KR20000020493A - 1+1 replacement method complemented service down - Google Patents

Abstract

PURPOSE: An 1+1 replacement method complemented service down is provided to prevent a service of a terminal base station or an exchange office due to a mistake of a worker performing a routine work from being stopped. CONSTITUTION: An 1+1 replacement method complemented service down includes six steps. a first step is to judge whether a failure is generated on a terminal for the main operation of a first terminal base station(10) or not. A second step is to judge whether a failure is generated on a spare terminal of the first terminal base station or not. A third step is to, when there is a failure in the second step, judge whether a terminal for the main operation of second and third terminal base stations(50, 80) is the same as the terminal for the main operation of the first terminal base station or not. A fourth step is to, when the terminal for the main operation of second and third terminal base stations is the same as the terminal for the main operation of the first terminal base station, judge whether the main terminal of the second and third terminal base station continuously displays a transmission service or not. A fifth step is to, when there is a display in the fourth step, delete the display and whether a spare terminal displays again and continuously displays a transmission service or not. A sixth step is to, when there is a display in the fifth step, delete the display and transmit to a finish step.

Description

1 + 1 transfer method to complement service down

The present invention relates to a 1 + 1 switchover to a spare line when an abnormality occurs in a main line in communication using an optical cable or a coaxial cable, in particular two signal sources having a capacity of N and a capacity of 2N capacity. When one signal source communicates with each other, the present invention relates to an apparatus for easily checking a switched situation.

In the prior art, since 1 + 1 switching is based on a received signal, it is difficult to identify a transmitting unit that only transmits when the transmitting unit and the receiving unit are different. Down occurs.

Hereinafter, a conventional technology will be described with reference to the drawings.

1 and 2 are state diagrams in which one 2N capacity signal source and two N capacity signal sources are connected in a 1 + 1 transmission manner, and FIG. 1 is a signal flow diagram of 1 + 1 showing a normal signal flow. Figure 2 is a signal flow diagram of 1 + 1 showing the flow of the signal at the time of switching due to the failure.

The 2N capacity first terminal station 10 that transmits and receives a signal includes a first terminal station 20 having 2N capacity in operation and a second terminal station 30 having a capacity of 2N for spare. 2 terminal station 50 is composed of a third terminal station 60 of N capacity in operation and a fourth terminal station 70 of N capacity for reserve, and another N terminal third station 80 of capacity N. It consists of a fifth terminal station 90 of the N capacity in operation and a sixth terminal station 100 of the N capacity for reserve, and between each terminal station for transmitting and receiving signals (40) of an optical cable or a coaxial cable (40). ) Is connected.

As an embodiment in which each terminal station of each terminal station is normally operated, when a signal is transmitted / received from the switching station X to the switching station Y, the switching station X of the first terminal station 10 transmits a signal to the first terminal station of the driving operation. The third terminal station 60 and the fourth terminal station of the second terminal station 50 through the cable 41 and the cable 45 are applied to both the 20 and the spare second terminal station 30. And transmits to the switching station Y only the signal through the third terminal station 60 which is normally in operation.

At this time, the signal transmitted from the switching station Y to the switching station X is applied to the main action third terminal station 60 and the spare fourth terminal station 70 of the second terminal station, respectively, and the cable 42 and the cable 46. It is applied to the first terminal station 20 and the spare second terminal station 30 of the first terminal station through respectively, but the first terminal station 20 is operating in the normal main operation, so that the first terminal station ( Only a signal through 20) is received and applied to the switching center X.

At the same time, when transmitting from the switching center Z to the switching center X, the transmission signal of the switching center Z is simultaneously applied to the fifth terminal station 90 and the sixth terminal station 100, and is transmitted through the cable 44 and the cable 48. It is applied to the first terminal station 20 and the second terminal station 30 of the first terminal station 10. However, only signals through the first terminal station 20 in operation are applied to the switching center X.

In another embodiment, the signal applied from the switching center X to the switching center Z is also applied to the first terminal station 20 and the second terminal station 30 and via the cable 43 and the cable 47 to the fifth terminal. Only the signal through the fifth terminal station 90 which is applied to the station 90 and the sixth terminal station 100 and is in normal operation is applied to the switching station 90.

However, as shown in FIG. 2, when the third terminal station 60 of the second terminal station 50 has been removed for failure or repair, the first terminal station 20 of the first terminal station 10 is described above. Since the signal is not received from the third terminal station 60, the reception failure state is displayed through the LED installed on the front panel of the first terminal station 20, the reception function is stopped, and only the transmission function is operated. Accordingly, in the first terminal station 10, the first terminal station 20 operates only a transmission function and the second terminal station 30 operates both a transmission and reception function.

Therefore, transmission and reception operations of the exchange station X and the exchange station Y are performed only through the cable 45 and the cable 46 between the second terminal station 30 and the fourth terminal station 70.

At this time, the communication operation of the transmission and reception between the switching station X and the switching station Z is different from the transmitting terminal station and the receiving terminal station. That is, the transmission signal of the switching center X is transmitted from the first terminal station 20 to the switching center Z via the cable 43 via the fifth terminal station 90, and the transmission signal of the switching station Z is transmitted to the sixth terminal station 100. Through the cable 48 to the second terminal station 30 and to the switching center X.

In this conventional technique, all the terminal stations use the LEDs installed on the front panel of each terminal station based on the reception function to indicate that visual normal operation or operation is in progress. Therefore, since the sixth terminal station 100 of the third terminal station 80 operates only a transmission function, there is a problem in that the indication that it is in operation does not appear at all on the front panel.

Therefore, the maintenance operation personnel can remove the apparatus of the sixth terminal station 100 as described above, and in this case, the fifth terminal station cannot be received by the first terminal station even when the fifth terminal station is not malfunctioning and is operating normally. As a result, the third terminal station is down due to the impossible transmission, and as a result, a serious situation occurs in which the switching center Z cannot serve.

In order to solve the above problems, by controlling the front panel LED of the terminal station that transmits only to continue blinking, it is possible to confirm whether the maintenance or the operator is a terminal station that performs only the transmission function, so that transmission and reception As it can be confirmed that it is made through different terminal stations, there is an object of preventing the service interruption situation of the terminal station or the exchange station due to the mistakes of the day-to-day operators such as equipment check.

1 is a signal flow diagram of 1 + 1 showing a normal signal flow;

2 is a signal flow diagram of 1 + 1 showing the flow of the signal when switching due to a bad occurrence,

In order to achieve the above object, the 1 + 1 switching method that complements the service down of the present invention includes a main terminal station determining step of determining whether or not a main terminal station of the first terminal base station has a failure, and the main terminal station determining step. In case of a failure, the spare terminal station determination step of determining whether the spare terminal station of the first terminal station has a failure, and if there is a failure in the spare terminal station determination step, the main operation terminal of the second and third terminal stations A judging step of judging whether the station is the same as the main-action terminal station of the first terminal station, and if same in the above judging step, judging whether there is a transmission service indication in the main terminal stations of the second and third terminal stations. If there is an indication in the terminal station display confirming step and the above main terminal station display confirming step, the indication is deleted and the transmission service table is continued to the spare terminal station again. It is displayed and a verification step to verify the preliminary station there, if there is a display on the display a verification step of the preliminary station, composed of a step of deleting the display and sent to the end step.

Hereinafter, referring to the accompanying drawings, a configuration of the 1 + 1 transfer method that complements the service down of the present invention will be described.

3 is a block diagram of controlling each terminal station from the central control unit, and FIG. 4 is a signal flow diagram of a 1 + 1 switching method to supplement service down according to the present invention.

The central control unit 120 for controlling each terminal station checks the first terminal station 10 and goes through a main terminal station determination step of determining and confirming whether or not there is a failure in the first terminal station 20 which is a main-action terminal station. When the first terminal station 20 has a failure in the main terminal station determination step, the central control unit 120 checks and determines whether the spare terminal station 30 of the first terminal station 10 has a failure. The terminal station determination step is performed, and if there is an error in the second terminal station 30, which is the spare terminal station, in the above-described spare terminal station determination step, the second terminal station 50 and the third terminal station 80 Whether the third terminal station 60 and the fifth terminal station 90 which are co-operation terminal stations are the first terminal station 20 which is co-operation like the first terminal station 10, that is, are all co-operation terminal stations. Performing the sameness determination step of checking and determining, and in the sameness determination step If the currently operating terminal station of the terminal station is the coordinating terminal station, it is determined whether the coordinating terminal stations of the second terminal station 50 and the third terminal station 80 continue to display the transmission service, and continue in the above step. If the transmission service is displayed, the above transmission service indication is removed. If the transmission service is not displayed, the transmission is sent to the next step and the transmission is continued to the spare terminal stations of the second terminal station 50 and the third terminal station 80. A step of confirming whether or not the service indication is made and if the transmission service indication is continuously given to the spare terminal station in the above step, the indication is removed. In addition, if a negative judgment is made in the main terminal station determination step and the spare terminal station determination step, the terminal station station is sent to the main terminal station display confirmation step. In the case of not being an active terminal station, a transmission service indication indicating that transmission service is in progress to each spare terminal station of the second terminal station and the third terminal station 80 is sent to the end step.

When the above steps are described in more detail, in each terminal station, the first terminal station, the third terminal station, and the fifth terminal station, which are the main operation terminal stations, should operate normally. In addition, at this time, the indication that the normal operation is displayed through the LED installed in the front of the terminal station, the confirmation of this operation is determined as confirming whether the received signal is normally received.

However, in any one terminal station, when the main action terminal station is removed for failure or inspection, the terminal station that is engaged is not a failure but should not be received and thus displays a reception failure, and the central control unit 120 detects this. Since the interlocked normal terminal station indicates a reception failure, but the transmission function is still in operation, the terminal station for transmitting and the receiving terminal station are different from the terminal station where the terminal station has failed or has not been eliminated. In this case, the received signal is used as a reference, and the LED station indicating that the receiving function is in operation is displayed, and the transmitting terminal does not display any LED. You can judge and remove the checklist. At this time, the terminal station does not transmit the transmission signal of the switching station, which results in the down of the switching station and the terminal station. Therefore, the central control unit detects such a situation so that a specific LED installed on the front panel of the terminal station having a transmission function only blinks, so that there is no maintenance check and no operator error.

As described above, the present invention provides a terminal station display device displaying a normal operation on the basis of a reception operation so that the LED installed on the front panel of the terminal station in the transmission operation is blinking, so that the system maintenance and inspection operator can easily determine. By doing so, there is an effect of preventing a problem such as service down.

Claims (5)

A main terminal station determining step of determining whether the main active terminal station of the first terminal base station has a failure; A spare terminal station determining step of determining whether a spare terminal station of the first terminal station has a failure when the primary terminal station determination step is performed; An identity determination step of judging whether the primary action terminal stations of the second and third terminal stations are the same as the primary action terminal stations of the first terminal station, if there is a failure in the spare terminal station determination step; A main terminal station display confirming step of judging whether the main terminal stations of the second and third terminal stations continue to display the transmission service, if they are the same in the above-described identity determination step; A preliminary terminal station display confirming step of deleting the display and judging whether the spare terminal station continues to display the transmission service if there is an indication in the main terminal station display confirming step; If there is an indication in the preliminary terminal station display confirmation step, 1 + 1 transfer method to complement the service down, characterized in that the step of deleting the indication and sending to the end step According to claim 1, In the main terminal station determination step and the spare terminal station determination step, if there is no failure, the 1 + 1 transfer method complementing the service down, characterized in that sent to the terminal station display confirmation step. According to claim 1, In the main terminal station display confirmation step, if there is no indication, the 1 + 1 transfer method complementing the service down, characterized in that sent to the pre-terminal station display confirmation step. According to claim 1, In the preliminary terminal station display confirmation step, if there is no indication, the 1 + 1 transfer method to complement the service down, characterized in that sent to the end step. According to claim 1, In the sameness determination step, if not equal to 1 + 1 transfer method to complement the service down, characterized in that the transmission service indication to the reserve terminal stations of the second and third terminal stations and send to the end step.