KR100496955B1 - A Method for Managing an Asynchronous Performance History in Optical Transmission System - Google Patents

Abstract

The present invention collects performance values for various units mounted in an optical transmission device in a control unit and analyzes the performance values in a central control unit to analyze the trend of the performance values. An asynchronous performance value history management method of an optical transmission device for managing history asynchronously.

According to the present invention, when a control unit requests a performance value from a plurality of units managed by the control unit according to a set period and receives the performance value from the unit, the control unit prints and maintains a timestamp for the performance value reception time. A performance value history including a value and the timestamp is sent to a centralized control unit, the centralized control unit managing the transmitted performance value history.

Description

A method for managing an asynchronous performance history in optical transmission system

The present invention relates to a method for managing asynchronous performance value history of an optical transmission device. More specifically, the performance value for various units mounted in the optical transmission device is collected in a control unit, and the performance value is collected. A method of asynchronously managing a history of the performance values in a central control unit to analyze the trend of.

Recently, due to the development of information and communication, large capacity transmission and fast service are becoming essential requirements. In view of these demands, optical media, a new medium capable of supporting wide-bandwidth services such as multimedia, which are growing explosively and smoothly, can accommodate real-time transmission services requiring transmission within a given time. The communication method used was devised, and an optical transmission device for this purpose was needed. Many units mounted in the optical transmission device guarantee wider bandwidths and faster transmission speeds than conventional electrical and electronic communication methods.

As such, since the optical transmission device has a wide bandwidth and can perform the fastest data transmission, the service quality deterioration caused by the failure of the units or the degradation of the performance is serious. Therefore, the importance of performance history management function is emerging to analyze the trend of performance value and prevent various obstacles and take various preventive measures.The importance of accuracy and real-time of historical information is also used as a measure to evaluate the value of the system. Can be.

The conventional performance value history management method independently collects the performance values for the units managed by each control unit and transmits them to the centralized control unit. The centralized control unit receives the timestamp at the collection period set by the control unit. Dip and manage. In addition, although the internal time of each unit in the optical transmission device has a time correction function, there is a slight difference, and since the start time of each unit is different, the start time of collecting performance values is also different. The timestamp of the performance history can only be somewhat inaccurate.

1 is a flowchart showing performance value history management in a conventional optical transmission device. As shown in FIG. 1, the control unit 102 transmits a performance value request to a plurality of units 101 managed by the control unit 102 when the performance value collection timer is activated (S111), and thus the performance value accordingly. Receive and receive accumulates (S113). Subsequently, when the performance value history report timer is activated (S114), the control unit 102 transmits the accumulated accumulated performance value to the centralized control unit 103 as the performance value history (S115). When the performance value history collection timer is activated (S116), the centralized control unit 103 takes a timestamp and manages it (S117), and when the operator 104 requests the performance value history (218), The performance value history is transmitted to the operator 104 (S219).

In the conventional performance history management method as described above, when the centralized control unit 103 receives the performance value history information transmitted from each control unit 102, the time stamp is stamped at the time of the centralized control unit 103. As a result, there may be a slight visual difference between the control unit 102 and the centralized control unit 103, and the centralized control unit 103 uses the performance value history reported by all the control units 102 as its performance value. Since the time stamp is managed by managing the history collection timer driving time (S116), a slight difference occurs when the actual performance value is collected. This difference in time is not a big problem when it is operating normally, but there is a possibility of causing some confusion in locating the failure and tracking down the cause when performance degradation or failure occurs. As described above, although the performance history management method of the conventional optical transmission device adopts the synchronization method, due to structural limitations in terms of sensitivity and real time of performance collection, it is not only very difficult to achieve synchronization but also forced synchronization. There was a problem that caused the uncertainty of the information due to the inconsistencies occurring when doing so, lowering the reliability of the system.

SUMMARY OF THE INVENTION The present invention has been proposed to solve a conventional problem, and the time of the centralized control unit, which is the performance value history management subject, matches the actual performance value collection time and the display time by using an asynchronous method in the optical transmission device. It is an object of the present invention to provide an asynchronous performance value history management method in an optical transmission apparatus that improves the accuracy of performance value collection time by using the actual performance value collection time of a control unit, which is a management agent of performance value collection, as a time stamp.

The present invention for achieving the above object, asynchronous performance value history in the optical transmission device including a plurality of units, a plurality of control units for controlling the plurality of units and a centralized control unit for centralized control of the control unit A management method comprising: a first step of requesting a performance value from a plurality of units managed by each control unit according to a set period; A second step of taking a timestamp for the performance value reception time when each control unit receives the performance value from the plurality of units; A third step of each control unit transmitting a performance value history including the performance value and a timestamp to a centralized control unit; And a fourth step of centrally controlling the performance value history transmitted from each control unit.

Here, the performance value history management method according to the present invention, when the centralized control unit receives the performance value history request from the operator, may further comprise the step of transmitting the managed performance value history to the operator.

The performance value history data managed by the centralized control unit includes a sequence number indicating a serial number, a unit name for distinguishing the unit, a performance point for generating a performance value of each unit, a plurality of performance values for each performance point, and the performance. Contains time stamp information indicating the time at which the value was collected.

Further, the third step preferably transmits the performance value history to the centralized control unit at a set period.

The present invention is to provide a method for managing the asynchronous performance value history of the optical transmission device, to asynchronously manage the history of recent performance values of the units in order to analyze the trend of the recent performance values of the various units mounted in the optical transmission device. Provide a way to. To this end, the asynchronous performance history management of the optical transmission device applies an asynchronous method between the performance collection function and the performance history management function. In general, in order to manage the trend of the performance values collected by the plurality of units managed by the control units mounted in the optical transmission device, it is necessary to manage the history of the performance values in the centralized control unit. Since the start time and the current time of each unit are inevitably different from each other, the collection time and timestamp of the performance value must be different from each other, so that the performance value history management function should be performed asynchronously. Through this method, the accuracy of the performance value history management is improved, and the instability of the optical transmission device due to the time mismatch can be solved.

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.

2 is a schematic configuration diagram according to an embodiment of a general optical transmission device to which the present invention is applied. Referring to FIG. 2, the optical transmission device includes a plurality of units 201 having a plurality of optical input / output terminals 204 for processing the input and output light 205, and a control unit that is an active equipment for controlling the unit 201. 202 and a centralized control unit 203 for centrally managing a plurality of control units 202. It also has an internal device communication 207 to interconnect the multiple units described above, and an operator terminal 206 to communicate with the operator and the outside of the device.

Referring to FIG. 2, the unit 201, 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 201 processes data transferred from the outside to the optical input / output terminal 204 in itself and conversely transmits the data processed internally through the input / output terminal 204.

The control unit 202 manages a plurality of units 201, and collects and stores performance values according to the performance of each unit 201. The control unit 202 is connected to various sensors for detecting the performance of the unit, the unit 201 may transmit the performance value to the control unit 202. These multiple control units 202 are again managed by the medium pressure centralized control unit 203 and will control the operations of the whole unit.

On the other hand, the control unit 202 is an active device that manages and controls the respective units 201, and reads and stores the performance value of each unit 201 managed by itself at a predetermined period, and the stored and accumulated management The performance value of the unit 201 is transmitted to the centralized control unit 203 at regular intervals. The centralized control unit 203 maintains and manages the transmitted performance value as the performance value history, and outputs the performance value history information request from the operator through the operator terminal 206 to the operator terminal 206. .

Here, when the control unit 202 requests and receives the performance value from each of the units 201, it prints and maintains its own time stamp. As a result, the performance value collection time and the display time of the time stamp become the same. Subsequently, the control unit 202 transmits the held accumulated performance value along with the timestamp to the centralized control unit 203 as a performance value history.

3 is a flowchart illustrating a method for managing asynchronous performance value history in the optical transmission device according to the present invention. Referring to FIG. 3, when the performance value collection timer (not shown) operates (S311), the control unit 202 requests a performance value from the plurality of units 201 managed by the control unit (S312). The corresponding unit 201 transmits a performance value to the control unit 202 in response to the request (S313). At this time, the control unit 202 stamps and maintains the performance value reception time with a time stamp (S314).

Subsequently, when the performance value history report timer (not shown) operates (S315), the control unit 202 uses the centralized control unit (S315) as the performance value history along with the timestamp to store the accumulated performance value maintained with the timestamp. 203). When the operator 208 requests the performance value history (S317), the centralized control unit 203 outputs the performance value history collected during the operation to the operator 208 (S318).

As described above, the method for managing asynchronous performance value history in the optical transmission apparatus according to the present invention manages the time stamp when the actual performance value is collected from the unit 201, so that the performance value collection time and the time displayed to the operator 208 are maintained. This coincides with this, and thus there is no problem of visual inconsistency, and the performance value history management procedure is simplified because the centralized control unit 203 does not need to run a timer separately to manage the time stamp for the performance value history.

4 is a structural diagram of performance value history information data according to the present invention. The performance value history information data shown in FIG. 4 takes a time stamp of the performance value collection time when the performance value is collected from the plurality of units 201 in the control unit 202, and then transmits the performance value history information data to the centralized control unit 203. And data managed by the centralized control unit 203. That is, as shown in FIG. 4, the performance value history information data is managed by the centralized control unit, the sequence number 401 indicating the serial number, the unit name 402 for dividing the unit 201, and each unit ( It consists of a performance point 403 producing a performance value of 201, several performance values 404 for each performance point, and a timestamp 405 representing the time at which the performance was collected.

As described above, when collecting the performance value in the unit constituting the optical transmission device in the control unit, it is possible to solve the problem of visual discrepancy in the performance value history by time stamping and managing the time to collect the performance value have. In this case, the performance value history management is preferably performed asynchronously to prevent inconsistency between the performance value collection time and the timestamp due to the difference between the start time and the current time of the unit.

In addition, by managing the performance value history as described above, it is possible to analyze the trend according to the performance value of various units, thereby preventing the failure in the optical transmission device in advance and taking various preventive measures.

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, the procedure is simple as compared with the conventional synchronous performance history management method, and there is no visual discrepancy with respect to the performance history, thereby improving reliability and accuracy of fault tracking.

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.

1 is a flowchart showing performance value history management in a conventional optical transmission device.

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

3 is a flowchart illustrating a method for managing asynchronous performance value history in the optical transmission device according to the present invention.

4 is a structural diagram of performance value history information data according to the present invention.

 Explanation of symbols on the main parts of the drawings

101, 201: unit 102, 202: control unit

103, 203: centralized control unit 104, 208: operator

204: optical input / output terminal 205: optical input / output

206: operator terminal 207: device internal communication

Claims (4)

In the asynchronous performance value history management method in the optical transmission device comprising a plurality of units, a plurality of control units for controlling the plurality of units and a centralized control unit for centralized control of the control unit, A first step of requesting a performance value from a plurality of units managed by the control unit according to a set period; A second step of taking a timestamp for the performance value reception time when each control unit receives the performance value from the plurality of units; A third step of each control unit transmitting a performance value history including the performance value and a timestamp to a centralized control unit; And A fourth step of the centralized control unit asynchronously managing a history of performance values transmitted from each control unit; Asynchronous performance value history management method of the optical transmission device comprising a. The method of claim 1, The centralized control unit further comprises the step of transmitting the managed performance value history when receiving the performance value history request from the operator, characterized in that the asynchronous performance value history management method of the optical transmission device. The method of claim 1, Performance value history data managed by the centralized control unit, A sequence number indicating a serial number, a unit name for identifying a corresponding unit, a performance point for generating a performance value of each unit, a plurality of performance values for each performance point, and timestamp information indicating a time at which the performance value was collected. Asynchronous performance value history management method of an optical transmission device, characterized in that. The method of claim 1, wherein the third step, And transmitting the performance value history to the centralized control unit at a set period.