JPH01212937A - Address duplication detection system - Google Patents

Abstract

PURPOSE:To surely detect duplication of address setting in a repeater by sending frames for monitor comprising a frame bit area, an address area, data transmission identification area, an address duplication identification area and a data area by the number of repeaters as a multi-frame. CONSTITUTION:Repeaters 3, 4, 5 receive a multi-frame sent from a transmission terminal station 1-1 sequentially, a monitor data insertion section 11 recognizes a monitor frame of an address addressed respectively to its own station and when the code of the data transmission identification area in the frame is not revised, the status information is inserted in the data area, the code of the data transmission identification area is revised and when the code of the data transmission identification area in the frame is revised, the code of the data transmission identification area is revised and the status information is not inserted but sent to the next station. A monitor signal reception section 12 of a reception terminal station 2-1 observes whether or not the code in the address duplication identification area of the sent multi-frame is revised is observed and when the code is revised, for example, an alarm representing duplicated address of the repeater is outputted.

Description

Detailed Description of the Invention [Summary] A repeater for collecting status information of each repeater in a communication system having a plurality of repeaters between a first terminal device and a second terminal device. In order to provide an address duplication detection method that can reliably detect duplicate addresses, the address of each repeater is inserted into the transmitting terminal of the first terminal device. A multi-frame creation unit is provided that transmits monitoring frames consisting of address areas, data transmission identification areas, address duplication identification areas, etc. to the next repeater as multi-frames for the number of repeaters, and each repeater has a When a frame is received, it recognizes the monitoring frame for the address addressed to its own station, and if the code in the data sending identification area has not been changed in that frame, it inserts status information and changes the code in the data sending identification area. and if the code of the data transmission identification area has been changed, a monitoring data insertion unit is provided which changes the code of the address duplication identification area and transmits the data to the next station without inserting the status information; The receiving terminal station of the terminal station device receives a supervisory signal to detect whether the code of the address duplication identification area of each supervisory frame of the sent multi-frame has been changed and to detect whether the address specification is overlapping. The structure has two sections.

[Industrial Application Field] The present invention provides a digital communication system having a plurality of repeaters between a first terminal device and a second terminal device, in which each repeater is The present invention relates to an address duplication detection method that can reliably detect when repeater address settings overlap when collecting status information.

[Conventional technology]

A conventional example will be explained below using figures.

FIG. 7 is a block diagram of a conventional digital communication system.

For example, the repeaters 30 and 40.50 are set at 30°40.5, respectively.
0 is given, and in order for the maintainer of terminal device 1' to collect the status information of repeaters 30, 40, and 50, polling is performed to cause the transmitting terminal station l'-1 to transmit the status information. Addresses 30, 40, and 50 are sequentially given to the signals, and the uplink repeater 3'' is sent.

Status information was sent back sequentially from 4" and 5".

Conversely, the maintainer of terminal equipment 2
In order to collect the status information of
0.50 was given sequentially, and the status information was sent back sequentially from downlink repeaters 3°, 4'', and 5°.

[Problem to be solved by the invention]

However, if the addresses of repeaters 40 and 50 are mistakenly set as 40, which is duplicated, for example, in response to a polling signal from transmitting terminal station 1'-1 with address 40, uplink repeater 4" .

5" both returned status information, and due to interference, unknown,
Since the data is sent back to the transmitting terminal station 1''-1, the transmitting terminal station 1'-1 is considered to be non-responsive.

However, even if the address setting is correct and the line between repeaters 30 and 40 is disconnected, the polling signal address is set to 4.
If it is set to 0, there will be no response, so there is a problem that maintenance staff will be confused because they cannot distinguish this from this case.

In addition, there is a problem in that maintenance personnel are confused because it is difficult to distinguish between the case of polling using the address 40 from the transmitting terminal station 2'-2 and the case of a disconnection of the line between the repeaters 50 and 40.

An object of the present invention is to provide an address duplication detection method that can not only distinguish it from line disconnection but also reliably detect even if the address settings of repeaters overlap.

[Means to solve the problem]

FIG. 1 is a block diagram of the principle of the present invention.

As shown in FIG. 1, in a digital communication system having a plurality of repeaters 3, 4.5 between a first terminal device l and a second terminal device 2, in the second terminal device 2: , when collecting the status information of each repeater 3, 4.5, the transmitting terminal station 1-1 of the first terminal device 1 has a frame bit area in which frame bits are inserted, and the address of each repeater. Address area inserted respectively.

Data transmission identification area, address duplication identification area.

A multi-frame creation unit 1O is provided which transmits monitoring frames consisting of data areas to the next repeater as multi-frames equal to the number of repeaters.

In addition, each repeater 3.4.5, when receiving the multi-frame, recognizes the monitoring frame addressed to its own address,
If the code of the data transmission identification area has not been changed in that frame, state information is inserted into the data area, the code of the data transmission identification area is changed, and the code of the data transmission identification area is changed. For example, a monitoring data insertion unit 11 is provided that changes the code of the address duplication identification area and transmits the data area to the next station without inserting status information.

Further, the receiving terminal station 2-1 of the second terminal station device 2 collects the status information of the data area of each monitoring frame of the sent multi-frame, and also changes the code of the address duplication identification area. A supervisory signal receiving section 12 is provided for detecting whether the address specification is duplicated.

[For production]

According to the present invention, the multi-frame creation unit 10 from the transmitting terminal station 1-1 creates a frame bit area into which frame bits are inserted, an address area into which the addresses of each repeater are inserted, and a data transmission identification area.

A monitoring frame consisting of an address duplication identification area and a data area is transmitted to the next repeater as a multi-frame for the number of repeaters.

Then, each repeater 3.4.5 sequentially receives the multi-frame, recognizes the monitoring frame addressed to its own address in the monitoring data insertion unit 11, and in that frame,
If the code of the data sending identification area has not been changed, status information is inserted into the data area and the code of the data sending identification area is changed, and if the code of the data sending identification area has been changed, address duplication identification is performed. The code of the area is changed and the data area is sent to the next station without inserting status information.

In the receiving terminal station 2-1, the supervisory signal receiving unit 12 collects the status information of the data area of each supervisory frame of the sent multi-frame, and also checks whether the code of the address duplication identification area has been changed. If the code has been changed, for example, an alarm indicating that the address of the repeater is duplicated is outputted, so it is known that the address of the repeater is duplicated.

Note that if the line is broken and worn out, multi-frames cannot be received, so it is of course possible to distinguish this from this case.

In the same sentence, in order to collect status information of each repeater on the first terminal device l side, a multi-frame is transmitted from the transmitting terminal station on the second terminal device 2 side, and the first terminal device Similarly, if the signal is received at the l receiving terminal station, it is possible to reliably detect the duplicate address of the repeater, distinguishing it from the case of line breakage.

〔Example〕

An embodiment of the present invention will be described below with reference to the accompanying drawings.

FIG. 2 is a block diagram of the main parts of the terminal equipment according to the embodiment of the present invention, FIG. 3 is a block diagram of the main parts of the repeater according to the embodiment of the invention, and FIG. A diagram showing the frame structure, FIG. 5 is a block diagram of a multi-frame creation unit (A) and a supervisory signal receiving unit (B) of a terminal device according to an embodiment of the present invention, and FIG. 6 is a relay diagram according to an embodiment of the present invention. FIG. 2 is a block diagram of a monitoring data insertion section of the device.

In the digital communication system shown in FIG. 7, in the case of the present invention, one terminal station transmits a multi-frame, and the other terminal station collects status information of each repeater. Since the method for collecting data is the same no matter which end station device is used, the case where data is collected by one end station device will be described below.

Normally, at the transmitting terminal station, as shown in the upper part of Fig. 2, for example,
Three 45 Mbps main signals, αMbpS service signals, and service bits β such as frame bits and parity bits are multiplexed by a multiplexer 60 and transmitted at a transmission rate of (135+α+β) Mbps.

In addition, at the receiving terminal station, as shown in the lower part of Figure 2, (135+
The signal of α+β) Mbps is separated into three 45
The signal is separated into an Mbps main signal, an αMbps service signal, and a βMbps service bit.

In the case of the present invention, on the transmitting side, a multi-frame as shown in FIG. 4 created by a multi-frame creating unit 10, which will be described in detail later, is added to this αMbps service signal and transmitted, and on the receiving side, A monitoring signal receiving unit 12, which will be described in detail later, receives the separated multi-frame 7 Mbps service signal.

In each repeater, as shown in FIG. 3, there is a downlink repeater.

In both uplink repeaters, the dropped/inserted service signal of αMbps is taken in by the drop/insert parts 62 and 64 by the monitoring data insertion part 11, which will be described in detail later, and is sent to the CPU 63.
It is processed under the control of , inserted, and transmitted to the next stage.

Next, regarding the multi-frame creation unit 10, FIG. 5(A)
This will be explained using FIG.

The frame bit generator 65 generates frame bits at the timing of inserting frame bits into the frame bit area of each monitoring frame in FIG. 4, and the address generator 66 generates frame bits in the address area of each monitoring frame. Addresses of the repeaters, for example 30.40.50, are created and inserted in sequence, and using data specifying each area from the data storage area 68, the frame bit area and the address of each repeater are respectively set as shown in FIG. A multi-frame having as many monitoring frames as the number of repeaters, each having an address area to be inserted, a data sending identification area, an address duplication identification area, a data area, and a CRC bit area, is created and sent from the data sending unit 67.

Next, regarding the monitoring data insertion section 11 of each repeater, the sixth
This will be explained using figures. (Although the monitoring data insertion unit 11 has two circuits, one for the downlink repeater and one for the uplink repeater, as shown in FIG. 6, they are the same, so we will explain only one circuit.) The multi-frame shown in FIG. Therefore, when the synchronization detection unit 75 detects frame bits using the received clock and establishes synchronization, the address determination unit 76 determines that the address in the address area of each monitoring frame is addressed to the local station. If it is not addressed to the local station, the sending/inserting control section 79 sends it to the side data transmitting section 83, and transmits it to the next station using the transmission clock.

If the address in the address area of the monitoring frame is addressed to the own station, the CRC error check unit 77 checks for an error, and the data transmission identification bit detection unit 80 checks if the bit in the data transmission identification area is O. It is detected whether the state is 1 or has changed to 1, and if there is no change, the state information is stored in the data storage section 78 that stores the state information of the own repeater, and the sending/insertion control section 79 transmits the state information. It is inserted into the data area of the monitoring frame, and the service bit insertion unit 82 changes the bit in the data transmission identification area of the monitoring frame from 0 to 1 via the transmission insertion control unit 79, and the transmission clock The data transmitter 83 transmits the data to the next station.

The result determined by the address determination unit 76 is addressed to the own station,
If the bit in the data transmission identification area is changed to 1 as a result of detection by the address identification bit detection unit 80, it is assumed that status information has already been written in the monitoring frame of this address, and the transmission insertion Under the control of the control unit 79,
No data is written to the data area of the monitoring frame.
In addition, the address duplication identification bit insertion unit 81 changes O in the address duplication identification area of the monitoring frame to 1 in the transmission insertion control unit 79 via the service bit insertion unit 82.
Send to next station.

Next, the supervisory signal receiving section 1 of FIG. 2 on the receiving side of the terminal device
2 will be explained using FIG.

When the synchronization detection unit 69 detects frame bits from the multi-frame using the received clock and establishes synchronization,
Check for errors in the CRC error check section 70,
The status information of each repeater is stored in the data storage area 71 from the data area of each monitoring frame.

On the other hand, the data transmission identification bit detection unit 72 checks whether the bits in the data transmission identification area of each monitoring frame are 0, and if any are 0, a no-response alarm is issued (in this case, the address If you mistakenly set the address of a repeater with address 50 to 40, the repeater with address 50 will be set to 0.
In this case, the address of the repeater with address 50 is 40, which is a duplicate setting, so the bit in the address duplication identification area, which will be explained next, is set to 1. ).

Further, the address duplication identification detection unit 73 checks whether the bit in the address duplication identification area of each monitoring frame is 0 or 1, and if there is a bit of 1, it issues an address duplication setting alarm.

Therefore, if an address is set twice on a repeater with the address double setting alarm, it can be detected, and with the no response alarm, it is known that there is a repeater that is not responding, and the repeater This proves that the address is duplicated.

Note that if the line is disconnected, the multi-frame cannot be received at the receiving end station, so it is of course possible to distinguish it from a line disconnection.

〔Effect of the invention〕

As described in detail above, the present invention has the advantage of being able to distinguish it from a line break and reliably detect duplicate address settings of repeaters.

[Brief explanation of the drawing]

FIG. 1 is a block diagram of the principle of the present invention; FIG. 2 is a block diagram of the main parts of a terminal equipment according to an embodiment of the invention; FIG. 3 is a block diagram of main parts of a repeater according to an embodiment of the invention; FIG. 4 is a diagram showing a multi-frame structure according to an embodiment of the present invention, FIG. 5 is a block diagram of a multi-frame creation unit and a supervisory signal receiving unit of a terminal device according to an embodiment of the present invention, and FIG. FIG. 7 is a block diagram of a monitoring data insertion unit of a repeater according to an embodiment of the present invention. FIG. 7 is a block diagram of a conventional digital communication system. In the figure, 1.2.1', 2' are terminal devices, 1-1.1'-1, 2'-2 are transmitting terminal stations, 2-1.2
'-1, 1' -2 is the receiving terminal station, 3.4.5.30.4
0.50 is a repeater, 3", 4', 5° are downlink repeaters, 3", 4", 5" are uplink repeaters, 10 is a multi-frame creation section, 11 is a monitoring data insertion section, 12 is a monitoring section A signal receiving section, 60 a multiplexing section, 61 a demultiplexing section, 62 and 64 a drop/insert section, and 63 a CPU.

Claims (1)

[Claims] A digital communication system having a plurality of repeaters (3, 4, 5) between a first terminal device (1) and a second terminal device (2), comprising: At the station equipment (2), each repeater (3, 4, 5)
When collecting the status information of the first terminal device (1), the transmitting terminal station (1-1) of the first terminal device (1) has at least an address area into which the address of each repeater is inserted, a data transmission identification area, and an address duplication area. A multi-frame creation unit (10) is provided for transmitting monitoring frames having an identification area and a data area to the next repeater as multi-frames equal to the number of repeaters, and each repeater (3, 4, 5) has the following: When receiving the multi-frame, it recognizes the monitoring frame with the address addressed to its own station,
If the code of the data transmission identification area has not been changed in that frame, state information is inserted into the data area, the code of the data transmission identification area is changed, and the code of the data transmission identification area is changed. For example, the code of the address duplication identification area is changed, a monitoring data insertion unit (11) is provided that transmits to the next station without inserting status information in the data area, and the second terminal equipment (2) is The receiving terminal station (2-1) collects the status information of the data area of each monitoring frame of the sent multi-frame, detects whether the code of the address duplication identification area has been converted, and specifies the address. An address duplication detection method characterized by comprising a supervisory signal receiving section (12) for detecting whether there is duplication.