JPS6234440A - Reassembling system for looped transmission line - Google Patents

Abstract

PURPOSE:To reassemble a data transmitting device in a loop with no manual operation when it is required, by sending out a control frame for releasing loop back from a separated transmitting device and reassembling the data transmitting device in the loop by detecting the frame by means of the data transmitting device under a loop back condition. CONSTITUTION:When a data transmitting device 102 is restored, a data transmitting system monitoring device 3 transmits a control frame for releasing loop back to another data transmitting device 101 under a loop back condition. A loop back releasing control frame monitoring circuit 141 designates a control section 111 to release loop back. The control section 111 connects the loop-like transmission line 1001 of the operating system of the side receiving the loop back releasing control frame with the control section 111 and cuts off the loop-like transmission line 1002 of the standby system of the other side from the control section 112, and thus, the section 111 forms a by-pass condition. The control section 112 of the data transmitting device 102 connects the loop-like transmission line 1002 of the standby system to the input side of the control section 112 and the loop-like transmission line 1001 of the operating system to the output side of the control section 112, and thus, a loop back condition is set by means of the data transmitting device 102.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a method for reassembling a loop-shaped transmission line. In particular, it relates to a method in which multiple data transmission devices are connected to a double loop data transmission path consisting of an active system and a standby system, and a data transmission device that has been disconnected from the data transmission path due to a failure is reinserted. be.

〔overview〕

In a loop-shaped transmission system in which a plurality of data transmission devices are connected to a double loop-shaped data transmission path consisting of an active system and a standby system, the present invention provides a method for re-looping data transmission devices that have been disconnected due to a failure. When installing, the disconnected data transmission device sends a control frame to release the loopback, the data transmission device in the loopback state detects this control frame, and the disconnected data transmission device is reassembled. This allows a data transmission device that has been disconnected from a loop-shaped data transmission path to be reincorporated into the data transmission path without manual operation.

[Conventional technology]

Conventionally, in a data transmission system, a monitoring device for monitoring and controlling the data transmission system is connected to one data transmission device, and when a certain data transmission device is disconnected from the transmission path due to a failure etc., a loopback means is used to disconnect the data transmission device from the transmission path. When the active data transmission path and the standby data transmission path are connected between the data transmission devices before and after the disconnected data transmission device, and a closed transmission path is formed with the disconnected data transmission device excluded. (This state is called a loopback state.)
, the monitoring device cancels the loopback state by transmitting a control frame for canceling the loopback to the data transmission devices before and after the disconnected data transmission device,
A re-assembly method has been implemented in which a separated data transmission device is reincorporated into a data transmission path.

[Problem that the invention seeks to solve]

However, this kind of conventional loop-like data transmission. In the transmission path re-integration method, when the data transmission device to which the monitoring device itself is connected is disconnected from the transmission path, the remaining transmission path forms a closed transmission path by loopback means. This has the drawback that the monitoring device cannot issue a loopback cancellation instruction, and the loopback state cannot be canceled unless all the data transmission devices on the data transmission path are manually initialized.

The present invention solves the above-mentioned drawbacks, and provides a loop-shaped transmission line re-assembly method in which a data transmission device that has been separated from a loop-shaped data transmission line can be reincorporated into the data transmission line without manual operation. The purpose is to

Means for Solving Problem c] The present invention includes a double loop-shaped data transmission path consisting of an active system and a standby system, and a plurality of data transmission devices connected to this data transmission path. When a failure occurs in the data transmission path or this data transmission device, the plurality of data transmission devices connect the active data transmission path and the standby data transmission path before and after the failure point to perform loopback. In a loop transmission system including a loopback means for forming a data transmission path by disconnecting a data transmission device at a failed location, each of the plurality of data transmission devices transmits a control frame for canceling the loopback to the data transmission path. The present invention is characterized in that it includes a control frame sending means for sending out a control frame to the data transmission path, a monitoring means for detecting the control frame arriving on the data transmission path, and a connecting means for canceling the loopback state in response to a detection signal from the monitoring means.

[Effect]

According to the present invention, when reinstalling a data transmission device that has been disconnected due to a failure, the control frame sending means sends out a control frame for canceling loopback from the disconnected data transmission device. When the data transmission device in the loopback state detects this control frame by the monitoring means, the connection means connects the disconnected data transmission device to the data transmission path on the side where this control frame was detected, and connects the disconnected data transmission device to the data transmission path on the side where this control frame was detected. By directly connecting the input side and the output side to create a bypass state, the disconnected data transmission device can be reincorporated into the data transmission path without manual operation.

〔Example〕

Embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is a block diagram of a loop-shaped transmission line reassembly device according to an embodiment of the present invention.

Here, the feature of the present invention is the re-assembled portion surrounded by the dashed line shown in FIG. That is, an information processing device 2 and a data transmission system monitoring device 3 are connected to the data transmission system 1 via a data transmission device external interface 4, respectively. The information processing device 2 is the data transmission device 10+
, 104.10-, respectively, and the data transmission system monitoring device 3 is connected to the data transmission device 10□. Data transmission device 10. ~104 is the active loop transmission line 100
．． and a standby loop-shaped transmission line 100□, which are connected in a loop through a data transmission line 100 to constitute a local network.

FIG. 1 shows the configuration of the data transmission system 1 when it is operating normally, and information processing data is flowing in the form of packet frames through an active loop transmission path 100°.

FIG. 2 is a block diagram of the data transmission device of the loop-shaped transmission path reassembly device of the present invention, and the data transmission path 1 shown in FIG.
00 and the internal configurations of data transmission devices 10□-104. The data transmission device 10 includes a control section 11, an active transmission line interface section 12, a standby transmission line interface 13, and a loopback release control frame monitoring circuit 14.

FIG. 3 is a block diagram of the loop-back state of the loop-shaped transmission path reassembly device of the present invention, in which data transmission device 10□ is disconnected from the loop due to a failure, and data transmission device 101 and data transmission device 103 are connected to each other. The data transmission system 1 is shown in a loopback state. In FIG. 4, information processing data is transmitted as a packet frame in a data transmission device 10 in a loopback state, and a standby loop-shaped transmission line 100□
The data flow from the data transmission device 103 to the operational loop transmission path 1001, and the data transmission device 103 connects the operational loop transmission path 100. The signal flows from there to the standby loop transmission line 100□.

FIG. 4 is a block configuration diagram of the data transmission device in the loop-back state of the loop-shaped transmission path reassembly device of the present invention. ．． 103 is shown. In the data transmission device 10+ in which the loopback means is working, packet frames are flowing from the standby loop transmission path 1002 to the active loop transmission path 1001. Similarly, in the data transmission device 103 where the loopback means is working, packet frames are flowing from the active loop transmission path 1001 to the standby loop transmission path 100□. The data transmission device 10□ is disconnected from the loop.

FIG. 5 is a block diagram showing the configuration of the data transmission device of the loop-shaped transmission line reassembly device of the present invention when transmitting and receiving a control frame for canceling loopback. In FIG. 5, a loopback cancellation control frame issued in response to an instruction from the data transmission system monitoring device 3 is transmitted via the data transmission device 10z to the data transmission device 10.z in the loopback state. Data transmission path 100 and data transmission device 10. ~10. This figure shows the internal structure of .

゛Figure 6 is a block diagram of the loop-shaped transmission path reassembly device of the present invention when it is reassembled, and when the loopback of the data transmission device 10° is released and the data transmission device 10□ is incorporated into the loop. 1 shows the configuration of a data transmission system 1.

FIG. 7 is a block diagram of the loop-shaped transmission path reassembly device of the present invention when the data transmission device is reassembled, and shows the data transmission path 10 when the data transmission device 10z is incorporated into the loop.
0 and data transmission devices 101 to 10°.

The operation of the loop-shaped transmission line reassembly device having such a configuration will be explained. First, in Fig. 4, the data transmission value W10
The operation of the data transmission system 1 when t is disconnected from the loop will be explained. When the data transmission device 10□ becomes a failure, the loopback means is used to prevent the data transmission device 10. and data transmission device 10. detects a failure in the data transmission device 10□, and the data transmission device 10. In this case, the standby loop transmission line 100□ is connected to the control unit 11. An operational loop transmission line 1001 is connected to the input side of the control unit 11. and is connected to the output side of the data transmission device 10. In this case, the operational loop transmission line 100+ is connected to the control unit 11. A standby loop transmission line 100□ is connected to the input side of the control unit 11. The data transmission device lo2 is connected to the output side of the loop and changes the control of the data transmission line lOO to disconnect the data transmission device lo2 from the loop.

Next, using FIGS. 5 and 7, the data transmission device 10
We will explain how to reincorporate □ into the loop.

When the data transmission device 10□ is restored, the data transmission system monitoring device 3 checks the data transmission device 10
A loopback release control frame is sent to the

The loopback cancellation control frame is provided by the data transmission equipment engineer O.
t control unit 11□ and active transmission line interface unit 12
The data is transmitted to the active transmission line interface section 121 of the data transmission device 10+ via the active transmission line interface section 12. The loopback release control frame monitoring circuit 1 is used as a loopback release control frame from the loopback release control frame.
Sent to 41. The loopback release control frame monitoring circuit 14 is the control unit 11. to cancel loopback. Control unit 11. The active loop transmission line 1001 on the side that received the loopback release control frame is connected to the control unit LL, and the other standby loop transmission line 100z is disconnected from the control unit 111 to be in a bypass state. Control unit 11 of data transmission device 10□
□ connects the standby loop transmission line 100□ to the input side of the control unit 11□, connects the active loop transmission line 1001 to the output side of the control unit 11g, and puts the data transmission device IQz into a loopback state. Data transmission equipment xOz
can be included in the loop.

〔Effect of the invention〕

As explained above, the present invention provides a loop-shaped data transmission path with a control frame for canceling loopback, and also provides each data transmission device on the data transmission path with a control frame for detecting the loopback cancellation control frame. A monitoring circuit is installed, a loopback release control frame is sent from the separated transmission device, and the loopback state data transmission device detects the loopback release control frame and reincorporates it, thereby eliminating the loop. This has the excellent effect of allowing the disconnected data transmission device to be re-incorporated into the loop without manual operations when necessary.

[Brief explanation of drawings]

FIG. 1 is a block diagram of a loop-shaped transmission line reassembly device according to an embodiment of the present invention. FIG. 2 is a block diagram of the data transmission device of the loop-shaped transmission path reassembly device of the present invention. FIG. 3 is a block diagram of the loop-back state of the loop-shaped transmission line reassembly device of the present invention. FIG. 4 is a block diagram of the loop-back state of the data transmission device of the loop-shaped transmission line reassembly device of the present invention. FIG. 5 is a block diagram of the loopback release control frame transmitted and received by the data transmission device of the loop-shaped transmission line reassembly device of the present invention. FIG. 6 is a block diagram of the loop-shaped transmission line reassembly device according to the present invention at the time of reassembly. FIG. 7 is a block diagram of the loop-shaped transmission path reassembly device of the present invention when the data transmission device is reassembled. 1...Data transmission system, 2...Information processing device, 3...
- Data transmission system monitoring device, 4... data transmission device external interface, 10. ~104...Data transmission device, IL~114...Control unit, 12. ~124...Operational transmission line interface unit (IF), 131-1
34...Standby transmission line interface section (s IF
), 14. ~144... Control frame monitoring circuit for loopback release (SPV), 100... Data transmission line, 1001... Operation loop transmission line, 100□
...Standby loop transmission line. Overall diagram of the embodiment Fig. 1j Overall diagram showing the loopback state of the embodiment Fig. 3 Overall diagram of the embodiment when re-installed Fig. 6

Claims (1)

[Claims] (1) A double loop-shaped data transmission path consisting of an active system and a standby system, and a plurality of data transmission devices connected to this data transmission path, and the plurality of data transmission devices are connected to the data transmission path. Alternatively, if a failure occurs in this data transmission device, connect the above-mentioned data transmission path of the active system and the data transmission path of the standby system before and after the failure point to create a loopback state and disconnect the data transmission device at the failure point. In a loop transmission system including loopback means forming a data transmission path, each of the plurality of data transmission devices includes a control frame sending means for sending a control frame for canceling loopback to the data transmission path; A loop-shaped transmission path re-assembly method comprising: monitoring means for detecting this control frame arriving on the transmission path; and connection means for canceling the loopback state in response to a detection signal from the monitoring means.