JPH06204968A - Method and system for notifying fault in transmission line - Google Patents

Abstract

PURPOSE:To notify the fault of a down line without in increasing the number of informing information bits by intentionally disturbing the leading synchronous bit of the notification information byte of plural frames and informing the specified fault. CONSTITUTION:A notification information collected by a notification information collecting means 25 of a subordinate device 2 is inserted in the notification information byte incorporated at the prescribed position of the plural frames in a time division multiplex transmission system to notify the fault from the device 2 to a main controller 1. A normal synchronous bit generation means 61 for outputting the synchronous bit which is the leading bit of the notification information byte of the plural frames in a normal state and an abnormal synchronous bit generation means 62 for outputting the synchronous bit intentionally in an abnormal state are provided. A selection means 63 selects one of the two generation means 61 and 62 corresponding to the presence of the specified fault and performs input to the informing information gathering means 25. The frame decomposing means 11 of the controller 1 separates normal data and the notification information byte to be inputted to a line monitoring means 12 and the means 12 reads the leading synchronous bit and performs discrimination.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a failure notification method and system, and more particularly to a failure notification method and system from a slave device having no failure maintenance function to a main controller having a failure maintenance function.

[0002]

2. Description of the Related Art Direct processing of a large number of terminals (for example, terminals in one building) by one switch requires an enormous number of wires, and attenuation occurs when the distance between the switch and the terminals increases. growing. Therefore, as shown in FIG. 2, a plurality of remote controllers (subordinate devices 2) are provided for an exchange (main controller 1) controlled by one central processing unit 10, and each remote controller has a predetermined number of terminals 3. It is typically configured to manage (eg, terminals on each floor).

In this case, data is transmitted by time division multiplexing between the main controller 1 and the remote controller, and the data is distributed from the remote controller to each terminal 3. In such a data exchange system, the main controller 1
The exchange has a self-maintenance function, and when a failure occurs inside itself, it is possible to display where the failure has occurred.

However, the remote controller, which is the slave device 2, does not have a self-maintenance function, and a line failure from the switch to the remote controller, a failure in the remote controller, or a line failure from the remote controller to the switch is caused by the switch. It will be notified and will be managed collectively by the exchange side.

FIG. 3 shows a structure of transmission data mainly including the notification information. The notification information includes information related to various instructions transmitted from the main control device 1 to the slave device 2 and various notification information including a failure notification from the slave device 2 to the main control device 1. Have a composition.

That is, a predetermined byte (for example, 1 byte) at a predetermined position (for example, the head) of one frame is used as the notification information byte Bd. If the notification information cannot be completely stored with only 1 byte, 2 bytes in one frame may be used, but normally, the first byte of a plurality of frames (for example, 2 frames F ₁ and F ₂ ) is set as a set and multi-frame is used. Fm is assembled, and the _first byte of each frame F ₁ , F ₂ forming the multi-frame Fm is the notification information byte Bd ₁ ,
Is the Bd _2, notifies information to each bit of the notification information bytes Bd _1, bd ₂ is placed.

As described above, the plurality of frames F₁, F₂Pair
When combined, each frame F₁, F₂Notification information for
To Bd₁, Bd₂Bit Sb for distinguishing between₁,
Sb ₂At the beginning, for example the first frame F₁Notification
Information byte Bd₁Synchronization bit Sb₁"0" in the next
Frame F₂Notification information byte Bd₂Synchronization bit Sb
₂Put "1" in the field, and the remaining 14 bits are actually
It is designed to include notification information of.

Such notification information is collected by the notification information collecting means 25 of the slave device 2 shown in FIG. 4, where 1-byte notification information bytes Bd ₁ and Bd ₂ are sequentially formed. The notification information byte bytes Bd ₁ and Bd ₂ thus formed are incorporated into the first byte of each frame F by the multi-frame assembling means 26 and the main controller 1 is connected.
Be transmitted to. In the main controller 1, the notification information bytes Bd ₁ and Bd ₂ transmitted in this way are stored in the frame decomposing means 11
Then, the data is separated from the normal data Ud ₂ and input to the downlink monitoring means 12, where the content of the notification information is analyzed and necessary processing is performed.

The notification information from the main control device 1 to the slave device 2 is also incorporated in the first byte of each frame by the multi-frame assembling device 16 to incorporate the notification information collected by the notification information collecting device 15 into the slave device. Communicate to 2. On the subordinate device 2 side, the frame disassembling means 21
The normal data Ud ₁ and the notification information byte are separated and input to the line monitoring means 12, where necessary processing is performed.

By the way, from the subordinate device 2 to the main controller 1
The notification information to ( ₁ ) also includes the failure notification from the main control device 1 to the slave device 2 on the line L ₁ (downline). That is, the downlink line monitoring means 22 of the slave device 2 recognizes the notification information contained in the notification information byte Bd transmitted from the main controller 1, and the downlink transmission line L ₁ is normal from the frame pulse interval and the like. It is also detected whether or not it is transmitted to the notification information collecting means 25. Then, the notification information collecting means 25 incorporates the line information into a specific bit of 1 byte to form a notification information byte Bd. Then, as described above, a plurality of notification information bytes B
The d ₁ and Bd ₂ are incorporated into the multiframe Fm by the multiframe assembling means 26 and input to the main control unit 1 via the upstream transmission line L _2, and the frame disassembling means 11 of the main control unit 1 makes the information byte Bd ₁ , Bd ₂ are extracted,
The upstream line monitoring means 12 detects whether the downstream line L ₁ is normal or abnormal.

[0011]

When the system becomes complicated, the amount of notification information between the main control device 1 and the slave device 2 increases. If the amount of notification information increases in this way, the number of frames incorporated in the multi-frame Fm will increase or the number of bytes used as the notification information bytes Bd in one frame will increase. It puts pressure on the original amount of information that should be done.

The present invention has been proposed in view of the above-mentioned conventional circumstances, and the notification information amount between the main control device and the slave device is reduced as much as possible so as not to press other transmission information amount that can be transmitted. It is an object of the present invention to provide a failure notification method and system in a transmission path.

[0013]

The present invention employs the following means in order to achieve the above object. That is, FIG.
As shown in FIG. 1, a main controller 1 having a fault maintenance function,
A failure notification is provided from the slave device 2 to the main control device 1 by including the slave device 2 that does not have the above-mentioned function, and as a set of a plurality of frames in which the notification information byte Bd is incorporated in a predetermined position of one frame in the time division multiplexing transmission system. In the failure notification method to be performed, the synchronization bit Sd at the head of the notification information bytes Bd of the plurality of frames is intentionally disturbed to notify a specific failure.

When the failure of the downlink transmission line L ₁ is notified by the above method, the object of the present invention can be effectively utilized. To implement the above invention, the following system is used.
That is, the main control device 1 having a failure maintenance function and the slave device 2 not having the above function are provided, and the notification information collected by the notification information collecting means 25 of the slave device 2 is assigned to a predetermined number of frames in the time division multiplex transmission system. In the failure notification system in which the slave device 2 notifies the main control device 1 of a failure by inserting it in the notification information byte Bd incorporated in the position of the above-mentioned position, the synchronization bit Sd which is the first bit of the notification information bytes Bd of the plurality of frames is normally operated. The normal synchronization bit generating means 61 for outputting in a normal state, the abnormal synchronization bit generating means 62 for intentionally outputting the synchronization bit Sd in an abnormal state, and either of the two synchronization bit generating means 61, 62 are specified. The selection means 63 is provided for selecting according to whether or not there is a failure and inputting it to the notification information collecting means 25.

[0015]

When the synchronizing bits Sd (Sd ₁ , Sd ₂ ) are disturbed, the upstream line monitoring means 11 of the conventional system determines that a failure has occurred in the upstream line L ₂ . However, according to the present invention, when a failure occurs in the down line L ₁ , the synchronization bit Sd is intentionally disturbed, and the up line L ₂ or the down line L
It is assumed that _one of the ₁ has failed. As a result, the notification information from the slave device 2 to the main control device 1 is set to 1
Bits can be reduced.

[0016]

FIG. 1 is a block diagram showing an example of an apparatus for carrying out the present invention. The notification information transmitted from the main control device 1 to the slave device 2 is received by the downlink monitoring means 22 and the content of the information is analyzed as in the conventional case. This down line monitoring means 2
In No. 2, a failure in the downlink is detected from the frame pulse interval or the like. This result is input to the selection means 63 as "0" if there is no obstacle and as "1" if there is an obstacle.

A normal sync bit generator 61 for outputting normal multi-frame sync bits Sb (Sb ₁ , Sb ₂ ) and an abnormal sync bit generator 62 for outputting an abnormal multi-frame sync bit Sb are provided to the selector 63. When the output "0" is input and the downlink monitoring means 22 outputs "0" indicating normality, the normal synchronizing bit generating means 61 is selected, and the downlink monitoring means 22 indicates "1". When "" is output, the abnormal bit generation means 61 is selected.

When the normal synchronizing bit generating means 61 is selected, it should be inputted from the normal bit generating means 61 to the first bit which is the synchronizing bit Sd ₁ of the notification information byte Bd ₁ of the _first frame. 0 ", and the synchronization bit Sd ₂ of the notification information byte Bd ₂ of the second frame
"1" to be input to is sequentially output. The synchronization bits Sd ₁ and Sd ₂ formed in this way are input to the notification information collecting means 25 together with other notification bits and are converted into 8-bit notification information bytes Bd ₁ and Bd ₂ in the frame incorporating means. 26 is input.

On the contrary, the selecting means 63 causes an abnormal sync bit.
When the generating means 62 is selected, the abnormal synchronization bit is generated
From the means 62, the first and second notification information bytes B
d₁, Bd₂For example, “1” → “1” is output sequentially.
And notification information byte Bd as above ₁, Bd₂Put in
And is input to the frame incorporating means 26.

In the frame embedding means 26, the notification information bytes Bd ₁ and Bd ₂ are respectively incorporated at the beginning of the frame to form a multi-frame Fm, which is transmitted to the main control unit 1 together with the normal data Ud ₂ as in the conventional case. To do. The frame disassembling means 11 of the main controller 1 separates the normal data Ud ₂ from the notification information bytes Bd ₁ and Bd ₂ and inputs them to the upstream line monitoring means 12. The upstream line monitoring means 12 reads the leading synchronization bits Sd ₁ and Sd ₂ of the notification information bytes Bd ₁ and Bd _{2 so} that the synchronization bits Sd ₁ and Sd ₂ are changed from “0” to “1”. if there is,
It is determined that both the down line L ₁ and the up line L ₂ are normal. Further, when the synchronization bits Sd ₁ and Sd ₂ are “1” → “1”, it is determined that there is a failure in either the down line L ₁ or the up line L ₂ .

As a result, it is not necessary to add a bit for notifying the above fault as notification information from the slave device 2 to the main control device 1 in order to indicate the fault of the downlink L ₁ .

Although only the downlink failure has been described above, this method can be applied to any kind of failure on the slave device 2 side. However, it is necessary to note in operation that the upstream line monitoring means 12 determines that any type of fault is a "line fault".

[0023]

As described above, according to the present invention, since it is possible to notify the control device of a failure in the downlink without using the notification information bits, it is possible to detect the failure in the downlink without increasing the number of notification information bits. There is an effect that can be notified.

[Brief description of drawings]

FIG. 1 is a block diagram showing an embodiment of the present invention.

FIG. 2 is a conceptual diagram of a system to which the present invention is applied.

FIG. 3 is a conceptual diagram showing a notification information structure by multi-frame.

FIG. 4 is a block diagram of a conventional example.

[Explanation of symbols]

1 main control device 2 slave device 22 transmission line monitoring means 25 notification information collecting means 61, 62 synchronization bit generating means 63 selection means Bd notification information byte L ₁ downlink transmission line Sd synchronization bit

Claims (4)

[Claims] 1. A main controller (1) having a fault maintenance function
And a plurality of frames each having a slave device (2) not having the above function and incorporating a notification information byte (Bd) at a predetermined position of one frame in the time division multiplexing transmission system,
In the failure notification method of sending a failure notification from the slave device (2) to the main control device (1), the specific sync failure (Sd) is deliberately disturbed in the leading synchronization bit (Sd) of the notification information bytes (Bd) of the multiple frames. A fault notification method in a transmission path, which is characterized by notifying. 2. The fault notification method in a transmission line according to claim 1, wherein the specific fault is a fault in the downlink transmission line (L ₁ ). 3. A main controller (1) having a fault maintenance function
And a slave device (2) that does not have the above function.
Put the notification information collected by the notification information collecting means (25) in (2) into a notification information byte (Bd) embedded at a predetermined position of a plurality of frames in the time division multiplex transmission system, and set the slave device
(2) In the failure notification system that notifies the main controller (1) of failure, normal synchronization that outputs the synchronization bit (Sd) that is the first bit of the notification information bytes (Bd) of the above multiple frames in a normal state Any one of the bit generation means (61), the abnormal synchronization bit generation means (62) for intentionally outputting the synchronization bit (Sd) in an abnormal state, and the two synchronization bit generation means (61), (62) A failure notification system in a transmission line, comprising: a selection means (63) for selecting a particular failure depending on whether there is a particular failure and inputting it to the notification information collection means (25). 4. The specific fault is downlink transmission line monitoring means (2
The fault notification system in a transmission line according to claim 3, wherein the fault is a fault in the downlink transmission line (L ₁ ) obtained from 2).