JPS6218146A - Data communication system - Google Patents

Abstract

PURPOSE:To decrease the system cost by inserting supervisory information generated in a supervisory information transfer device to a set position in the supervisory information transferred from other transfer device to eliminate the need for a supervisory control equipment and a relevant communication line. CONSTITUTION:Suppose that supervisory information S31 and supervisory information S41 comprising a bit R and a frame bit F directing the direction of transfer are inputted from a terminal station repeater PLT1 to a supervisory information transfer device ACU2. The bit R is logical '1' when the information is sent in a direction from the OLT1 to the OLT2 and from the OLT2 to the OLT3..., and logical '0' in opposite direction. The information S61 is inputted to an insertion section 112 together with the supervisory information S32 generated by a supervisory information generating section 82, the information S32 is synchronized with the information S61 by using synchronizing information S22 generated by a synchronizing information generating section 72 and inserted to a preset position in the information S61. As a result, the supervisory information S62 comprising the information S31, S32 is sent from the insertion section 112 to the supervisory information transfer device ACU3 via a service data transfer section.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a data communication system in which a plurality of terminal relay devices each having a monitoring information transfer device and a service data transfer unit are connected in cascade through a main signal communication line.

[Conventional technology]

Conventionally, this type of data communication system has main signal communication lines 41, 4□, 43°61+, as shown in FIG.
Each terminal relay device LT cascade-connected by 62,
i=1.2. ..., 6) Service data transfer unit SD
i (i=1.2...,6) and monitoring information transfer unit C
UB (i=1.2. . . , 6), and a communication line 51 is connected from the monitoring information transfer unit CUi to i=1.2. ..., 6
), the main signal communication line 41 . containing service data transferred via the service data transfer unit SDi. '2+
Terminal relay devices LT each connected by 43
, , between LT2, between Li2° and between LT1 and Li5.
Monitoring information between the LT6s was collected independently and transferred to the monitoring control device 14 via communication lines 151, 152, and 153.

[Problem that the invention seeks to solve]

In this way, in the conventional data communication system mentioned above,
The monitoring information collected between each opposing terminal station relay device is
to monitor and control the entire system.
A supervisory control device is provided, and the supervisory control device and
There is a drawback that the cost increases due to the communication line provided between one of the opposing terminal relay devices and this supervisory control device. Furthermore, if a terminal relay device is added to this system, a communication line is required between the added terminal relay device and the monitoring control device.

The disadvantage was that the cost was high.

[Means for solving problems]

In the data communication system of the present invention, a monitoring information transfer device of each terminal station relay device transmits information from a monitoring information generating section that generates monitoring information and a monitoring information transfer device of another terminal station relay device via the service data transfer section. a synchronization information generating section that generates synchronization information for synchronizing the first monitoring information transferred by the monitor with the second monitoring information generated by the monitoring information generating section; The monitoring information insertion section is provided for inserting the monitoring information into a preset position in one monitoring information and sending it to another terminal relay device via the service data transfer section.

In this way, by inserting the monitoring information of the own terminal station relay device into the monitoring information transferred from other terminal station relay devices and transmitting it to the other terminal station relay device, the supervisory control device and each terminal station relay Eliminates the need for communication lines between the device and the supervisory control device,
The cost of communication systems decreases.

〔Example〕

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

FIG. 1 is a configuration diagram showing an embodiment of a data communication system of the present invention.

The data communication system of this embodiment is a monitoring information transfer device A.
Terminal relay device 0LTH (i=1.2.., 8) having C114 (i=1.2.., 6) and service data transfer unit 5D1 (i=1.2.., 8) ,6)
The adjacent terminal relay devices are connected to the main signal communication line 4. ,
42. Connected by '3+61+62.

FIG. 2 is a two-way diagram of the terminal relay devices 0LT2 and OLτ3 (other terminal relay devices have similar configurations).

Monitoring information transfer device AC that constitutes terminal relay device 0LT2
U2 is a monitoring information generating unit 82 that generates monitoring information S3□.
, the monitoring information S6□ transferred from the other terminal relay device 0LT3 or 0LTI via the service data transfer unit S02, and the monitoring information S generated by the monitoring information generating unit 82.
A synchronization information generating section 72 generates synchronization information S22 for synchronizing the monitoring information S32 with the monitoring information S
The monitoring information S6 is inserted into the preset position in the monitoring information S61 and the monitoring information S32 is inserted into the monitoring information S61.
2 to the service data transfer unit 5IN2.

Monitoring information transfer device AC that constitutes terminal relay device 0LT3
Similarly, in U3, the monitoring information generating section 83 that generates the monitoring information S33 and the monitoring information S62 and the monitoring information generating section 83 transferred from the other terminal relay device 0LT2 or 0LT4 via the service data transfer section S03 are used. A synchronization information generation unit 73 generates synchronization information S23 for synchronizing the generated monitoring information S33, and inserts the monitoring information S33 into a preset position in the monitoring information S62.
A monitoring information insertion section 113 is provided that outputs monitoring information S63, in which monitoring information S33 is inserted into monitoring information S62, to the service data transfer section SD3.

Next, the operation of this embodiment will be explained with reference to the configuration diagram of the monitoring information shown in FIG.

First, the operation of the monitoring information transfer device ACU2 that constitutes the terminal relay device 0LT2 will be described. Monitoring information 531
and bit R indicating the direction of transfer of monitoring information and frame pixel)
It is assumed that the monitoring information 561 (FIG. 3(A)) consisting of F is input from the terminal relay device 0LTI to the monitoring information transfer device ACU2. The bit R indicates whether the direction of transfer of the monitoring information is the terminal relay device OL? , to the terminal station relay device OL-cho, from the terminal station relay device OL-cho 2 to the terminal station relay bag @ OL-cho 3,・
When the direction of transfer is . . . , R=1, and when the transfer direction is opposite to this direction, R=O. Whether the focus R is 1 or O is determined by the monitoring information insertion unit 11+ (i-1, 2, . . . , 6
) will be judged. The monitoring information S61 is input to the monitoring information insertion section 112 together with the monitoring information S32 generated by the monitoring information generating section 82, and the monitoring information S32 is inputted by the synchronization information 522 generated by the synchronization information generation section 72. After being synchronized with the monitoring information S61, it is inserted at a preset position in the monitoring information S61, as shown in FIG. 3(B). As a result, monitoring information S31 and S32
The monitoring information S62 consisting of the following is sent out from the monitoring information insertion section 11□.

This monitoring information S62 is stored in the service data transfer unit SD2.
It is sent to the monitoring information transfer device AI:U3 via SO2.

Next, the operation of the monitoring information transfer device AC:U3 that constitutes the terminal relay device 0LT3 will be explained. Monitoring information S31+S3
2, the monitoring information S62 consisting of the bit R indicating the transfer direction of the monitoring information and the frame bit F is transferred to the terminal relay device 0LT2.
The data is input from the service data transfer unit SD3 to the monitoring information transfer device AC:U3. This monitoring information S62 is
The monitoring information S33 generated by the monitoring information generating section 83 and the synchronization information S23 generated by the synchronization information generating section 73 are input to the monitoring information inserting section 113, and the monitoring information S33 is
After being synchronized with the monitoring information S62 using the synchronization information S23, it is inserted at a preset position in the monitoring information S62, as shown in FIG. 3(C). As a result, monitoring information S consisting of monitoring information S31゜532 + S33
63 is sent from the monitoring information insertion unit 113. This monitoring information S63 is sent to the terminal relay device 0LTa via the service data transfer unit SD3.

The monitoring information S63 sent to the terminal relay device 0LT4 is
The data is sequentially transferred to the terminal relay device 0LT5.0LT6,
As shown in FIG. 3(D), the monitoring information transferred via all the terminal relay devices is followed by the frame bit F and each terminal relay device OL? , Monitoring information S3i generated in
becomes the monitoring information S6 assigned in the order of S36 + S3S +..., S31.

In the monitoring information S6 sent to the terminal relay bag 310LT6 in this way, the bit R indicating the transfer direction of the monitoring information is changed to 0 in the terminal relay device OLT&, and the transfer direction of the monitoring information S6 is changed to 0. From device 0LT6 to OLT,,
The direction is from OLT, to 0LT4, and so on. In this case, the monitoring information S6 transferred from the terminal relay device OL6 to the OLT is updated to the monitoring information 565 (not shown) by inserting the updated monitoring information S35 in the terminal relay device 0LT5. Similarly, this monitoring information S6S
is sequentially transferred from the terminal relay device OLT, to 0LT4, from 0LT4 to 0LT3, etc., and is updated and transferred to the terminal relay device OLT, and then transferred to the terminal relay device OL.
When the monitoring information is transferred to T, R indicating the transfer direction of the monitoring information is changed to 1, and the monitoring information transfer direction is again from the terminal relay device OLT to 0LT2, and from 0LT2 to 0LT.
3, the direction is...

In this way, the monitoring information is transmitted in the direction from the cascaded terminal relay device OLT to 0LT6, and from the terminal station relay device 0LT.
The data is sequentially updated by repeating the transfer in the direction from 6 to 0LT1.

Although not shown, each of the monitoring information transfer devices ACU, ~At1l:U6 in the terminal relay devices 0LT1 to 0LT6 is equipped with a display device that displays the contents of the monitoring information in the monitoring information insertion section. This makes it possible to understand the contents of the monitoring information.

〔Effect of the invention〕

As explained above, the present invention allows monitoring information generated in this monitoring information transfer device to be transferred from other monitoring information transfer devices to the monitoring information transfer device of any terminal station relay device connected in cascade. By providing a monitoring information insertion unit that is inserted into the transferred monitoring information at a preset position in synchronization with Monitoring information for the entire system is transferred to the monitoring information transfer devices that make up any end-station relay device without any communication lines other than the This has the effect of being able to perform monitoring and control.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing an embodiment of the data communication system of the present invention, and FIG. 2 is a configuration diagram showing the embodiment of FIG. 1.
43+ 81+ 62...Main signal communication line, 72.7
3...Synchronization information generation section, ``2+ 83...Monitoring information generation section, 112, 113...Monitoring information insertion section, AC:J (i=
1.2. ...,6)...Monitoring information transfer device, OL
T; (i= 1.2...., 6)... terminal relay device, SD+ (i= 1.2...., 6)... service data transfer unit, "22 + 523.・・Synchronization information, S3+ (1=l, 2.”', 8L S6+ S6
1*S62, S63...Monitoring information. Patent applicant: NEC Corporation Figure 1

Claims (1)

[Claims] In a data communication system in which a plurality of terminal relay devices each having a monitoring information transfer device and a service data transfer unit are cascade-connected via a main signal communication line, the monitoring information transfer device includes a monitoring information generation unit that generates monitoring information; Synchronization for synchronizing the first monitoring information transferred from the monitoring information transfer device of another terminal relay device via the service data transfer unit and the second monitoring information generated by the monitoring information generating unit. a synchronization information generating section that generates service information, and inserting the second monitoring information into a preset position in the first monitoring information, and transmitting the second monitoring information to another terminal relay device via the service data transfer section. What is claimed is: 1. A data communication system characterized by comprising a monitoring information insertion section for