JPH01117438A - On-line error monitor system - Google Patents

Abstract

PURPOSE:To monitor an on-line error at a low-order group interface level of all active lines by using a comparator to monitor some active lines and a standby line. CONSTITUTION:The titled system consists of hybrid transformers 11-14, a changeover switcher at the sender side, hybrid transformers 21-24 at the receiver side, a changeover switcher 25 at the receiver side, a controller 1 and a comparator 2. Then the comparator 2 compares a digital signal from the changeover switcher 25 with a digital signal from a standby line 35 bit by bit. Thus, the signal of an active line 31 and a signal of a standby line 35 are monitored by the comparator 2. Thus, whether the active line and the standby line of the low-order group level is normal or abnormal is discriminated.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to an online error monitoring method for a digital transmission communication system, and particularly to a digital transmission communication system using a digital transmission path method consisting of a working line and a protection line. Regarding online error monitoring method.

[Conventional technology and its problems]

Conventionally, this type of online error monitoring system monitors online errors in working lines and the like in digital communication systems by monitoring parity errors.

This online error monitoring method has a problem in that it does not perform online error monitoring at a low-order group interface level in a digital communication system.

The purpose of the present invention is to solve such problems and to provide an online system for monitoring online errors in the working line by comparing the working line and the protection line in a digital transmission line system that consists of the working line and the protection line. The objective is to provide an error monitoring method.

[Means for solving problems]

The present invention provides an online error monitoring system for monitoring online errors in a transmission communication system in which a transmitting side and a receiving side transmit signals using a transmission line system consisting of one or more working lines and a protection line. a transmitting side branching means for branching the signals of the respective working lines; and a signal output from each of the transmitting side branching means as input, and selecting a signal of one working line from these signals; a transmitting side selection means for outputting to the protection line; a receiving side branching means for branching the signals of the respective working lines on the receiving side; signals outputted from the respective receiving side branching means as input; a receiving side selecting means for selecting and outputting a signal of the one working line from these signals; a comparing means for comparing the signal from the receiving side selecting means and the signal from the protection line; side selection means;
It is characterized by comprising a control means that performs control with the receiving side selection means.

〔Example〕

Next, embodiments of the present invention will be described with reference to the drawings.

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

This embodiment is applied to a digital transmission line system consisting of a low-order group working line 31.32.33.34 and a protection line 35, and is for monitoring the error state of the working line 31.32.33.34. It is. Current line 31.32゜33,
34 and the protection line 35 are bipolar/unipolar converters 31A, 32A, 33A, 34A, 35A and unipolar/bipolar converters 31B, 32B, 33B, 34B.
.

35B, and converts bipolar signals into unipolar signals for transmission. In addition, in this example,
The number of working lines to be applied is four lines, but the number of working lines is not limited to this.

The online error monitoring system shown in FIG. It is composed of a side changeover switcher 25, a controller 1, and a comparator 2.

In the online error monitoring method with such a configuration, the hybrid transformer 11 on the transmission side is connected to the working line 1.
1 is branched and output to the transmission side changeover switcher 15.

Similarly, the hybrid transformer 12.13.14 also branches the digital signals S, C, D input to the working line 12.13.14 and outputs them to the changeover switcher 15.

The transmission side changeover switcher 15 switches the hybrid transformers 11 and 12 according to the control signal e from the controller l.
．． 13. Among the digital signals output from 14,
A digital signal input to one working line is selected and output to the protection line 35. In this embodiment, the changeover switcher 15 selects the digital signal input to the working line 31 and outputs it to the protection line 35.

The hybrid transformer 21 on the receiving side branches the digital signal of the working line 31 sent from the transmitting side, and
It is output to the receiving side changeover switcher 25. Similarly, the hybrid transformers 22, 23, and 24 on the receiving side are
The digital signals of the working lines 32, 33, and 34 are branched and output to the receiving side changeover switcher 25.

The receiving side changeover switcher 25 switches the hybrid transformers 21 and 22 according to the control signal f from the controller 1.
．． The transmitting side changeover switcher 15 selects and outputs the digital signal of the selected working line from among the digital signals outputted from 23 and 24.

In this embodiment, since the switching switcher 15 on the transmitting side selects the digital signal input to the working line 31 as described above, the switching switcher 25 on the receiving side also selects the digital signal of the working line 31. ing.

The comparator 2 compares the digital signal from the receiving side switcher 25 and the digital signal from the protection line 35 on a bit-by-bit basis.

The controller 1 sends control signals e and f to the switches 15 and 25, and performs control so that the transmitting side switcher 15 and the receiving side switcher 25 select the signal of the same working line. In this embodiment, the controller 1 controls the transmitting side switcher 15 and the receiving side switcher 25 so as to select the signal of the working line 31.

Next, the operation of this embodiment will be explained.

The controller 1 selects the signal of the working line 31 from among the low-order group working lines 31, 32, 33° 34,
Control signals e and f are output to changeover switchers 15 and 25.

On the transmitting side, the digital signals a, b, c, d input to the working line 31.32.33.34 are branched by the hybrid transformer 11.12.13°14. One of these branched digital signals is input to the changeover switch -15. The changeover switcher 15 selects the digital signal of the working line 31 based on the control signal e from the controller 1 and outputs it to the protection line 35. This signal is input to the comparator 2 via the bipolar/unipolar converter 35A and unipolar/bipolar converter 35B of the protection line 35.

The other digital signal branched by the hybrid transformer 11.12.13.14 is connected to the working line 31.32°3.
3, 34, working line 31.32.33.34
Bipolar/unipolar converters 31A, 32A, 33
A.

34A and unipolar/bipolar converters 31B, 32B
.

The signal is input to the receiving side hybrid transformer 21.22.23.24 via 33B and 34B. The hybrid transformers 21, 22, 23, and 24 branch these signals and output them to the changeover switcher 25. The changeover switch 25 selects the digital signal of the working line 31 according to the control signal f from the controller 1, and selects the digital signal of the working line 31
Output to.

The comparator 2 compares the digital signal from the changeover switcher 25 and the digital signal from the protection line 35 on a pit-by-bit basis. Thereby, the signal of the working line 31 and the signal of the protection line 35 are monitored by the comparator 2, and it is possible to determine whether the working line and the protection line are normal or abnormal at the lower level group level.

Similarly, controller 1 controls the working line 32.33°3.
If the working lines are automatically selected in a time-sharing manner in order as shown in step 4, the signal passing through the currently selected working line among all working lines and the signal passing through the branched protection line will be detected by the comparator. Since the comparison is made pit-by-pit in step 2, the error status of all working lines can be monitored.

〔Effect of the invention〕

As explained above, the present invention can connect several working lines and
By monitoring the two protection lines with a comparator, online errors can be monitored at the low-order group interface level of all working lines.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing one embodiment of the present invention. l...Controller 2...Comparator 11, 12.13.14...Transmission side hybrid transformer 15...Transmission side changeover switcher 21, 22,
23, 24...Hybrid transformer on the receiving side 25...Switcher on the receiving side 31, 32,
33, 34... Working line 35... Protection line 31A, 32A, 33A. 34A, 35A...Bipolar/unipolar converters 31B, 32B, 33B. 34B, 35B...unipolar/bipolar converter

Claims (1)

[Claims] (1) In an online error monitoring method that monitors online errors in a transmission communication system in which a transmitting side and a receiving side transmit signals using a transmission line method consisting of one or more working lines and a protection line, the transmitting side and transmitting side branching means for branching the signals of the respective working lines; and signals outputted from the respective transmitting side branching means, and selecting the signal of one working line from these signals; a transmitting side selection means for outputting to the protection line; a receiving side branching means for branching the signals of the respective working lines on the receiving side; and a signal output from each of the receiving side branching means as input; a receiving side selecting means for selecting and outputting a signal of the one working line from the signals of the receiving side; a comparing means for comparing the signal from the receiving side selecting means and the signal from the protection line; and the transmitting side. An online error monitoring system characterized by comprising a selection means and a control means for controlling the receiving side selection means.