JP2011114616A - Synchronization system, synchronization information supply device, synchronization device, and synchronization method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce delay difference to be generated by passing through a different transmission path when a synchronization device receives time information and timing information to be supplied from a synchronization information supply device. <P>SOLUTION: The synchronization system is constituted of: a supply device which transmits ToD and 1pps from a GPS receiver; and the synchronization device which performs synchronization by receiving ToD and 1pps. The supply device is provided with: a GPS reception module which generates ToD and 1pps; a ToD transmitting section; and a 1pps transmitting section, the synchronization device is provided with: a ToD receiving section which receives ToD; a signal receiving section which receives 1pps; and a round-trip ToD transmitting section which transmits round-trip ToD on the basis of the received ToD. The supply device receives the round-trip ToD, estimates a delay amount of timing which the ToD receiving section receives with respect to transmission timing by the ToD transmitting section on the basis of 1pps at which ToD is transmitted and 1pps at which the round-trip ToD is received, and converts information generated by an information generation section into information according to the delay amount to be transmitted from the ToD transmitting section. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a synchronization information supply device, a synchronization device synchronized with synchronization information supplied from the synchronization information supply device, a synchronization system including the synchronization information supply device and the synchronization device, and a synchronization method.

  Many mobile communications (for example, IEEE 802.16 series (WiMAX), LTE, etc.) communicate between a communication terminal and a base station apparatus to another base station in a form in which communication is continued as the communication terminal moves. A technology called handover is used.

  In such a system, there is the convenience that arises because the relationship between the timings of signals transmitted between a plurality of base stations is maintained and synchronized regardless of the passage of time.

  In order to synchronize devices installed at different positions, such as synchronization between base stations, a supply device that generates and supplies a signal including synchronization information serving as a reference, and each of the aforementioned base stations are supplied. A synchronization device that generates a signal for performing synchronization based on information is required.

  In the prior art document (patent document), the GPS receiver receives the GPS signal from the GPS satellite, and receives the synchronization information and the master synchronization unit that supplies the synchronization information so that the GPS signal functions as a common temporal reference. There is a description of a method and apparatus for synchronizing with a plurality of base sites including a synchronization apparatus that synchronizes.

  JP 2000-232688

  In the system as described above, time information indicating the time for synchronization and timing information indicating the timing at which the time indicated by the time information is supplied from the synchronization information supply device. There may be a delay difference between information in the transmission path until reception.

  The synchronization system according to the present invention includes a synchronization information supply device that transmits an information signal including information for synchronization, a timing signal indicating a timing of synchronization, and the information by receiving the information signal and the timing signal. A synchronization system configured with a synchronization device that performs synchronization based on the timing, the synchronization information generation unit included in the synchronization information supply device that generates the information signal and the timing signal, and the synchronization information generation A transmission-side information signal transmission unit that transmits the information signal generated by a unit; a supply-side timing signal transmission unit that transmits a timing signal generated by the synchronization information generation unit; and the information transmission unit included in the synchronization device The synchronization side information receiving unit that receives the information signal transmitted by the receiver and the synchronization that receives the timing signal transmitted by the timing signal transmitting unit A timing signal receiving unit; a synchronization side information signal transmitting unit that transmits a return information signal based on an information signal received by the synchronization side information receiving unit; and the synchronization side information signal transmitting unit included in the synchronization information supply device A supply-side information signal reception unit that receives the transmitted return information signal, a timing at which the supply-side information signal transmission unit transmits the information signal, and a timing at which the supply-side information signal reception unit receives the return information signal Based on the transmission timing of the supply side information signal transmission unit, the delay amount of the timing received by the synchronization side information signal reception unit is estimated, and the information generated by the synchronization information generation unit is information corresponding to the delay amount And a supply-side control unit that performs control to transmit from the supply-side information signal transmission unit.

  Still further, the synchronization device further includes acquisition means for acquiring delay information based on the delay amount, and the synchronization-side control unit is configured such that the timing of the information signal received by the synchronization-side information signal reception unit is the delay information. Control may be performed such that synchronization based on the synchronization information is not performed when the value is larger than a predetermined value.

  Furthermore, the synchronization side information signal receiving unit further includes a network connection detection unit that detects that the information signal can be received from the communication network, and the synchronization side control unit indicates that the detection has been made. Notification may be made to the synchronization information supply device, and the synchronization information supply device may control to execute the estimation of the delay amount based on the notification.

  The synchronization device further includes acquisition means for acquiring delay information based on the delay amount, and when the timing of the information signal received by the synchronization side information signal receiving unit is greater than the delay information by a predetermined amount or more, the synchronization side The control unit may notify the synchronization information supply device that the delay amount estimation is to be executed, and the synchronization information supply device may control to execute the delay amount estimation based on the notification. .

  The synchronization information supply apparatus according to the present invention is a synchronization information supply apparatus that transmits an information signal including information for synchronization and a timing signal indicating a synchronization timing, and the synchronization information generating apparatus generates the information signal and the synchronization signal. An information generation unit, a supply side information signal transmission unit that transmits the information signal generated by the synchronization information generation unit, a supply side timing signal transmission unit that transmits a timing signal generated by the synchronization information generation unit, and the synchronization In the information supply device, a supply-side information signal receiving unit that receives a return information signal that is an information signal that is returned from the supply-side information signal transmission unit; and a timing at which the supply-side information signal transmission unit transmits an information signal; , Based on the timing at which the supply side information signal receiving unit receives the return information signal, the transmission side information signal transmission unit The amount of delay of the timing received by the synchronization side information signal receiving unit is estimated, and the information generated by the synchronization information generation unit is converted into information corresponding to the amount of delay and transmitted from the supply side information signal transmission unit And a supply-side control unit that controls the operation.

  The synchronization device according to the present invention is a synchronization device that performs synchronization based on the information and the timing by receiving an information signal including information for synchronization and a timing signal indicating the timing of synchronization. A synchronization-side information reception unit that receives a signal; a synchronization-side timing signal reception unit that receives a timing signal; and a synchronization-side information signal transmission unit that transmits a loopback information signal based on the information signal received by the synchronization-side information reception unit; , Including.

  The synchronization method according to the present invention includes a synchronization information supply device that transmits an information signal including information for synchronization and a timing signal indicating a timing of synchronization, and the information by receiving the information signal and the timing signal. A synchronization method in a synchronization system including a synchronization device that performs synchronization based on the timing, wherein the synchronization information supply device generates the information signal and the timing signal, and the synchronization information generation unit Transmitting the generated information signal, transmitting the timing signal generated by the synchronization information generating unit, receiving the information signal transmitted by the information transmitting unit in the synchronization device, A step of receiving a timing signal transmitted by the timing signal transmitter, and information received by the synchronization information receiver A return information signal based on the signal, a step of receiving a return information signal transmitted from the synchronization side information signal transmission unit in the synchronization information supply device, and a supply side information signal transmission unit receiving the information signal. Based on the transmission timing and the timing at which the supply side information signal reception unit receives the loopback information signal, the delay of the timing at which the synchronization side information signal reception unit receives the transmission timing of the supply side information signal transmission unit And estimating the amount and converting the information generated by the synchronization information generation unit into information corresponding to the delay amount and transmitting the information from the supply side information signal transmission unit.

  As described above, according to the present invention, it is possible to reduce a delay difference that occurs when time information and timing information pass through different paths.

It is a block diagram of the synchronous system which concerns on embodiment of this invention. 1 is a configuration block diagram of a synchronization information supply device according to an embodiment of the present invention. 1 is a configuration block diagram of a synchronization device according to an embodiment of the present invention. It is the figure which showed the example of the exchange performed between the synchronous information supply apparatus which concerns on the 1st Embodiment of this invention, and a synchronous apparatus. It is the figure which showed the example of the exchange performed between the synchronous information supply apparatus which concerns on the 2nd Embodiment of this invention, and a synchronous apparatus. It is a flowchart which shows the process sequence of a synchronous information supply apparatus in embodiment of this invention. It is a part of flowchart which shows the process sequence of a synchronous information supply apparatus in embodiment of this invention. It is a flowchart which shows the process sequence of a synchronizer in embodiment of this invention. It is a part of flowchart which shows the process sequence of a synchronizer in embodiment of this invention.

(Configuration according to the first embodiment of the present invention)
Hereinafter, the configuration and operation (procedure) of the present invention will be described with reference to the drawings.

  FIG. 1 is a configuration diagram of a synchronization system 10 according to an embodiment of the present invention.

  The synchronization information supply apparatus 100 acquires time information by receiving a radio signal from the GPS satellite 50.

  The synchronization information supply device 100, based on the acquired time information, synchronization information including time information (for example, GPS signal ToD: Time of Day) and timing information (for example, GPS signal) indicating the timing of the time indicated by the synchronization information. 1 pps: pulse per second).

  The synchronization information supply apparatus 100 is connected to the communication network 300-1, and transmits the synchronization information to the communication network 300-1.

  Synchronous device 200 (same as 200-1, 200-2, 200-3) is connected to communication network 300-1.

  The synchronization information transmitted by the synchronization information supply apparatus 100 is supplied to the synchronization apparatus 200 via the communication network 300-1.

  The synchronization information supply apparatus 100 generates a timing signal in which timing information is applied to a change in signal waveform (for example, a rising or falling edge of a signal waveform in the case of a digital signal), and a timing signal transmission line 350 (350) dedicated to the timing signal. -1, 350-2, 350-3, 350-4).

  The timing signal transmission line 350 is connected to the synchronization device 200 and the distributor 400.

  The timing signal transmitted by the synchronization information supply device 100 is supplied to the synchronization device 200 via the timing signal transmission line 350.

  Further, the distributor 400 divides the timing signal into a plurality of signals, and each of them is divided into individual synchronization devices 200 (200-2, FIG. 1) via different timing signal transmission lines 350 (350-2 or 350-3 in FIG. Or distribute to 200-3).

  The synchronization information supply apparatus 100 can exchange information with the synchronization apparatus 200 via the communication network 300-1.

  Among these pieces of information, the information transmitted from the synchronization information supply apparatus 100 to the synchronization apparatus 200 can be exchanged back to the synchronization information supply apparatus 100 by returning the information transmitted from the synchronization apparatus 200 to the communication network 300. .

Embodiments of the network 300-1 that mediates when the synchronization information supply apparatus 100 and the synchronization apparatus 200 exchange information include the following.
(1). The synchronization information supply device 100 includes as many input / output ports as the number of connectable synchronization devices 200, and one synchronization device 200 input / output port is connected to one input / output boat of the synchronization information supply device 100. And exchanges information on a one-to-one basis.
(2). The synchronization information supply apparatus 100 exchanges information with each synchronization apparatus 200 by using an address (for example, an IP address) assigned to each synchronization apparatus 200 via a router or a server in the communication network 300-1. I do.
(3). The communication network 300-1 having the configuration (2) is connected to a wide area communication network (for example, the Internet network). The synchronization information supply device 100 is a device other than the synchronization device 200, or the synchronization device 200 is synchronization information. It is possible to exchange information with devices other than the supply device 100, respectively.

  A possible form of the communication network 300 to which the synchronization information supply apparatus 100 is connected may include a form in which another communication network 300-2 is connected in addition to the communication network 300-1.

  In this case, the synchronization device 200 may be configured to exchange information with devices other than the synchronization information supply device through the synchronization information supply device 100.

  The synchronization apparatus 200 is configured to be able to send back the timing signal transmitted from the synchronization information supply apparatus 100 to the synchronization apparatus 200 to the synchronization information supply apparatus 100 by returning the timing signal to the synchronization signal transmission path. May be.

  1 is configured as described above, the synchronization information can be provided from the synchronization information supply apparatus 100 to the synchronization apparatus 200.

  At this time, the communication network 300-1 to which the synchronization information is transmitted is a transmission line that is electrically different from the timing signal transmission line 350 that transmits the timing signal, and the communication protocol is also different.

  This difference causes a difference in the delay that occurs before the synchronization information and the timing signal are transmitted to the synchronization device 200.

  For example, the delay amount of the timing signal transmission line 350 shown in FIG. 1 is the line length and the transient of the element if the distributor 400 that electrically distributes the signal is a circuit composed of passive elements such as resistors, capacitors, and coils. This is the amount of delay due to response characteristics.

  On the other hand, in addition to the delay due to the transmission line similar to the timing signal, the synchronization information is affected by the delay caused by packet processing that occurs when passing through the network router device or server device on the communication network 300-1, that is, packet processing. receive.

  In addition, when information is exchanged with the synchronization information supply device 100 or the synchronization device 200 from a device connected to the communication network 300-1 or the communication network 300-2, fluctuations in the delay of the synchronization information may occur. There is.

  FIG. 2 is a configuration block diagram of the synchronization information supply apparatus 100 according to the embodiment of the present invention.

  Each configuration will be described below.

  The synchronization information generation unit 102 generates synchronization information and timing signals that the synchronization information supply apparatus 100 supplies to the synchronization apparatus 200.

  For example, when the synchronization information generation unit 102 generates synchronization information and a timing signal from information obtained by receiving a radio signal from a GPS satellite, the synchronization information can be ToD data and the timing signal can be a 1 pps signal.

  Both the synchronization information and the timing signal are supplied to the synchronization communication unit 103 (103-1, 103-2 in FIG. 2).

  The synchronous communication unit 103 is connected to one of a plurality of synchronization devices 200 via a line. For example, the synchronous communication unit 103-1 is connected to the synchronization device 200-1, and the synchronous communication unit 103-2 is connected to the synchronization device 200-2.

  FIG. 2 shows a configuration in the case where the communication network 300 and the timing signal transmission line 350 are connected for each synchronization device 200.

  Even if the synchronous communication units 103-1 and 103-2 are connected to the common communication network 300-1, the synchronization information includes address information for identifying the synchronous device 200 that is a communication partner, and the like. Even when communication is possible only with a specific synchronization device 200 (for example, an Internet protocol or the like), the same can be implemented. In this case, it can be interpreted that FIG. 2 shows the synchronous communication unit 103 separately for each address of the synchronous device 200 to be communicated for convenience.

  The synchronization communication unit 103 includes an information signal transmission unit 104 for transmitting synchronization information to the communication network 300.

  Further, the information signal transmission unit 104 includes a delay adjustment unit 112 that performs delay adjustment described later on the synchronization information.

  The synchronous communication unit 103 includes an information signal receiving unit 106 that receives information from the communication network 300. The information signal receiving unit 106 is used when receiving synchronization information returned by the synchronization device 200 when performing delay adjustment described later.

  The synchronous communication unit 103 includes a timing signal transmission unit 108 for transmitting a timing signal to the timing signal transmission line 350.

  The timing signal transmission unit includes a delay adjustment unit 114 described later.

  The synchronous communication unit 103 includes a timing signal receiving unit 110 that receives a signal from the timing signal transmission line 350. The timing signal receiving unit 110 is used when receiving a timing signal returned by the synchronization device 200 when performing delay adjustment described later.

  The synchronization information supply apparatus 100 includes a control unit 116 that controls and manages the synchronization information generation unit 102, the synchronization communication unit 103, and the components included therein.

  FIG. 3 is a configuration block diagram of the synchronization device 200 according to the embodiment of the present invention.

  The synchronization device 200 includes an information signal receiving unit 204 that receives synchronization information from the communication network 300.

  The information signal receiving unit 204 includes a delay adjusting unit 212 described later.

  The synchronization device 200 includes an information signal transmission unit 206 that transmits an information signal to the communication network 300.

  The synchronization device 200 includes an information signal loopback interrupter 218 that controls whether or not an information signal including synchronization information received by the information signal receiving unit 204 is sent to the information signal transmitting unit 206.

  The synchronization device 200 includes a timing signal receiving unit 208 that receives a timing signal from the timing signal transmission line 350.

  The timing signal receiving unit 208 includes a delay adjusting unit 214 described later.

  The synchronization device 200 includes a timing signal transmission unit 210 that transmits a timing signal to the timing signal transmission line 350.

  The synchronization device 200 includes a timing signal interrupter 220 that controls whether the timing signal received by the timing signal reception unit 208 is sent to the timing signal transmission unit 210.

  The synchronization device 200 receives the synchronization information received by the information signal receiving unit 204 and delay-adjusted by the delay adjusting unit 212, and the timing signal received by the timing signal receiving unit 208 and delay-adjusted by the delay adjusting unit 214. There is a combining unit 202 that can be used as a pair in a portion that requires synchronization.

  The synchronization device 200 can obtain the synchronized simultaneous information among the plurality of synchronization devices 200 by using the synchronization information signal synthesized by the synthesis unit 202.

  3 includes a communication unit 240 as a device that uses synchronization information.

  The communication unit 240 can configure a base station of a communication scheme that provides handover as a service function, such as IEEE 802.16 series (WiMAX) or LTE.

  At this time, the communication unit 240 can send information obtained by wireless communication to another device via the communication network 300.

  The synchronization device 200 includes a control unit 216 that controls and manages the components configuring the synchronization device 200 described above.

  FIG. 4 is a diagram illustrating an example of an exchange performed between the synchronization information supply device 100 and the synchronization device 200 according to the first embodiment of the present invention.

  Thereby, the delay amount of information transmission between the synchronization information supply device 100 and the synchronization device 200 is observed, an appropriate delay correction amount derived from the average value and distribution characteristics of the delay amount is determined, and the delay adjustment unit 112 described above is set. To reduce the effects of subsequent delays.

  The first embodiment is an exchange when the synchronization device 200 is first connected to the communication network 300 after the power is turned on.

  First, the synchronization apparatus 200 notifies the synchronization information supply apparatus 100 via the communication network 300 of “network connection information” indicating that the synchronization apparatus 200 has detected that it is connected to the communication network 300 (step 402).

  When receiving the notification, the synchronization information supply apparatus 100 transmits a delay sampling request to the synchronization apparatus 200 (step 404).

  When receiving the delay sampling request, the synchronization device 200 returns a delay sampling response based on the fact that the synchronization device 200 is ready to respond (step 406).

  In order for the synchronization device 200 to be ready for response, the control unit 216 in FIG. 3 described above connects the information signal loopback interrupter 218, and the information signal received by the information signal reception unit 204 is the information signal transmission unit 206. To be sent and sent.

  The synchronization information supply apparatus 100 starts measuring the delay amount upon receiving a delay sampling response from the synchronization apparatus 200.

  In order to measure the delay amount, the synchronization information supply apparatus 100 transmits a response request packet to the synchronization apparatus 200 (step 408).

  The synchronization device 200 transmits a response packet in response to receiving the response request packet (step S410).

  At this time, if the connection method of the communication network 300 is such that the synchronization information supply device 100 and the synchronization device 200 are connected one-to-one, the response packet is returned by connecting the information signal return interrupter. It may be a response request packet.

  Further, when the communication network 300 is shared by a plurality of synchronization devices 200, there is an address for identifying a plurality of synchronization devices 200 in the response request packet, and the synchronization device 200 individually includes a part of the response request packet addressed to itself. The flag may be changed, the header information may be rewritten, and the packet may be returned after being converted into a response packet.

  The synchronization information supply apparatus 100 measures and stores a period from the time when the response request packet is transmitted to the time when the response packet is received.

  Thereafter, a response request packet is transmitted from the synchronization information supply device 100 (step 412), and when the synchronization device 200 receives the response packet, a response packet is transmitted (step 414). The synchronization information supply device 100 stores the time measurement and the time measurement result. And the like are repeated a predetermined number of times (predetermined number: for example, 500 times).

  The synchronization information supply apparatus 100 halves the value of each time measurement when the time measurement results can be timed a predetermined number of times, because each time value is considered to be the time for the information signal to reciprocate through the communication network 300. The one-way required time is a delay time that occurs during transmission from the synchronization information supply apparatus 100 to the synchronization apparatus 200.

  From the delay time counted and stored a predetermined number of times, the synchronization information supply apparatus 100 estimates a delay time for transmission in consideration of a certain delay time.

  For the estimation of the delay time, for example, it is conceivable to use a value obtained by averaging the stored delay times after a predetermined number of times.

  In a configuration in which a plurality of accumulated packets may be delivered, such as when there is a server in the communication network 300, the response packet received first within the period of the timing signal may be timed and stored. .

  The delay time estimated in this way is set in the delay adjustment unit 112 described above.

  The delay adjustment unit 112 rewrites the synchronization information transmitted from the synchronization information supply device 100 to information that is advanced by the delay time so that the time indicated by the synchronization information is reached when the synchronization information is received by the synchronization device 200, Delay adjustment is performed by advancing the transmission timing of the synchronization information so that the information matches the timing signal at the receiving unit of the synchronization device 200.

  In the above description, the synchronization information is delayed on the synchronization information supply apparatus 100 side. However, the delay information is passed to the synchronization apparatus 200 (step 416), and the delay is adjusted by the delay adjustment unit 212 provided in the synchronization apparatus 200. You may adjust it.

  Although the example of adjusting the delay of the synchronization method has been described above, the delay time may be similarly estimated for the timing signal, and the delay adjustment unit 114 or the delay adjustment unit 214 may perform the delay adjustment.

  FIG. 5 is a diagram illustrating an example of an exchange performed between the synchronization information supply device 100 and the synchronization device 200 according to the second embodiment of the present invention.

  In the description of this embodiment, a description overlapping with the above-described first embodiment is omitted.

  As a difference from the first embodiment, in the first embodiment, the start factor of the delay time estimation procedure is based on the fact that the synchronization device 200 is connected to the communication network 300, but in the second embodiment, This is based on a delay abnormality detected by the synchronization device 200 during connection to the communication network 300.

  In the case of a system in which a plurality of devices are connected to the communication network 300, the delay time described above may vary due to the influence of communication traffic with other communication devices.

  Therefore, when the synthesizing unit 202 of the synchronization apparatus 200 monitors the relationship between the synchronization information after delay correction and the timing signal, and detects a deviation of a predetermined amount or more (for example, 1 pps signal period or more), the synchronization apparatus 200 Delay abnormality information is transmitted to the synchronization information supply apparatus 100 (step 502).

  Thereafter, the delay time estimation procedure is the same as that described with reference to FIG.

  FIG. 6 is a flowchart showing a processing procedure of the synchronization information supply apparatus 100 according to the embodiment of the present invention.

  When the synchronization information supply apparatus 100 is activated, it first tries to start transmission of synchronization information (step 602).

  At this time, transmission may be stopped depending on the situation, such as when the GPS receiver has not yet captured the satellite.

  Further, transmission may be performed after the subsequent delay adjustment can be set.

  A synchronization device connection detection process is performed (step 604). This processing may be, for example, an operation of confirming whether a signal that can be received from the communication network 300 includes information from the synchronization device 200.

  It is determined whether or not the synchronization device 200 can be detected (step 606), and if it can be detected, delay adjustment processing 1 (step 608) is performed. This process will be described later with reference to FIG.

  Among the operations performed by the synchronization information supply apparatus 100, there is a process with no description as another process (step 610).

  The delay adjustment effectiveness check (step 612) is a process of collecting information for checking whether the delay adjustment amount is not appropriate due to a time change or an environment change over time after the delay adjustment is performed. is there.

  If the determination of whether the delay adjustment is valid (step 614) is Yes, the process returns to the other process (step 610) and the process as the synchronization information providing apparatus is continued. If the determination is No, in the delay adjustment error processing (step 616), processing such as notifying the synchronization device 200 of a delay adjustment error is performed. Thereafter, the process returns to the synchronization device connection detection process (step 604), and delay adjustment is attempted again.

  FIG. 7 is a part of a flowchart showing a processing procedure of the synchronization information supply apparatus 100 according to the embodiment of the present invention.

  The delay adjustment process 1 is a subroutine called from step 608 in FIG.

  A delay sampling request is transmitted to the synchronization device 200 (step 622).

  Processing for detecting a delayed sampling response is performed (step 624).

  The detection of the delayed sampling response is determined (step 626). If not detected, the process returns to step 622.

  If it can be detected, the delay amount estimation process with the synchronization device 200 is started.

  In the estimation of the delay amount, a counter that counts the number of times of exchange is initialized (step 628).

  The synchronization information supply apparatus 100 sends a response request transmission (step 630) and receives a response packet (step 632).

  The synchronization information supply apparatus 100 counts up (step 634).

  It is determined whether the predetermined number of times has been executed (step 636). If the predetermined number of times (500 in FIG. 7) is not reached, the process returns to step 630. When the number of times is satisfied, the delay amount is estimated by processing the collected delay information (step 640).

  Ends the subroutine and returns to the calling process.

  FIG. 8 is a flowchart showing a processing procedure of the synchronization apparatus 200 according to the embodiment of the present invention.

  First, a flag used for processing is initialized (step 702). The delay adjustment information is a flag indicating whether the delay adjustment information is earned or not. The delay anomaly information is a flag indicating whether or not a problem is detected in the current delay adjustment device due to changes in the communication network 300 over time or environmental changes.

  The NW (communication network 300) connection detection process detects whether or not the synchronization device 200 is connected to the communication network 300 (step 704).

  Judgment of whether or not NW connection is made (step 706).

  If Yes in step 706, the presence / absence of delay status information and the presence / absence of delay abnormality information are determined (step 708).

  If Yes in step 708, the process proceeds to the delay amount monitoring process (step 714).

  If NO in step 708, the flow advances to delay adjustment processing 2 (step 710). Note that the processing in step 710 will be described later with reference to FIG. Subsequently, the delay adjustment information flag is set to “present” and the delay abnormality information is set to “none” (step 712), and the process proceeds to the delay amount monitoring process (step 714).

  After step 714, it is determined whether the delay amount is smaller than a predetermined value (step 716). Thus, it is possible to prevent delay adjustment when the delay amount is extremely large (for example, 1 pps or more).

  If Yes, a delay adjustment process (step 718) is performed on the synchronization information received from the synchronization information supply apparatus 100. Note that this example is a case where the delay is not adjusted in the synchronization information supply apparatus 100, or a case where adjustment is performed by a delay amount coordinated by the synchronization information supply apparatus 100 and the synchronization apparatus 200. If the adjustment has been completed, step 714 is not performed.

  Subsequently, a synchronization process, which is a process for the synchronization apparatus 200 to synchronize with the delay-adjusted synchronization information, is performed (step 720).

  If the determination in step 716 is No, a delay abnormality detection process is performed (step 722). This is because the delay amount monitoring process (step 714) monitors errors such as an increase in delay amount for each synchronization information packet, whereas the delay amount abnormality detection process (step 722) causes errors continuously. The purpose of this is to determine whether the synchronization information should be temporarily ignored or whether delay adjustment should be performed again (step 724).

  If a delay abnormality is detected, the determination (step 724) is Yes, and the delay abnormality information flag is set to “abnormal”.

  If no delay abnormality is detected, the determination (step 724) is No.

  Subsequent to step 724 or step 726, self-running processing (step 728) is performed in which the synchronization information received by the synchronization device 200 is ignored.

  After step 720 or step 728, other processing (step 730) performed by the synchronization device 200 is executed, and the process returns to step 740.

  FIG. 9 is a part of a flowchart showing a processing procedure of the synchronization device 200 according to the embodiment of the present invention.

  The delay adjustment process 2 is a subroutine called from step 710 in FIG.

  First, NW (communication network 300) connection information is transmitted to the synchronization information supply apparatus 100 (step 752).

  Delay sampling request detection processing from the synchronization information supply apparatus 100 is performed (step 754).

  The detection of the delay sampling request is determined (step 756). If No, the process proceeds to step 754, and if Yes, the delay sampling response is transmitted (step 758).

  The iteration loop is performed a predetermined number of times (in this example, 500 times) (from step 760 to step 766).

  In the loop, response request packet reception processing is performed (step 762).

  Return transmission is performed in response packet transmission (step 764).

  Step 766 is the loop end.

  When delay adjustment is performed on the synchronization device 200 side, delay adjustment information is acquired from the synchronization information supply device 100 (step 768) by delay adjustment information acquisition processing (step 768).

  Return to the subroutine calling process (step 760).

10 ... Synchronization system,
50 ... GPS satellites,
100 ... synchronization information supply device,
200, 200-1, 200-2, 200-3 ... synchronization device,
300-1, 300-2 ... communication network,
350, 350-1, 350-2, 350-3 ... timing signal transmission line,
400 ... distributor,
102 ... synchronization information generation unit,
103, 103-1, 103-2 ... synchronous communication unit,
104 ... Information signal transmission unit,
106: Information signal receiver,
108 ... timing signal transmission unit,
110... Timing signal receiver,
112 ... Delay adjustment unit,
114 ... delay adjustment unit,
116... Control unit,
202... The synthesis unit,
204: Information signal receiver,
206: Information signal transmission unit,
208: Timing signal receiver,
210 ... timing signal transmission unit,
212 ... Delay adjustment unit,
214 ... delay adjustment unit,
216 ... control unit,
218: Information signal looping intermittent part,
220... Timing signal folding / interrupting section,
240 ... communication section,

Claims (7)

A synchronization information supply device that transmits an information signal including information for synchronization and a timing signal indicating a synchronization timing; and synchronization based on the information and the timing by receiving the information signal and the timing signal. A synchronization system configured with a synchronization device to perform,
A synchronization information generating unit for generating the information signal and the timing signal included in the synchronization information supply device;
A supply-side information signal transmitter that transmits the information signal generated by the synchronization information generator;
A supply side timing signal transmitting unit for transmitting the timing signal generated by the synchronization information generating unit;
Included in the synchronization device,
A synchronization-side information receiver that receives an information signal transmitted by the information transmitter;
A synchronization side timing signal receiving unit that receives the timing signal transmitted by the timing signal transmitting unit;
A synchronization side information signal transmission unit for transmitting a return information signal based on the information signal received by the synchronization side information reception unit;
Included in the synchronization information supply device,
A supply-side information signal receiver that receives the return information signal transmitted by the synchronization-side information signal transmitter;
The synchronization with respect to the transmission timing of the supply side information signal transmission unit based on the timing at which the supply side information signal transmission unit transmits the information signal and the timing at which the supply side information signal reception unit receives the return information signal Control is performed so as to estimate a delay amount of timing received by the side information signal receiving unit, convert the information generated by the synchronization information generation unit into information corresponding to the delay amount, and transmit the information from the supply side information signal transmission unit A supply-side control unit,
A synchronization system comprising: The synchronization device further includes acquisition means for acquiring delay information based on the delay amount,
The synchronization-side control unit performs control so as not to perform synchronization based on the synchronization information when a timing of an information signal received by the synchronization-side information signal reception unit is greater than or equal to the delay information by a predetermined amount or more. The synchronization system according to claim 1. The synchronization side information signal receiving unit further includes a network connection detecting unit for detecting that the information signal can be received from the communication network.
The synchronization side control unit notifies the synchronization information supply device of the detection, and the synchronization information supply device controls to execute the estimation of the delay amount based on the notification. Or the synchronous system in any one of 2. The synchronization device further includes acquisition means for acquiring delay information based on the delay amount,
When the timing of the information signal received by the synchronization side information signal receiving unit is greater than the delay information by a predetermined amount or more,
The synchronization-side control unit notifies the synchronization information supply device that the delay amount estimation is to be executed, and the synchronization information supply device performs control to execute the delay amount estimation based on the notification. The synchronization system according to any one of claims 1 to 3. (Synchronous information supply device)
A synchronization information supply device that transmits an information signal including information for synchronization and a timing signal indicating the timing of synchronization,
A synchronization information generator for generating the information signal and the timing signal;
A supply-side information signal transmitter that transmits the information signal generated by the synchronization information generator;
A supply side timing signal transmitting unit for transmitting the timing signal generated by the synchronization information generating unit;
In the synchronization information supply device,
A supply-side information signal receiving unit that receives a return information signal that is a folded information signal from the supply-side information signal transmission unit;
The synchronization with respect to the transmission timing of the supply side information signal transmission unit based on the timing at which the supply side information signal transmission unit transmits the information signal and the timing at which the supply side information signal reception unit receives the return information signal Control is performed so as to estimate a delay amount of timing received by the side information signal receiving unit, convert the information generated by the synchronization information generation unit into information corresponding to the delay amount, and transmit the information from the supply side information signal transmission unit A supply-side control unit,
A synchronization information supply device comprising: (Synchronizer)
A synchronization device that performs synchronization based on the information and the timing by receiving an information signal including information for synchronization and a timing signal indicating a synchronization timing,
A synchronization side information receiving unit for receiving the information signal;
A synchronous side timing signal receiving unit for receiving a timing signal;
A synchronization side information signal transmission unit for transmitting a return information signal based on the information signal received by the synchronization side information reception unit;
A synchronization device comprising: (Synchronization method.)
A synchronization information supply device that transmits an information signal including information for synchronization and a timing signal indicating a synchronization timing; and synchronization based on the information and the timing by receiving the information signal and the timing signal. A synchronization method in a synchronization system configured with a synchronization device to perform,
In the synchronization information supply device,
Generating the information signal and the timing signal;
Transmitting the information signal generated by the synchronization information generation unit;
Transmitting the timing signal generated by the synchronization information generating unit;
In the synchronization device,
Receiving an information signal transmitted by the information transmitting unit;
Receiving the timing signal transmitted by the timing signal transmitter;
Transmitting a return information signal based on the information signal received by the synchronization side information receiving unit;
In the synchronization information supply device,
Receiving the return information signal transmitted by the synchronization-side information signal transmitter;
The synchronization with respect to the transmission timing of the supply side information signal transmission unit based on the timing at which the supply side information signal transmission unit transmits the information signal and the timing at which the supply side information signal reception unit receives the return information signal Control is performed so as to estimate a delay amount of timing received by the side information signal receiving unit, convert the information generated by the synchronization information generation unit into information corresponding to the delay amount, and transmit the information from the supply side information signal transmission unit And steps to
Including a synchronization method.

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