Method for managing x PON (Passive Optical Network) threshold value alarm

Abstract

The invention relates to a method for managing an x PON (Passive Optical Network) threshold value alarm, comprising the following steps of: A10, object description: describing an object by utilizing three attributes, such as object type, object hierarchy and object address in a management information model; A20: defining threshold value alarm rules, wherein in the autonomously defined threshold value alarm rules, each threshold value alarm rule is composed of an alarm code, an alarm threshold value switch, an alarm generating threshold value and an alarm disappearing threshold value; and A30, binding a configurated template onto a concrete object and applying the management information model to the concrete object in a way of template binding. The method for managing the x PON threshold value alarm, provided by the invention, has enough strong and extensible functions and can be more simply, flexibly, conveniently and efficiently realized while the management function is enhanced.

Description

technical field [0001] The invention relates to xPON (passive optical network) operation and maintenance, in particular to an xPON threshold alarm management method. Background technique [0002] Threshold alarm management plays an important role in the operation and maintenance of xPON equipment. In terms of threshold alarm management methods, currently there are mainly threshold alarm management architectures based on a single object and threshold alarm management architectures based on a global (global object). [0003] 1. Threshold alarm management architecture based on a single object [0004] The management system customizes a set of threshold alarm management methods for each object. This method can meet the threshold management needs of all different objects, but its own shortcomings make it unable to complete the management tasks of multiple objects, and it is also incapable of managing large-scale networks. These shortcomings are manifested in: [0005] (1) Thre...

AI Technical Summary

Problems solved by technology

This method can meet the threshold management needs of all different objects, but its own shortcomings make it unable to complete the management tasks of multiple objects, and it is also incapable of managing large-scale networks. These shortcomings are manifested in:

[0005] (1) Threshold alarm management methods of the same object type cannot be reused, and a set of threshold alarm methods must be customized for each additional object, resulting in data redundancy;

[0006] (2) The data type of the threshold is a floating-point number, and the storage overhead of the device is large, which seriously consumes the memory and flash (flash memory) of the device;

[0007] (3) For a multi-object system, the query conditions are too large, and the device interacts too much with the manager when executing the query, and the query efficiency is low

The simplistic thinking leads to a fatal shortcoming: the goal is too large, the degree of abstraction is too high, and the individual needs of the object cannot be realized

[0010] In summary, these two management methods are either easy to implement but simple in function, or powerful in function but difficult to implement

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