JP3385138B2 - Transmission device redundant configuration switching device - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a redundant configuration switching device for a transmission device. [0002] With the development of communication technology in recent years, there is a demand for a transmission device to have a large capacity of communication data and to simplify connection between the transmission devices. For this reason, it is necessary to improve the reliability of the transmission device and to facilitate maintenance and operation. In order to improve the reliability of a transmission device,
Preferably, a plurality of transmission paths are provided between the transmission devices, and the plurality of transmission paths are provided with a working and protection redundant configuration, and when the working transmission path fails, it is desirable to switch to the protection transmission path. On the other hand, as a configuration of a conventional transmission apparatus, there is no redundant configuration (no spare transmission line) or N: 1 redundancy configuration (working transmission line N
Book: 1 spare transmission path), 1 + 1 redundant configuration (working transmission path 1)
Book: one backup transmission path). This conventional N: 1
In the redundant configuration and the 1 + 1 redundant configuration, the spare transmission line is fixedly determined to any one of the plurality of transmission lines. When a network is constructed with this conventional transmission device group, transmission devices having a redundant configuration are interconnected, and in any redundant configuration, only one spare transmission line is fixed. Is set. For this reason, when a failure occurs in a plurality of working transmission lines, there is no way to rescue the plurality of working transmission lines at the same time. There has been a problem that it is continued for a long time. On the other hand, it is conceivable to use a plurality of spare transmission lines, but this would reduce the utilization efficiency of the entire transmission line. Accordingly, the present invention enables simultaneous relief for a plurality of transmission line failures by appropriately selecting and setting an arbitrary plurality of backup transmission lines, and also enables a flexible network construction with variable redundancy. With the goal. [0008] In order to solve the above-mentioned problems, there is provided a method for solving the above-mentioned problems. According to the present invention, there is provided a redundant configuration switching device of a transmission device for switching a redundant configuration of a transmission line between transmission devices connected to each other via a plurality of transmission lines, wherein the redundant configuration designation information of the transmission line from a higher-level device is provided. Determining means for determining a redundant configuration using an arbitrary transmission path among the plurality of transmission paths as a backup transmission path based on the switching means for switching a redundant configuration of the transmission path according to the redundant configuration determined by the determining means; A notification unit for notifying the information of the redundant configuration determined by the determination unit to the opposite transmission device via the transmission line; and a monitoring unit for monitoring states of the plurality of transmission lines. The upper-level device notifies the number of transmission lines in a faulty state to the determining unit as the redundant configuration designation information based on the monitoring result by the monitoring unit, and the determining unit performs a failure based on the monitoring result by the monitoring unit. Examining transmission lines having a high occurrence rate, and determining a redundant configuration in which the number notified from the higher-level device is used as a spare transmission line in order from the transmission line having the highest failure occurrence rate. A switching device is provided. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described. An example will be described. FIG. 1 shows a redundant configuration switching device of a transmission device as one embodiment of the present invention. In FIG. 1, reference numerals 1 and 2 denote transmission devices, which are mutually connected via N transmission lines # 1 to #N. Each of the transmission devices 1 and 2 is a higher-level control device 3
Are connected via a communication line.
And various kinds of control information. The transmission apparatus 1 has a selector switch control section 11 as a firmware section for functions according to the present invention.
Comprising a transmission line fault monitoring section 12, also includes a selector unit 13 ₁ to 13 _N as a hardware unit. Each selector unit _131-134 in _N N types of communication data '1'~'N'
Are input, and their output terminals are connected to transmission lines # 1 to #N, respectively. Each of the selectors 13 _1-
13N selects one or more communication data from the input communication data and sends out the selected communication data to the transmission path. The transmission line failure monitoring unit 12 transmits the transmission lines # 1 to #N
Is a device that constantly monitors the state of the device, and notifies the host controller 3 and the selector switching control unit 11 of the monitored result. The selector switching control unit 11 is a device that switches the transmission lines # 1 to #N between active and standby by controlling the switching of the selector units 13 _{1 to} 13 _N. The switching mode is specified by the higher-level device 3 or Decide by yourself. FIG. 2 shows a more specific configuration example of the above-described hardware unit in the case where the total number of transmission paths is four. In FIG. 2, selectors 13 _{1 to} 13 ₄ for setting which transmission path # 1 to # 4 to use to transmit communication data.
The details are shown. Because the transmission paths # 1 through # 4 have a need to be able to select all the communication data '1'～'4', all communication data in each selector unit _131-134 '1'
~ '4' has been entered. That is, the selector 13 ₁
To 13 ₄ each composed of a selector SEL1~SEL3 two inputs connected to the three stages. The selectors 13 ₁ to 13 ₁
By controlling 13 ₄ switching of respective selectors SEL1~SEL3 firmware, the communication data is transmitted using a transmission path in accordance with the setting. FIG. 3 shows an example of the configuration of maintenance control data communicated between transmission apparatuses via transmission lines in the apparatus of the present embodiment. The maintenance control data according to the present invention is mounted on a specific byte in a 9 × n-byte maintenance control data frame added to the head of communication data. That is, as the maintenance control data according to the present invention, three types of "working / standby transmission path monitoring byte", "setting data change request byte", and "setting data change response byte" are used. To exchange information. The "setting data change request byte" is data for requesting a transmission device opposing the transmission line to change the redundant configuration, and includes information on the redundant configuration to be changed.
The “setting data change response byte” is data that is replied to when a request for changing the redundant configuration is permitted to the transmission device that has issued the setting data change request. One byte is used for “current / standby transmission line monitoring byte” for one transmission line, and an attribute value of each transmission line is set. As this attribute value, # 1:
Whether it is a working transmission line or # 2: a protection transmission line or #
3: Whether or not it can be used as a backup transmission path. Each is set to "1" when affirmative and "0" when negative. Note that # 3 assigns a priority to each transmission path, and even if the transmission path itself is operating as an active transmission path, when a transmission path having a higher priority than the transmission path itself fails, the backup transmission of the high priority transmission path is performed. Indicates that the transmission path is used as a transmission path. The operation of this embodiment will be described below.
The transmission line failure monitoring unit 12 of the transmission device 1 has transmission lines # 1 to #N
, And constantly notifies the host controller 3 and the selector switching control unit 11 of the monitoring result. In the upper control device 3, the notified transmission path #
A transmission line (standby transmission line) to be used as a backup is determined from the N transmission lines based on the failure statuses 1 to #N, and the designated information (number or the number thereof) is transmitted to the selector switching control unit 11 of the transmission apparatus 1. Set to When the designation from the higher-level control device 3 is the number of the standby transmission line, the selector switching control unit 11 recognizes that the transmission line is a redundant configuration using the standby transmission line, and
Is written in the setting data change request byte of the maintenance control data frame (FIG. 3) through the whole or a part of the transmission lines # 1 to #N. Send. When the number specified by the higher-level control device 3 is the number of spare transmission lines, the selector switching control unit 11 performs transmission with a high failure occurrence rate based on the transmission line failure state from the transmission line failure monitoring unit 12. The number of lines designated by the higher-level control device 3 is determined as a spare transmission line in order from the transmission line with the highest failure occurrence rate, and the number of the determined spare transmission line is sent to the opposite transmission device 2 in the same manner as described above. The data is written into the data frame for maintenance control and transmitted, and the spare transmission line number is notified to the upper control device 3. If the higher-level control device 3 does not designate a backup transmission path, the selector switching control section 11 determines whether or not there is communication data to be transmitted in its own device.
A redundant configuration is determined by setting a transmission line according to the number of communication data “present” among the transmission lines as an active transmission line and setting the remaining transmission lines as backup transmission lines. When the opposite transmission apparatus 2 receives the maintenance control data frame, the selector switching control section 21 compares the received information with the failure state from its own transmission line failure monitoring section. As a result of the comparison, if the transmission path can be switched according to the received redundant configuration, the local station side redundant configuration is changed in accordance with the redundant configuration information from the opposite transmission device 1, and the change request is permitted. The response is set to the setting data change response byte in the maintenance control data frame and transmitted to the opposite transmission device 1. On the other hand, as a result of the comparison, when it is determined from the transmission path failure state that the transmission apparatus 2 has grasped that the transmission path cannot be switched in accordance with the received redundant configuration, the maintenance control A response to the data frame is not returned, or the switching device 1 is notified that switching cannot be performed. The opposite transmission device 1 recognizes that the redundant configuration determined by itself cannot be taken by not returning a response or receiving a switch disable notification, and determines a new redundant configuration. Send to 2.
This is repeated until a redundant configuration can be set. In determining a spare transmission path in the higher-level control device 3, priorities are assigned in advance to all transmission paths in order of importance of communication data based on, for example, the quality of the communication quality. If a failure occurs in a high-priority transmission line, a transmission line with a low priority in the working transmission line may be switched as a backup transmission line for the high-priority transmission line. In this way, normally, all transmission paths are used as working transmission paths, and communication can be continued by securing a spare transmission path only when a failure occurs in an important working transmission path. Can be used with high efficiency. FIG. 4 shows an example of a synchronization sequence between the devices according to the embodiment of the present invention. At the start-up of the system, the transmission devices Y and X are in a state where all N transmission lines are in use as active transmission lines. When a redundant configuration is set between the transmission apparatuses X and Y, switching control cannot be performed if the spare transmission path numbers and their numbers are not synchronized (matched) between the transmission apparatuses, so that the switching is synchronized. For this reason, a "setting data change request byte" is set up from the transmission device side (in FIG. 4, the transmission device Y) which is changed based on the failure frequency from the transmission line failure monitoring unit and various settings from the higher-level control device. Then, a maintenance control data frame including the changed content is transmitted. In this example, it is assumed that the transmission line # 1 is set as the backup transmission line based on the designation from the upper control device 3. It is assumed that a plurality of maintenance control data frames having the same content are continuously transmitted. On the receiving side (device X in FIG. 4), the change is made only when five or more frames of the maintenance control data frame having the same content are continuously received, and the change is notified to the higher-level control device. , A "setting data change response byte" is set up, and a reply is sent to the opposite transmission device Y. After this,
The transmission device Y sends a "setting data change request byte OFF" to the transmission device X, and the transmission device X sends a "setting data change request byte OFF" to the transmission device Y to clear the contents of each byte. This makes it possible to synchronize the number of the backup transmission line and the number of the backup transmission line between the devices, thereby performing the switching control. As described above, in this embodiment, by setting the number of the spare transmission line and the number thereof, an arbitrary redundant configuration can be constructed so that the change of the redundant configuration can be synchronized between the transmission apparatuses. Therefore, even when a failure is detected in a plurality of working transmission lines, the working transmission lines can be relieved by securing a plurality of transmission lines to be used as spares. [0050] The following is an example: As described above, according to the present invention,
Even when a failure occurs in a plurality of working transmission paths, the working transmission path can be relieved by setting a plurality of protection transmission paths. In addition, it is possible to easily construct a different redundant configuration due to a difference in the spare transmission path, to improve the reliability of communication data, and to construct a network for transmission devices of various redundant configurations. The device greatly contributes to its versatility. [0065]

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram showing an embodiment configuration of a redundant configuration switching device of a transmission device according to the present invention. FIG. 2 is a diagram showing specific details of a selector unit in the device of the embodiment. FIG. 3 is a diagram illustrating a data frame for maintenance control used in the embodiment device. FIG. 4 is a diagram illustrating an example of a synchronization sequence between transmission apparatuses in the embodiment. [Description of Signs] 1, 2 transmission device 3 host control device 11, 21 selector switching control unit 12 transmission line failure monitoring units 13 _{1 to} 13 _N selector unit

Continued on the front page (72) Inventor Masamitsu Komi 3-1-1 Hirooka, Kanazawa-shi, Ishikawa Prefecture Inside Fujitsu Hokuriku Communication System Co., Ltd. (72) Inventor Ken Takeshi 3-1-1 Hirooka, Kanazawa-shi, Ishikawa Fuji (72) Inventor Hideki Yamashita 3-1-1 Hirooka, Kanazawa-shi, Ishikawa Pref. Fujitsu Hokuriku Communication System Co., Ltd. (56) Reference JP-A-6-291747 (JP, A) JP-A-2-199042 (JP, A) JP-A-4-134940 (JP, A) JP-A-7-202861 (JP, A) JP-A-5-227213 (JP, A) (58) Int.Cl. ⁷ , DB name) H04L 1/22 H04B 1/74

Claims (1)

(57) Claims 1. A redundant configuration switching device of a transmission device for switching a redundant configuration of a transmission line between transmission devices interconnected via a plurality of transmission lines, comprising: Determining a redundant configuration using any one of the plurality of transmission lines as a backup transmission line based on the redundant configuration designation information of the transmission line from the transmission line, and a transmission line according to the redundant configuration determined by the determination unit. and switching means for switching redundant, a notification unit for the information redundancy determined by the determined unit notifies the transmission apparatus opposing via the transmission path, and monitoring means for monitoring the status of the plurality of transmission paths And the higher-level device is configured based on a monitoring result by the monitoring unit.
The number of transmission lines in the failure state
Notification to the deciding means as information, and the deciding means based on the monitoring result by the monitoring means.
Investigate the transmission line with the highest failure rate and find the highest failure rate
The number notified from the upper device is predicted in order from the transmission path.
A redundant configuration switching device for a transmission device, wherein a redundant configuration to be used as a transmission line is determined .