 or the second reference device 112 is higher than the synchronization accuracy by the third reference device 113, the first synchronization device 101 of FIG. Is selected as the synchronization destination device. When the control device 105 exists, the control device 105 manages information on a reference device with which the synchronization device itself can establish synchronization, and the control device 105 selects a synchronization destination device. It will be. In this case, the synchronization device receives an instruction including the result of selection by the control device 105 and determines a synchronization destination device. Thereafter, the synchronization device establishes time synchronization with the selected synchronization destination device (S502).

  The synchronization device determines whether to switch the synchronization destination device while establishing synchronization (S503). For example, the synchronization device determines whether or not a failure has occurred such as inaccurate time synchronization that is currently established. If the failure has occurred, the synchronization device determines to switch the synchronization destination. Further, the synchronization device may determine that the synchronization destination is to be switched when there is a device capable of establishing synchronization with higher accuracy than the synchronization destination device currently establishing synchronization. For example, the first synchronization apparatus 101 may be synchronized when congestion is resolved after switching the synchronization destination apparatus from the first reference apparatus 111 or the second reference apparatus 112 to the third reference apparatus 113 due to congestion. The previous device can be returned to the first reference device 111 or the second reference device 112.

  When switching the synchronization destination (YES in S503), the synchronization device can directly establish synchronization with a reference device that is different from the device that currently establishes synchronization without going through another synchronization device. Is determined (S504). If it is determined that the synchronization device can establish direct synchronization with a reference device that is different from the device that is currently establishing direct synchronization (YES in S504), the synchronization device is the synchronization destination device after switching. The reference device is selected (S505). On the other hand, if it is determined that the synchronization device cannot establish direct synchronization with a reference device that is different from the device that is currently establishing direct synchronization (NO in S504), the synchronization device is the synchronization destination device after switching. Then, another synchronization device is selected (S506). The synchronization device can select a synchronization destination device, for example, according to any of the above-described methods.

  Thereafter, the synchronization device establishes synchronization with the selected synchronization destination device (S507). Note that the synchronization device may maintain frequency synchronization with the synchronization destination device before switching until the time synchronization with the synchronization destination device after switching is established. This makes it possible to prevent the synchronization device from operating in a state where no synchronization is established.

  In the example of FIG. 1, the first synchronization device 101 currently establishes direct synchronization with the first reference device 111 or the second reference device 112, and a reference that allows direct synchronization when switching the synchronization destination device. As a device, there is a third reference device 113. For this reason, the first synchronization apparatus 101 selects the third reference apparatus 113 as the synchronization destination apparatus after switching. On the other hand, the second synchronization device 102 and the third synchronization device 103 are currently directly synchronized with the first reference device 111 or the second reference device 112, and can be directly synchronized when the synchronization destination device is switched. There is no such reference device. For this reason, the second synchronization device 102 and the third synchronization device 103 select another synchronization device as the synchronization destination device after switching. For example, it is assumed that the fourth synchronization device 104 establishes synchronization with the first reference device 111 or the second reference device 112 via the third synchronization device 103. Here, the fourth synchronization device 104 determines to switch the synchronization destination device when a failure occurs in synchronization between the third synchronization device 103 and the first reference device 111 or the second reference device 112. obtain. At this time, the fourth synchronization device 104 currently establishes synchronization with the first reference device 111 or the second reference device 112 via the third synchronization device 103, but in the determination of S504, direct synchronization is established. The determination is made for a device other than the third synchronization device 103 that is being operated. For this reason, if the fourth synchronization device 104 can directly establish synchronization with the first reference device 111 or the second reference device 112, the reference devices after switching are switched. It can be selected as a synchronization destination device.

  Note that the processing of S503 to S506 may be performed by the control device 105 when the control device 105 exists. In this case, the control device 105 monitors the synchronization state in each synchronization device by notification from each synchronization device or independently, and determines whether each synchronization device should switch the synchronization destination (S503). Then, when there is a synchronization device that should switch the synchronization destination device, the control device 105 determines whether the synchronization device establishes direct synchronization with a reference device that is different from the device that is currently establishing synchronization. (S504). The control device 105 manages information on devices that can be synchronized by each synchronization device and information on devices that are currently established synchronization, and based on the information managed, The determination of S504 can be performed. If the control device 105 determines that the synchronization device whose synchronization destination is to be switched can establish direct synchronization with the reference device (YES in S504), the control device 105 is the synchronization destination device after the synchronization device is switched. The reference device is selected (S505). On the other hand, if the control device 105 determines that the synchronization device to which the synchronization destination is to be switched cannot directly establish synchronization with the reference device (NO in S504), the control device 105 is the synchronization destination device after the switching of the synchronization device. Then, another synchronization device is selected (S506). Note that the control device 105 can select a synchronization destination device, for example, according to any of the methods described above. Thereafter, the control device 105 transmits a synchronization destination switching instruction including the selection result to the synchronization device. Then, according to the instruction, the synchronization device establishes synchronization with the device selected by the control device 105 (S507).

  The synchronization device can perform each of the above-described processes by selecting which of the reference signals received from a plurality of synchronization destination candidate devices is used as a reference signal for establishing synchronization. That is, the synchronization device selects a synchronization destination device by selecting which device the reference signal is used for establishing synchronization when receiving a reference signal from each of a plurality of devices. The synchronization destination determination unit 303 or the synchronization destination selection unit 402 is, for example, any one of a reference signal transferred via another synchronization device and a reference signal transmitted from the reference device without passing through another synchronization device. Is used to establish synchronization. This selection is performed in the same manner as the selection of the synchronization destination device described above. For example, the synchronization establishment unit 301 does not pass through the reference signal transferred from another synchronization device and the other synchronization device by the selection of the synchronization destination determination unit 303 or the synchronization destination selection unit 402 and the control of the switching control unit 304. Synchronization with the reference signal received from the reference device. As described above, identification, switching, selection, and establishment of synchronization are performed by selecting which of the reference signals received (can be received) from a plurality of devices to establish synchronization. Can be made based on.

  As described above, the synchronization device according to the present embodiment establishes synchronization with the reference device via the other synchronization device when the synchronization cannot be directly established with the reference device without the other synchronization device. . In addition, if the synchronization device can establish direct synchronization with the reference device, the synchronization device relays the reference signal (delivery of the reference signal in time synchronization with the reference device) while establishing time synchronization with the reference device. By doing so, it assists the establishment of synchronization by other synchronization devices. Accordingly, the synchronization device can continuously establish synchronization with the reference device even in an environment where direct synchronization with the reference device cannot be established. Further, as described above, the synchronization device maintains frequency synchronization with the synchronization destination device before switching until the time synchronization with the synchronization destination device after switching is established when switching the synchronization destination device. . This makes it possible to prevent the synchronization device from entering a state where no synchronization is established during the switching process.

Claims (15)

A synchronization device,
Based on the received reference signal, with or without another synchronization device establishing time synchronization with a reference device providing a time reference, with or without the other synchronization device Establishing means for establishing said synchronization;
When establishing the synchronization with the reference device, the synchronization is established based on the reference signal received via the other synchronization device, or received without passing through the other synchronization device. Determining means for determining whether to establish the synchronization based on:
When establishing the synchronization based on the reference signal received via the other synchronization device, the synchronization is established via the other synchronization device so as to establish the synchronization based on the reference signal received from the other synchronization device. Control means for controlling the establishment means so as to establish the synchronization based on the reference signal received from the reference device when establishing the synchronization based on the received reference signal,
Have
When the synchronization accuracy does not satisfy a predetermined criterion when the synchronization is established based on a reference signal that is affected by the congestion of the network that is received without passing through the other synchronization device and is affected by the synchronization accuracy. Determining to establish the synchronization based on a reference signal received via the other synchronization device;
A synchronizer. The synchronization device further comprises a detecting means for detecting that a failure has occurred in the synchronization with the device that has established the synchronization,
The determination means that a failure has occurred in the synchronization while the synchronization device has established the synchronization based on a reference signal received from the reference device without passing through the other synchronization device. In the case where the synchronization can be established based on a reference signal received without passing through the other synchronization device between the synchronization device and another reference device different from the reference device, Determining to establish the synchronization with the other reference device based on a reference signal received without passing through the other synchronization device;
The synchronization device according to claim 1, wherein: The determination means may be configured to pass through the second other synchronization device when there is no reference device that can establish the synchronization based on the reference signal received without passing through the other synchronization device. Determining to establish the synchronization based on a reference signal received from a first other synchronization device capable of establishing synchronization with the reference device of
The synchronizing device according to claim 1 or 2, characterized in that. The determination means may be configured to pass through the second other synchronization device when there is no reference device that can establish the synchronization based on the reference signal received without passing through the other synchronization device. When there are a plurality of first other synchronization devices that can establish the synchronization with the reference device, the synchronization is performed based on the time related to the communication with the synchronization device among the plurality of first other synchronization devices. Select the device that should be the source of the reference signal used when establishing
The synchronizing device according to claim 3. The determination unit establishes the synchronization based on a reference signal received via the other synchronization device according to an instruction from a control device that manages the device with which the synchronization device can establish the synchronization, or Determining whether to establish the synchronization based on a reference signal received without going through another synchronization device;
The synchronization device according to claim 1, wherein: Detecting means for detecting that a failure has occurred in the synchronization with the device in which the synchronization device has established the synchronization;
A notification means for notifying the control device of the occurrence of the failure when it is detected that the failure has occurred;
Further comprising
In response to receiving the notification, the control device selects a device to be a source of the reference signal used when establishing the synchronization from among devices that the synchronization device can receive the reference signal. Transmitting the instruction including the result of the selection to the synchronization device;
The synchronizing device according to claim 5, wherein: When the reference signal used for establishing the synchronization is switched, the control means synchronizes the frequency based on the reference signal before switching until the time synchronization based on the reference signal after switching is established. To maintain the
The synchronization device according to any one of claims 1 to 6, wherein the synchronization device is characterized in that: When it is determined that the synchronization is to be established based on the reference signal received via the other synchronization device, the control means determines the reference signal used when establishing the synchronization with respect to the other synchronization device. Request delivery,
The synchronization device according to claim 1, wherein In response to receiving a signal indicating that the reference signal can be distributed from the other synchronization apparatus that has requested the distribution of the reference signal, the control means receives the reference signal received from the other synchronization apparatus. Controlling the establishing means to establish the synchronization based on:
The synchronizing device according to claim 8. Further comprising a distribution means for distributing the reference signal to the other device in response to a request from the other device;
The synchronization device according to claim 1, wherein the synchronization device is characterized in that The distribution means transmits a signal indicating that a reference signal can be distributed when the establishment means has established the synchronization based on a reference signal received without going through the other synchronization device.
The synchronization device according to claim 10. Whether the determination unit establishes the synchronization based on a reference signal received via the other synchronization device, or establishes the synchronization based on a reference signal received without passing through the other synchronization device The determination is selection of a synchronization destination as to whether synchronization is established between the other synchronization device and the reference device.
The synchronization device according to any one of claims 1 to 11, wherein: A base station device included in a wireless communication network,
It has a synchronizer given in any 1 paragraph of Claims 1-12,
A base station apparatus. It has a synchronizer given in any 1 paragraph of Claims 1-12,
A network node characterized by that. Based on the received reference signal, with or without another synchronization device establishing time synchronization with a reference device providing a time reference, with or without the other synchronization device A method of controlling a synchronization device having establishment means for establishing the synchronization,
When the determination unit establishes the synchronization with the reference device, the determination unit establishes the synchronization based on the reference signal received through the other synchronization device or without using the other synchronization device. A determination step of determining whether to establish the synchronization based on a received reference signal;
When the control means establishes the synchronization based on the reference signal received via the other synchronization device, the other means so as to establish the synchronization based on the reference signal received from the other synchronization device. A control step for controlling the establishing means to establish the synchronization based on the reference signal received from the reference device when the synchronization is established based on the reference signal received without passing through the synchronization device;
Have
In the determination step, when the synchronization accuracy does not satisfy a predetermined criterion when the synchronization is established based on a reference signal that is affected by the congestion of the network received without passing through the other synchronization device. Determining to establish the synchronization based on a reference signal received via the other synchronization device;
A control method characterized by that.

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