JP2011151505A - Transmission processing system and line switching method used for the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a transmission processing system that allows line switching even when a transmission processing device for a working line cannot transmit a line-switching signal to a switch because of trouble or a failure of the transmission processing device. <P>SOLUTION: The transmission processing system (1) includes a transmission processing device (a) (11) for a working line and a transmission processing device (b) (12) for a spare line respectively having a SONET/SDH interface, and when line disturbance is detected in the working line in counter equipment, notifies the transmission processing device (a) (11) for the working line of a line switching signal by the APS byte from the transmission processing device (b) (12) for the spare line, and has an APS control device (14) that executes line switching by an APS function on behalf of the transmission processing device (a) (11) for the working line when trouble or a failure occurs in the transmission processing device (a) (11) for the working line. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a transmission processing system and a line switching method used therefor, and more particularly to a transmission processing system including a transmission processing apparatus having a SONET / SDH (Synchronous Optical Network / Synchronous Digital Hierarchy) interface.

  In recent years, an increasing number of transmission processing apparatuses have a SONET / SDH interface that is a line interface having a high-speed transmission band in order to cope with an increase in the traffic volume of transmission signals. In this case, a transmission processing apparatus having a SONET / SDH interface performs line switching by APS (Automatic Protection Switching) in order to improve the reliability and operability of the line connected to the SONET / SDH network.

  In addition, there is a transmission processing system in which the transmission processing capability is improved by mounting a plurality of transmission processing apparatuses that perform transmission processing in the system in order to cope with a further increase in traffic volume.

  When realizing an APS function in a transmission processing system equipped with a plurality of transmission processing devices, in an APS1 + 1 configuration with two transmission processing devices as one set, one for the working line and the other for the protection line By using this as a transmission processing device, when a failure occurs in the working line, the line is switched to the protection line. As this system, for example, there is a transmission processing system equipped with a plurality of transmission processing blades compliant with the ATCA (Advanced Telecom Computing Architecture) standard, and having two transmission processing blades as a set and having an APS1 + 1 function.

  FIG. 6 shows a processing operation for switching a line by the APS function in an APS1 + 1 configuration in which two transmission processing devices of a transmission processing system equipped with a plurality of transmission processing devices related to the present invention are set. explain.

  The transmission processing system 6 related to the present invention comprises a transmission processing device a61 for the working line, a transmission processing device b62 for the protection line, and a switch unit 63 for switching the transmission signal between the working line 3 and the protection line 4. Has been. Although the transmission processing device 2 exists on the opposite side of the transmission processing system 6, the transmission processing device 2 transmits a transmission circuit a21 for a working line, a transmission circuit b22 for a protection line, and a transmission signal in the apparatus. A switch unit 23 for switching between the working line 3 and the protection line 4 is provided.

  When the transmission circuit a21 of the transmission processing device 2 detects a failure of the working line 3, it notifies the transmission circuit b22 of the line failure. The transmission circuit b22 that has received the notification of the line failure transmits a line switching signal to the transmission processing system 6 via the protection line 4 using the APS byte (K1 byte, K2 byte) of the SONET / SDH frame.

  The transmission processing device b62 of the transmission processing system 6 analyzes the received APS byte and transmits a line switching signal to the transmission processing device a61. The transmission processing device a61 that has received the line switching signal confirms that the switching target line notified by the line switching signal is the same as the current working line 3, and transmits the line switch switching signal to the switch unit 63.

  The switch unit 63 switches the switch so as to receive the transmission signal from the transmission processing device b62 for the protection line. When the switch switching of the switch unit 63 is completed, the switch unit 63 notifies the transmission processing device b62 that the line switching has been completed. The transmission processing device b62 transmits an APS byte indicating the working line 3 for which the line switching has been completed to the transmission circuit b22 of the transmission processing device 2.

  When the transmission circuit b22 of the transmission processing device 2 receives the APS byte transmitted from the transmission processing device b62, the transmission circuit b22 analyzes the APS byte, extracts the line that has been switched by the transmission processing system 6, and notifies the transmission circuit a21. . The transmission circuit a21 confirms that the working line 3 in which the line failure is detected is the same as the line that has been switched, and transmits a line switch switching signal to the switch unit 23. The switch unit 23 switches the switch so as to receive the transmission signal from the transmission circuit b22 for the protection line.

  Also, in the following Patent Document 1, the opposite device detects in a device having a working line circuit having a SONET / SDH interface and a protection line circuit in the device, such as the transmission processing device 2 in FIG. When the line failure is notified to the protection line circuit via the protection line by the APS byte, the line switching signal is notified from the protection line circuit to the working line circuit. However, when a circuit for the working line fails, line switching is performed by another processing unit existing in the apparatus.

JP 2008-004993 A

  In the transmission processing system described above, there are the following problems in the line switching by the two transmission processing devices of the transmission processing system 6 having the APS 1 + 1 function and the line switching by the APS function shown in Patent Document 1.

  The first problem is that when the line switching signal notified by the APS byte is notified from the transmission processing device b62 for the protection line to the transmission processing device a61 for the working line, the transmission processing device a61 for the working line itself fails or If the line switching signal cannot be received from the transmission processing device b62 due to a failure, the line switching by the APS function cannot be performed.

  The second problem is that even if the transmission processing device a61 can receive the line switching signal from the transmission processing device b62, the APS function can be used when the line switching signal cannot be transmitted to the switch unit 63 due to a failure or failure. This means that line switching cannot be performed.

  A third problem is that, as shown in Japanese Patent Application Laid-Open No. H10-228707, a device for performing line switching processing instead of another processing unit existing in the apparatus when the circuit for the working line fails in the line switching notified by the APS byte. In this case, the line cannot be switched by the APS function when the apparatus itself cannot operate due to a failure of another processing unit or a power failure of the apparatus.

  That is, as a transmission processing apparatus having a SONET / SDH interface, there is a transmission processing system that improves the transmission processing capability by installing a plurality of transmission processing apparatuses. When configuring the APS 1 + 1 in which two transmission processing devices mounted on this transmission processing system are set, one is used for the working line and the other is used for the protection line. At that time, when a failure occurs in the working line of the SONET / SDH network and the line is switched to the protection line, the line switching signal notified by the APS byte to the transmission line for the protection line is transmitted to the protection line. The line is switched by notifying the transmission processing apparatus for the working line from the apparatus.

  However, when the transmission processing apparatus for the working line fails or fails, the line switching signal notified by the APS byte from the transmission processing apparatus for the protection line cannot be processed, so that the line cannot be switched. There is a problem.

  Therefore, the object of the present invention is to solve the above-mentioned problems and to perform line switching even when the transmission processing apparatus for the working line cannot transmit a line switch switching signal to the switch unit due to a failure or failure. It is an object of the present invention to provide a transmission processing system and a line switching method used therefor.

The transmission processing system according to the present invention includes a transmission processing device for a working line and a protection line having a SONET / SDH (Synchronous Optical NETwork / Synchronous Digital Hierarchy) interface. A transmission processing system for notifying a line switching signal from an APS (Automatic Protection Switching) byte to a transmission processing apparatus for a working line from a transmission processing apparatus for a protection line,
An APS control device is provided that performs line switching by the APS function instead of the transmission processing device for the working line when the transmission processing device for the working line is in failure or failure.

The line switching method according to the present invention includes a transmission processing apparatus for a working line and a protection line having a SONET / SDH (Synchronous Optical Network / Synchronous Digital Hierarchy) interface. A line switching method used in a transmission processing system for notifying a line switching signal from an APS (Automatic Protection Switching) byte to a transmission processing apparatus for a working line from a transmission processing apparatus for a protection line,
The transmission processing system is provided with an APS control device that performs line switching by the APS function in place of the transmission processing device for the working line when the transmission processing device for the working line is in failure or failure.

  The present invention is configured and operated as described above, so that line switching can be performed even when the transmission processing apparatus for the working line cannot transmit a line switch switching signal to the switch unit due to a failure or failure. The effect that it can be obtained.

It is a block diagram which shows the structural example of the transmission processing system by the 1st Embodiment of this invention. It is a sequence chart which shows operation | movement of the transmission processing system 1 by the 1st Embodiment of this invention. It is a block diagram which shows the structural example of the transmission processing system by the 2nd Embodiment of this invention. It is a sequence chart which shows operation | movement of the transmission processing system 1 by the 2nd Embodiment of this invention. It is a sequence chart which shows operation | movement of the transmission processing system 1 by the 2nd Embodiment of this invention. It is a block diagram which shows the structural example of the transmission processing system relevant to this invention.

  Next, embodiments of the present invention will be described with reference to the drawings. First, an outline of a transmission processing system according to the present invention will be described. In the transmission processing system according to the present invention, the same information as the line switching signal notified from the transmission processing apparatus for the protection line to the transmission processing apparatus for the working line using an APS (Automatic Protection Switching) byte is transmitted in the transmission processing system. By notifying the APS controller, which is a separate device from the processing device, the transmission processing device for the working line cannot return a response due to a failure or failure, or the transmission processing device for the working line handles the line switching. If this is not possible, the APS controller switches the line by the APS function in place of the transmission processor for the working line.

  The transmission processing system according to the present invention notifies the APS controller of the same information as the line switching signal notified from the transmission processing apparatus for the protection line to the transmission processing apparatus for the working line. As a result, when the transmission processing device for the working line cannot return a response to the line switching signal notified by the APS byte due to a failure or failure, the APS controller notifies the APS byte instead of the transmission processing device for the working line. The line switching signal is processed to perform line switching.

  FIG. 1 is a block diagram showing a configuration example of a transmission processing system according to the first embodiment of the present invention. 1, the transmission processing system 1 includes a transmission processing device a11, a transmission processing device b12, a switch unit 13, and an APS control device 14. The transmission processing device 2 includes a transmission circuit a21, a transmission circuit b22, and a switch unit 23.

  The transmission processing device a11 of the transmission processing system 1 transmits and receives transmission signals using the working line 3 with the transmission processing device 2 of the SONET / SDH (Synchronous Optical Network / Synchronous Digital Hierarchy) network.

  The transmission processing apparatus 2 that has detected a line failure on the working line 3 transmits a line switching signal from the transmission circuit b22 via the protection line 4 using the APS byte (K1 byte, K2 byte) of the SONET / SDH frame.

  The transmission processing device b12 of the transmission processing system 1 that has received the APS byte analyzes the APS byte and transmits a line switching signal to the transmission processing device a11 and the APS control device 14.

  The APS control device 14 that has received the line switching signal transmits a device state confirmation signal to the transmission processing device a11. The transmission processing device a11 that has received the device state confirmation signal confirms the state of the device itself, and if there is a device failure or device failure, the transmission processing device a11 transmits a failure or failure to the APS control device 14 using the device state response signal. .

  The APS control device 14 that has confirmed that the transmission processing device a11 has failed by the device status response signal indicates that the switching target line notified from the transmission processing device b12 and the current working line 3 are replaced by the transmission processing device a11. After confirming that they are the same, a line switch switching signal is transmitted to the switch unit 13.

  The switch unit 13 that has received the line switch switching signal switches the switch so as to receive the transmission signal from the standby line transmission processing device b12, and transmits a line switch switching completion signal to the transmission processing device b12. The transmission processing device b12 transmits an APS byte indicating the working line 3 for which the line switching has been completed to the transmission circuit b22 of the transmission processing device 2.

  The transmission circuit b22 analyzes the APS byte (K1 byte, K2 byte) received from the transmission processing device b12, and notifies the transmission circuit a21 of the line that has been switched by the transmission processing system 1. The transmission circuit a21 confirms that the working line 3 in which the line failure has been detected is the same as the line that has been switched in the transmission processing system 1, and transmits a line switch switching signal to the switch unit 23. The switch unit 23 switches the switch so as to receive the transmission signal from the transmission circuit b22 for the protection line.

  Therefore, the transmission processing system 1 can perform line switching even when the transmission processing apparatus a11 has failed or failed, by the APS control apparatus 14 performing line switching processing in place of the transmission processing apparatus a11.

  FIG. 2 is a sequence chart showing the operation of the transmission processing system 1 according to the first embodiment of the present invention. The operation of the transmission processing system 1 according to the first embodiment of the present invention will be described with reference to FIG. 1 and FIG.

  Here, after the transmission processing device 2 detects a line failure on the working line 3, it transmits from the transmission circuit b22 via the protection line 4 using the APS byte (K1 byte, K2 byte) of the SONET / SDH frame. In addition, since the transmission processing device b12 of the transmission processing system 1 receives this transmitted line switching signal, the fact that the line switching has been completed in the transmission processing system 1 is transmitted from the transmission processing device b12 via the protection line 4 to the APS. The data is transmitted to the transmission circuit b22 of the transmission processing device 2 using bytes (K1 byte, K2 byte). Hereinafter, this series of operations will be described. Description of the operation on the transmission processing device 2 side is omitted.

  First, when the transmission processing device b12 of the transmission processing system 1 performs the APS byte (K1 byte, K2 byte) of the SONET / SDH frame via the protection line 4, it has received a line switching signal indicating a line switching request. A determination is made (S1 in FIG. 2).

  If the transmission processing device b12 does not detect a line switching request as a result of the determination, the transmission processing device b12 transits to an ASP byte reception waiting state. When the transmission processing device b12 detects a line switching request, the transmission processing device b12 transmits a line switching signal to the transmission processing device a11 and the APS control device 14 (S2 in FIG. 2).

  The APS control device 14 that has received the line switching signal starts APS control (S3 in FIG. 2), and transmits a device status confirmation signal to the transmission processing device a11 (S4 in FIG. 2). When the transmission processing device a11 receives the device state confirmation signal, the transmission processing device a11 confirms its own device state, and if there is a device failure or device failure, the transmission processing device a11 notifies the APS control device 14 of the failure or failure with the device state response signal. When the device status is normal, the APS control device 14 is notified of normality by a device status response signal (S5 in FIG. 2).

  The APS control device 14 that has received the device status response signal determines whether or not the transmission processing device a11 has failed or failed (S6 in FIG. 2). When the transmission processing device a11 determines that the transmission processing device a11 is normal, the APS control device 14 stops the line switching by the APS control (S7 in FIG. 2).

  When the transmission processing device a11 determines that the transmission processing device a11 is faulty or out of order, the APS control device 14 confirms that the switching target line notified from the transmission processing device b12 and the current working line 3 are the same, and the switch unit 13 A line switch switching signal is transmitted to (S8 in FIG. 2). In addition, when the APS control device 14 transmits a device state confirmation signal to the transmission processing device a11, the APS control device 14 waits for a device state confirmation response. However, if there is no device state confirmation response for a certain period of time, the transmission processing device a11 fails as a response timeout. (S6 in FIG. 2), a line switch switching signal is transmitted to the switch unit 13 (S8 in FIG. 2).

  The switch unit 13 that has received the line switch switching signal switches the switch so as to receive the transmission signal from the transmission processing apparatus b12 for the protection line (S9 in FIG. 2), and transmits a line switch switching completion signal to the transmission processing apparatus b12. (S10 in FIG. 2).

  The transmission processing apparatus b12 that has received the line switch switching completion signal transmits an APS byte indicating that the line switching has been completed from the working line 3 to the protection line 4 to the transmission processing apparatus 2 (S11 in FIG. 2).

  Thus, in this embodiment, when the transmission processing device a11 for the working line of the transmission processing system 1 cannot transmit a line switch switching signal to the switch unit 13 due to a failure or a failure, a failure is caused by a device status confirmation response. By notifying the APS control device 14 of the failure, the ASP control device 14 can perform line switching control instead, whereby the line switching of the transmission processing system 1 can be performed.

  In the present embodiment, when the transmission processing device a11 cannot receive the line switching signal from the transmission processing device b12 or cannot transmit the device status confirmation response, the APS control device 14 detects a timeout of the device status confirmation response. Then, the line switching of the transmission processing system 1 can be performed by controlling the line switching instead of the transmission processing apparatus a11.

  FIG. 3 is a block diagram showing a configuration example of a transmission processing system according to the second exemplary embodiment of the present invention. In FIG. 3, the transmission processing system 5 according to the second embodiment of the present invention includes an APS controller 14 and an APS controller b55 according to the first embodiment of the present invention shown in FIG. The configuration is the same as that of the transmission processing system 1 according to the first embodiment of the present invention except that it is replaced with the dual configuration, and the same components are denoted by the same reference numerals.

  In FIG. 3, the transmission processing system 5 includes a transmission processing device a51, a transmission processing device b52, a switch unit 53, an APS control device a54, and an ASP control device b55. The transmission processing device 2 includes a transmission circuit a21, a transmission circuit b22, and a switch unit 23.

  The transmission processing device a51 of the transmission processing system 5 transmits and receives transmission signals using the transmission processing device 2 of the SONET / SDH network and the working line 3. The transmission processing apparatus 2 that has detected a line failure on the working line 3 transmits a line switching signal from the transmission circuit b22 via the protection line 4 using the APS byte (K1 byte, K2 byte) of the SONET / SDH frame.

  The transmission processing device b52 of the transmission processing system 5 that has received the APS byte analyzes the APS byte and transmits a line switching signal to the transmission processing device a51 and the active APS control device a54.

  The APS control device a54 that has received the line switching signal transmits a device status confirmation signal to the transmission processing device a51. The transmission processing device a51 that has received the device state confirmation signal confirms the state of the device itself, and if there is a device failure or device failure, notifies the APS control device a54 of the failure or failure with a device state response signal.

  The APS control device a54 that has confirmed that the transmission processing device a51 has failed by the device status response signal indicates that the switching target line notified from the transmission processing device b52 and the current working line 3 are replaced by the transmission processing device a51. After confirming that they are the same, a line switch switching signal is transmitted to the switch unit 53.

  The switch unit 53 that has received the line switch switching signal switches the switch so as to receive the transmission signal from the transmission processing apparatus b52 for the protection line, and transmits a line switch switching completion signal to the transmission processing apparatus b52. The transmission processing device b52 transmits the APS byte indicating the working line 3 for which the line switching has been completed to the transmission circuit b22 of the transmission processing device 2.

  4 and 5 are sequence charts showing the operation of the transmission processing system 5 according to the second embodiment of the present invention. The operation of the transmission processing system 5 according to the second embodiment of the present invention will be described with reference to FIGS.

  First, in FIG. 4, when the transmission processing system 5 is activated, the APS controller a54 is set as a standby system, and the APS controller b55 is set as an active system. In this state, a status confirmation signal is transmitted from the standby APS controller a54 to the ASP controller b55 at a constant cycle (S20 in FIG. 4).

  The APS control device b55 that has received the status confirmation signal transmits a status confirmation response to the APS control device a54 (S21 in FIG. 4), but there is no status confirmation response for a certain period due to a failure or failure of the APS control device b55. The response time-out is determined (S22 in FIG. 4).

  When the state confirmation response is received from the APS control device b55 within a certain period, the APS control device a54 repeats the transmission of the state confirmation signal to the ASP control device b55 at a certain period.

  The APS control device a54 that has detected the response timeout of the status confirmation notification determines that the APS control device b55 is out of order, and transmits an active system switch notification for performing APS control to the transmission processing device a51 and the transmission processing device b52 (FIG. 4). S23, S24). The transmission processing device a51 and the transmission processing device b52 that have received the active system switching notification transmit an active system switching response to the ASP control device a54 (S25, S26 of 4). Thus, in the present embodiment, switching of the active system apparatus that performs APS control is performed.

  In FIG. 5, after the APS control device a54 is switched to the active system, the transmission processing device b52 receives the APS byte (K1 byte, K2 byte) of the SONET / SDH frame via the protection line 4 and switches the line. It is determined whether a line switching signal indicating a request has been received (S31 in FIG. 5). When the transmission processing device b52 detects a line switching request as a result of the determination, the transmission processing device b52 transmits a line switching signal to the transmission processing device a51 and the APS control device a54 (S32 in FIG. 5).

  The APS control device a54 that has received the line switching signal starts APS control (S33 in FIG. 5), and transmits a device status confirmation signal to the transmission processing device a51 (S34 in FIG. 5). The transmission processing device a51 that has received the device status confirmation signal confirms its own device status. If there is a failure or failure, the transmission processing device a51 notifies the APS control device a54 of the failure / failure with the device status response signal, and the own device status is normal. If it is, the normal state is notified to the APS controller a54 by the apparatus state response signal (S35 in FIG. 5).

  The APS control device a54 that has received the device status response signal determines whether or not the transmission processing device a51 has failed or failed (S36 in FIG. 5). If the transmission processing device a51 determines that the transmission processing device a51 is normal, the APS control device a54 stops the line switching by the APS control (S37 in FIG. 5).

  If the transmission processing device a51 determines that the transmission processing device a51 is faulty or out of order, the APS control device a54 confirms that the switching target line notified from the transmission processing device b52 is the same as the current working line 3 and sends it to the switch unit 53. A line switch switching signal is transmitted (S38 in FIG. 4).

  In addition, when the APS control device a54 transmits a device status confirmation signal to the transmission processing device a51, the APS control device a54 waits for a device status confirmation response. However, if there is no device status confirmation response for a certain period of time, the transmission processing device a51 fails as a response timeout. (S36 in FIG. 5), a line switch switching signal is transmitted to the switch unit 53 (S38 in FIG. 5).

  The switch unit 53 that has received the line switch switching signal switches the switch so as to receive the transmission signal from the transmission processing apparatus b52 for the protection line (S39 in FIG. 5), and transmits a line switch switching completion signal to the transmission processing apparatus b52. (S40 in FIG. 5). The transmission processing apparatus b52 that has received the line switch switching completion signal transmits an APS byte indicating that the line switching from the working line 3 to the protection line 4 has been completed to the transmission processing apparatus 2 (S41 in FIG. 5).

  In the present embodiment, the switch unit 53 of the transmission processing system 5 has a single configuration as shown in FIG. 3, but it is not necessary to limit to the single configuration, and the switch unit 53 can break down. In consideration of the characteristics, the switch unit may be used as a double configuration.

(Supplementary note 1) A transmission processing device for a working line and a protection line having a SONET / SDH (Synchronous Optical NETwork / Synchronous Digital Hierarchy) interface is used. A line switching method used in a transmission processing system for notifying a line switching signal from an APS (Automatic Protection Switching) byte from a transmission processing apparatus to a transmission processing apparatus for an active line,
In the transmission processing system, when the transmission processing device for the working line is faulty or faulty, an APS control device that performs line switching by the APS function is provided instead of the transmission processing device for the working line,
When the APS control apparatus cannot return a response to the transmission processing apparatus for the protection line due to a failure or failure of the transmission processing apparatus for the working line, or the transmission processing apparatus for the working line processes the line switching A line switching method characterized by performing line switching by the APS function when it is not possible.

  (Supplementary Note 2) When the APS control device receives a line switching signal from the transmission processing device for the protection line, it transmits a device status confirmation signal to the transmission processing device for the working line, and The line switching method according to appendix 1, wherein the presence or absence of a failure or failure in the transmission processing apparatus is confirmed.

  (Supplementary Note 3) When the transmission processing device for the working line cannot transmit a line switch switching signal to the switch unit due to the failure or failure, the transmission or processing device detects the failure or failure by a response signal to the device status confirmation signal. The line switching method according to appendix 2, wherein the control device is notified.

  (Supplementary Note 4) When the APS control device detects a timeout of a response signal to the device status confirmation signal, the APS control device determines that the transmission processing device for the working line has the failure or failure and switches the line by the APS function. The line switching method according to Supplementary Note 2, wherein:

  (Supplementary note 5) The line switching method according to any one of supplementary note 1 to supplementary note 4, wherein the APS control device has a duplex configuration of an active system and a standby system.

  The present invention is applicable to a signaling signal relay system and a relay apparatus that have SONET / SDH as a line interface and perform line switching by an APS byte.

  In addition, the present invention is applicable to a signaling signal terminating device system and terminating device that have SONET / SDH as a line interface and perform line switching by an APS byte.

  Furthermore, the present invention is applicable to a media (voice, video) signal relay system and relay device that have SONET / SDH as a line interface and perform line switching by an APS byte.

  The present invention is applicable to a media (audio, video) signal termination system and termination device that have SONET / SDH as a line interface and perform line switching by an APS byte.

1,5 Transmission processing system
2 Transmission processing equipment
3 working lines
4 Backup line 11, 51 Transmission processor a
12, 52 transmission processor b
13, 23, 53 Switch part
14 APS controller
21 Transmission circuit a
22 Transmission circuit b
54 APS controller a
55 ASP controller b

Claims (7)

Including a transmission processing device for a working line and a protection line having a SONET / SDH (Synchronous Optical Network / Synchronous Digital Hierarchy) interface. When a line failure is detected in the working line in the opposite device, the transmission processing device for the protection line A transmission processing system for notifying a transmission processing device for a working line of a line switching signal using an APS (Automatic Protection Switching) byte,
A transmission processing system comprising: an APS control device that performs line switching by an APS function instead of the transmission processing device for the working line when the transmission processing device for the working line is in failure or failure.   The APS control device is configured to process a line switch when the transmission processing device for the working line cannot return a response to the transmission processing device for the protection line due to a failure or failure. The transmission processing system according to claim 1, wherein when it is not possible, line switching is performed by the APS function.   When the APS control device receives a line switching signal from the transmission processing device for the protection line, the APS control device transmits a device status confirmation signal to the transmission processing device for the working line and transmits the device status confirmation signal to the transmission processing device for the working line. The transmission processing system according to claim 2, wherein the presence or absence of a failure or a failure is confirmed.   If the transmission processing device for the working line cannot transmit a line switch switching signal to the switch unit due to the failure or failure, the failure or failure is notified to the APS control device by a response signal to the device status confirmation signal. The transmission processing system according to claim 3, wherein:   When the APS control device detects a timeout of a response signal to the device status confirmation signal, the APS control device determines that there is the failure or failure in the transmission processing device for the working line and performs line switching by the APS function. The transmission processing system according to claim 3, wherein:   6. The transmission processing system according to claim 2, wherein the APS control device has a duplex configuration of an active system and a standby system. Including a transmission processing device for a working line and a protection line having a SONET / SDH (Synchronous Optical Network / Synchronous Digital Hierarchy) interface. When a line failure is detected in the working line in the opposite device, the transmission processing device for the protection line A line switching method used in a transmission processing system for notifying a transmission processing device for a working line of a line switching signal using an APS (Automatic Protection Switching) byte,
The transmission processing system is provided with an APS control device that performs line switching with an APS function in place of the transmission processing device for the working line when the transmission processing device for the working line is in failure or failure. Line switching method to be performed.

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