KR20040044041A - A Method for managing a measuring threshold in Optical Transmission System - Google Patents

Abstract

PURPOSE: A method for managing a measuring threshold value of an optical transmission device is provided to set various measuring threshold values in an optical transmission device unit, and to inform a user that measuring performance values of each unit reach the threshold values, thereby exactly finding a position of a unit having an error and managing a failed threshold value. CONSTITUTION: A performance value collection module of a control unit(102) is periodically driven(211), and requests a current measuring performance value of a unit(101)(212). The unit(101) transmits the current measuring performance value to the control unit(102)(213). If an operator(108) transmits a threshold value setup request to the control unit(102)(214), a threshold value setup module of the control unit(102) sets a threshold value for a performance value of the unit(101)(215). The performance value collection module compares threshold values of the measuring performance value of the unit(101) and the set measuring performance value(216). If the collected measuring performance value exceeds the set threshold value, a threshold value exceeding alarm is generated for the operator(108)(217).

Description

A method for managing a measuring threshold in optical transmission system

The present invention relates to a method of managing a weighing threshold of an optical transmission device, and more particularly, to set thresholds of various measuring values measured in a plurality of units in an optical transmission device, The present invention relates to a metering threshold management method of an optical transmission device for notifying when the threshold is reached.

As high-speed interchange service and broadband video service are commercialized recently, the demand for transmission capacity on communication network is increasing. It is becoming a necessary requirement. In view of these demands, various communication speed increasing methods have been proposed.

Conventional electric and electronic communication means do not support broadband services that require wide bandwidths such as multimedia, which is increasing explosively, and accommodate real-time transmission services requiring transmission within a given time. There was a limit.

Accordingly, a communication method using optical, which is a new medium other than electric and electronic, was devised, and an optical transmission device for this purpose was required. Each unit of the optical transmission device guarantees a wider bandwidth and a faster transmission speed than the conventional electric and electronic transmission devices, but since the severity of the failure due to a failure even in a short time becomes very high, the reliability is higher. Asked.

Therefore, the real-time and accuracy of fault monitoring of the unit of the optical transmission device becomes more important, and the importance of the performance monitoring function of the unit is also highlighted. Accordingly, monitoring of counting performance has been applied, which indirectly monitors the stability of the optical path and the units of the optical transmission device by measuring the number of errors of various packet data passing through the optical transmission path. It provided a means to this.

However, the conventional numerical performance monitoring method is dependent on the digitized information and has a disadvantage in that it does not directly reflect the state of the actual unit. In addition, not only the failure of the target unit to be measured, but also the failure of other connected units or optical transmission devices may exceed the threshold, which may cause malfunction of each target unit, and monitor whether the numerical performance value exceeds the threshold. There was no problem. Furthermore, since the threshold is fixed when the unit is manufactured and cannot be modified later, flexibility is inferior and hassle of having to rebuild the unit when trying to modify the threshold.

In addition, the count threshold management for the conventional optical transmission device measures the degree of error of the digitized content delivered through the optical medium to determine whether the failure from the transmission portion of the data to where the error is detected By doing so, it is impossible to determine the exact location of the failure, and inevitably estimates by collecting the coefficient threshold or failure information throughout the network. Therefore, the count threshold management function can provide a basis for determining whether or not an error has occurred, but there is a limit in finding a fault location.

On the other hand, as a method for solving the problem on the optical transmission system line, Korean Patent Application No. 1999-11287 discloses a monitoring method of the optical transmission system. The above method is for solving a problem occurring on a line connected to a function unit by using a monitoring function between a monitoring function unit and a function unit in an optical transmission system. By switching over and returning to normal when the fault is recovered, shorten the duration of the fault after the fault occurs.

Further, an apparatus for evaluating signal transmission performance of an optical communication device is disclosed in Japanese Patent No. 91-701693. The apparatus comprises an optical signal transmitter and an error detectable receiver for generating an optical signal and measuring the error at the receiving side to measure an error on the line generated during optical transmission.

As described above, the above-mentioned patents are for evaluating the performance of a device by measuring an error already occurring on a line of an optical transmission device or to solve the error on the line. There is no technique to prevent the occurrence of errors in each unit in advance.

Accordingly, the present invention has been proposed to solve the above problems, and sets a threshold for the performance value of each unit mounted in the optical transmission device, and performs information management by performing threshold management according to the performance value of the unit. It is an object of the present invention to provide a method for managing a weighing threshold of an optical transmission device capable of predicting whether a unit has a current failure and a possible failure in advance, independently of an error occurring.

1 is a schematic block diagram of an optical transmission apparatus to which the present invention is applied.

2 is a control flow diagram between a unit and a control unit according to the invention.

Explanation of symbols on the main parts of the drawings

101: unit 102: control unit

103: centralized control unit 104: optical input and output terminal

105: optical input and output 106: operator terminal

107: device internal communication 108: operator

SUMMARY OF THE INVENTION The present invention proposed to achieve the above object is directed to a method for managing thresholding in an optical transmission device comprising a plurality of units for high speed data processing and a plurality of control units for managing and controlling the plurality of units. The first step of the control unit to set the threshold in response to the threshold setting request for the weighing performance value of each unit delivered from the operator; The control unit may include a second step of requesting a current weighing performance value to a unit managed by the control unit at a set cycle; A third step of transmitting the current weighing performance value to the control unit in response to the request; And a fourth step in the control unit comparing the current weighing performance value of the delivered unit with the set threshold and notifying the operator of the comparison result.

Here, the threshold is a reference value that causes a failure with respect to the weighing performance value of each unit, and may be reset in the control unit according to a threshold reset request from the operator.

In addition, in the third step, the weighing performance value of the corresponding unit is transmitted to the control unit using a plurality of sensors connected to sense the performance of the unit.

In addition, the fourth step, if the current weighing performance value exceeds the threshold as a result of the comparison may transmit a threshold exceeded alarm generation to the operator, the result of the comparison within the set range less than the threshold value If practically reached, the alert may be forwarded to the operator.

The present invention relates to a method for collecting and managing threshold values of various weighing performance values generated in an optical transmission device. The method collects continuous characteristic values detected in a measurement object and examines whether a threshold value exceeds a predefined threshold value. Inform appropriate messages to other functions accordingly. Accordingly, malfunctions of units in the optical transmission device can be prevented and performance trends can be analyzed, thereby improving performance and reliability.

Typically, an optical transmission device includes a plurality of units that perform various functions. Each unit, which is a key component of the optical transmission device, is a device having a control function for high-speed data processing. If the weighing performance value according to the performance of each unit exceeds the threshold set by the operator, a malfunction occurs in the unit, thereby degrading the performance and reliability of the entire apparatus.

In order to solve this problem, the present invention sets a threshold that may cause a fault with respect to various measurement performance values measured by various units of the optical transmission device, and periodically measures each unit to measure the measurement performance of each unit. It monitors whether the value exceeds the threshold, raises the performance threshold exceeded alarm if it exceeds the threshold, and notifies the message to other functions including the operator to prevent the failure in advance and identify the performance trend of the unit.

Furthermore, the present invention is a role of performance monitoring for predicting a failure of a unit of an optical transmission device, and more precisely to monitor the unit to determine whether the unit is performing or is degrading. Provide a way to quickly monitor.

The above objects, features, and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in detail the present invention.

1 is a schematic block diagram of an optical transmission apparatus to which the present invention is applied. As shown in FIG. 1, an optical transmission apparatus to which the present invention is applied includes a plurality of units 101 having a plurality of optical input / output terminals 104 for processing light 105 input and output, and the plurality of units 101. The control unit 102, which is an active equipment for controlling the control unit, and the centralized control unit 103 for centrally managing the plurality of control units 102. It also has an in-device communication 107 to interconnect the multiple units described above, and an operator terminal 106 to communicate with the operator and the outside of the device.

Referring to FIG. 1, the unit 101, which is an essential part of the optical transmission device, is a passive device having only minimal control functions for high speed data processing. Each unit 101 processes the data transferred from the outside to the optical input / output terminal 104 in itself and, conversely, transmits the internally processed data to the outside via the input / output terminal 104.

The control unit 102 manages a plurality of units 101, and collects and stores performance values according to the performance of each unit 101. The control unit 101 is connected to various sensors for detecting the performance of the unit, the unit 101 can transmit the performance value to the control unit 102. These multiple control units 102 are in turn managed by the medium pressure centralized control unit 103 to control the operations of the whole unit.

On the other hand, the control unit 102 is an active device that manages and controls the respective units 101, and reads and stores the performance value of each unit 101 managed by itself at a predetermined period. In addition, if an operator requests the control unit 102 to set a threshold value of the weighing performance value that may cause the respective unit 201 to fail, the control unit 102 causes each unit 101 according to the setting request. Set the threshold of weighing performance value.

Subsequently, the performance value received from each unit 101 and the set threshold are compared with each other, and the operator is notified if the performance value exceeds the threshold. In this way, the threshold value for the weighing performance value of each unit 101 is set by the control unit 102 according to the request of the operator, the limit range in which the failure does not occur in the performance processing in each unit 101, By managing the threshold value, it is to prevent the occurrence of a failure in each unit 101 in advance.

Here, the threshold setting module in the control unit 102 receives the threshold setting request of the operator as described above to set the threshold value for the weighing performance value of each unit 101 managed by the operator.

In addition, the control unit 102 collects the weighing performance value from each unit 101 according to a set period, which is executed at a period set by a periodic timer (not shown). That is, the performance value collection module in the control unit 102 is driven periodically by the periodic timer to request the current weighing performance value to the unit 101 which manages itself and is transmitted from the unit 101. Get the performance value.

The performance value collection module of the control unit 102 compares the weighing performance values transmitted from the respective units 101 managed by the control unit with the thresholds set by the threshold setting module, respectively, so that the weighing performance values are determined. If the threshold is exceeded, the operator will be notified. Preferably, a threshold exceeded alarm is generated.

Here, it should be noted that the control unit 102 may be set to notify the operator when the weighing performance value of each unit 101 exceeds a threshold, and the weighing performance value reaches a set range less than a threshold. Can be set to notify the operator. In other words, the metering performance value may be collected at regular intervals, and the operator may be notified when the weighing performance value substantially reaches the threshold without causing an obstacle within a range not exceeding the threshold.

This makes it possible to prevent the failure in advance by notifying when the weighing performance value substantially reaches the threshold, rather than notifying the occurrence of the failure by exceeding the threshold. Such setting may be changed or modified according to the operator's request, and may be additionally performed by adjusting a threshold value set according to the operator's request.

Hereinafter, referring to FIG. 2, a process of setting and managing a weighing performance value threshold in the optical transmission device shown in FIG. 1 will be described in detail.

2 is a control flowchart between the unit 101 and the control unit 102 according to the present invention. Referring to FIG. 2, the performance value collection module in the control unit 102 is periodically driven 211 by a periodic timer (not shown) to request the current weighing performance value from a plurality of corresponding units 101 managed by the user. (212). The corresponding unit 101 transmits a current weighing performance value to the control unit 102 in response to the request (213).

On the other hand, when the threshold setting request for the performance value of each unit 101 is transmitted from the operator 108 to the control unit 102 (214), the threshold setting module in the control unit 102 is managed by itself. A threshold for the performance value of unit 101 is set (215). Here, the threshold refers to a threshold value of the weighing performance value that does not cause a fault in each of the units 101. When the weighing performance value of each of the units 101 exceeds the threshold, the fault is considered to have occurred. .

The performance value collection module of the control unit 102 compares the weighing performance value transmitted from the unit 101 with a threshold value for the set weighing performance value of each unit 101 (216), and the collected weighing. When the performance value exceeds the set threshold, an alert for exceeding threshold 108 is issued to operator 108 (217). Unlike the counting threshold, the weighing threshold should be measured in a constant and short period because it is not possible to measure in real time as an unquantized continuous value such as the voltage or temperature of the unit 101, and must react sensitively to this weighing performance value. do.

As described above, the failure in the unit can be prevented in advance by collecting the weighing performance value in the unit constituting the optical transmission device and providing appropriate notification according to the result of comparing it with the weighing threshold. In the event of a failure of a unit of an optical transmission device that guarantees a high transmission speed and a wide bandwidth, it is very important to prevent such a failure in advance because serious communication problems may occur. However, this is an important defect because the unit has failed that the weighing performance value exceeds the set threshold as a result of the comparison in step 216 as described above. Therefore, when the weighing performance value reaches the set threshold substantially at the determination of step 216, the operator 108 may be notified of this to set the unit to prevent the occurrence of a failure in the corresponding unit 101. . This may be realized by adjusting the threshold in the control unit 102 as required by the operator 108. In this way, the control unit 102 in the optical transmission device manages the weighing threshold of each unit 101 that it manages, thereby preventing the failure in each unit 101 in advance and generating an error in the information to be transmitted. It is possible to determine the presence or absence of the current failure of the unit 101 operating independently, and also to compare the weighing performance value of each unit 101 collected periodically with the threshold and analyze the trend to analyze the trend. Predictive failures can be predicted.

The detailed description and drawings of the present invention disclose a preferred embodiment to help understand the present invention, and do not limit the scope of the present invention, and the scope of the present invention is determined by the above detailed description. Rather, it should be determined in the appended claims.

According to the present invention, it is possible to accurately find the position where the error occurs compared to the conventional counting threshold management method, and the failure can be prevented in advance by managing the failure threshold which is likely to cause the failure in advance.

In addition, the operator can flexibly reset the threshold according to the actual network operation.

The above detailed description and contents disclosed in the drawings are not intended to limit the present invention, and it is apparent to those skilled in the art that various modifications and changes can be made without departing from the spirit of the present invention. will be.

Claims (6)

A method of managing a threshold in a optical transmission device comprising a plurality of units for high-speed data processing and a plurality of control units for managing and controlling the plurality of units, A first step of setting, by the control unit, the threshold according to the threshold setting request for the weighing performance value of the unit delivered from the operator; The control unit may include a second step of requesting a current weighing performance value to a unit managed by the control unit at a set cycle; A third step of transmitting the current weighing performance value to the control unit in response to the request; And And a fourth step of comparing, by the control unit, the current weighing performance value of the delivered unit with the set threshold and notifying an operator of the comparison result. The method of claim 1, wherein the threshold value, And a reference value that causes a disturbance with respect to the weighing performance value of each unit. The method of claim 1 or 2, wherein the threshold value, Weighing threshold management method in the optical transmission device, characterized in that reset in the control unit in response to a threshold reset request from the operator. The method of claim 1, wherein the third step, Method for managing the threshold value in the optical transmission device, characterized in that for transmitting the weighing performance value of the corresponding unit to the control unit using a plurality of sensors connected to detect the performance of the unit. The method of claim 1, wherein the fourth step, And a threshold exceeding alarm generation to the operator when the current weighing performance value exceeds the threshold as a result of the comparison. The method of claim 1, wherein the fourth step, And when the current weighing performance value substantially reaches within a set range less than the threshold, as a result of the comparison, transmitting a corresponding alarm to an operator.