CN111917568A - Method for detecting mis-configuration of mobile internet network element equipment - Google Patents

Abstract

The invention relates to a method for detecting the mis-configuration of mobile internet network element equipment, which comprises the steps of collecting a working parameter set of each network element equipment on the mobile internet in a preset time period, calculating a standard deviation corresponding to each working parameter, respectively fitting a real-time change fitting curve of each working parameter corresponding to each network element equipment, obtaining an inflection point time set and an inflection point value set corresponding to each working parameter real-time change fitting curve of each network element equipment, obtaining an optimal correction time corresponding to each working parameter of the network element equipment, correcting the working parameter value corresponding to any network element equipment at the optimal correction time to the optimal working parameter value when detecting that any network element equipment works to the optimal correction time corresponding to any working parameter, continuously executing work by the working parameter after self correction of each network element equipment, and realizing the automatic detection and automatic correction of the mis-configuration operation of each network element on the mobile internet, the mis-configuration detection efficiency of the network element equipment is improved.

Description

Method for detecting mis-configuration of mobile internet network element equipment

Technical Field

The invention relates to the field of mobile internet, in particular to a method for detecting the mis-configuration of mobile internet network element equipment.

Background

With the development of the mobile internet technology, various network element devices are applied to the mobile internet and play an important role in supporting the normal operation of the mobile internet.

In the actual operation process of the mobile internet, each network element device is difficult to avoid faults caused by long-term work, and influence and even complete stop of the work of the whole mobile internet are caused. Therefore, it is necessary to timely prepare the various network element devices on the mobile internet for detection in order to timely troubleshoot and make modifications.

However, in the configuration detection of the network element equipment for the mobile internet, most of the methods are based on manually detecting the configuration file, so as to detect the error occurring in the configuration file of the network element equipment, and then make a correction. However, it is inevitable to use a lot of manpower and time, and it also needs professional knowledge basically determined by human testers to identify the mis-configuration information of the network element device, so that the efficiency of detecting the mis-configuration of the network element device on the mobile internet is reduced.

Disclosure of Invention

The technical problem to be solved by the present invention is to provide a method for detecting a mis-configuration of a mobile internet network element device in view of the above prior art.

The technical scheme adopted by the invention for solving the technical problems is as follows: a method for detecting the mis-configuration of the network element equipment of the mobile internet is characterized by comprising the following steps:

step 1, acquiring identification numbers of network element devices on the mobile Internet and corresponding working parameter value sets; wherein, the total number of the network element devices on the mobile internet is marked as M, and the mth network element device on the mobile internet is marked as Equipment_mNetwork element Equipment_mIdentification number mark of

Network element Equipment_mIs marked as

Parameter set

The total number of the operating parameter classes in the parameter set is marked N

The nth operating parameter of

Operating parameters

Is marked with

1≤m≤M，1≤n≤N；

Step 2, respectively detecting the working state whether each network element equipment on the mobile Internet is started or not in real time, and after detecting that any network element equipment is started to work, turning to step 3; otherwise, continuously detecting the working state of each network element device;

step 3, respectively detecting the working parameter value sets of the network element equipment after starting working according to a preset acquisition time within a preset time period, and respectively obtaining the working parameter sample value sets corresponding to the network element equipment;

wherein the preset time period is marked as T_preThe preset time period T_preMarking the total number of the corresponding preset acquisition moments as I and a preset time period T_preThe ith preset acquisition time mark in the table is t_iNetwork element Equipment_mAt a preset acquisition time t_iCorresponding working parameter

Is marked with

Network element Equipment_mThe corresponding working parameter sample value set is marked as

Step 4, calculating the standard difference value of each working parameter sample value set in the working parameter sample value set corresponding to each network element device aiming at each network element device on the mobile network; wherein, the network element Equipment_mCorresponding working parameter sample value

The standard deviation of the set is marked

Step 5, aiming at each network element device on the mobile network, respectively fitting to obtain a real-time change fitting curve of each working parameter corresponding to each network element device in the preset time period according to the obtained working parameter sample value set corresponding to each network element device; wherein, the network element Equipment_mCorresponding working parameter

At a preset time period T_preReal-time change fit curve labeling

t∈[0,T_pre]；

Step 6, calculating each working parameter of each network element equipmentCalculating inflection point time of a real-time change fitting curve corresponding to each working parameter of the network element equipment and an inflection point value corresponding to the inflection point time to obtain an inflection point time set and a corresponding inflection point value set of the working parameter corresponding to the network element equipment; wherein, the network element Equipment_mCorresponding working parameter

Corresponding real-time variation fitting curve

Has K inflection points at the moment, and changes the fitting curve in real time

Is marked as the K-th inflection point time

1≤k≤K；

Step 7, respectively searching a minimum inflection point value in the inflection point value set and an inflection point time corresponding to the minimum inflection point value of each working parameter of each network element device, and marking the searched inflection point time as the optimal correction time of the working parameter;

step 8, when detecting that any network element equipment works to the optimal correction time corresponding to any working parameter of the network element equipment, correcting the working parameter value corresponding to any network element equipment at the optimal correction time to the optimal working parameter value; wherein, the network element Equipment_mOperating parameters of

Marking the optimal working parameter value corresponding to the optimal correction time

t_optFor network element Equipment_mOperating parameters of

The corresponding optimal correction time;

and 9, each network element device on the mobile internet continuously executes work according to the corrected working parameters.

In the method for detecting mis-configuration of mobile internet network element equipment, the working parameter set of any network element equipment at least contains the power consumption parameter of the network element equipment.

Further, the network element device obtains its own power consumption parameter according to the following steps a 1-a 4:

a1, obtaining the appointed information of the components in the network element device;

step a2, determining the current power consumption value of the component according to the specified information;

a step 3, determining a first power consumption value of a component according to a current power consumption value and a basic power consumption value of the component, wherein the basic power consumption value is used for indicating the power consumption value of the component in idle running or full running;

step a4, determining a second power consumption value of the network element device according to the first power consumption value.

Still further, in the method for detecting mis-configuration of mobile internet network element device, the network element device Equipment_mMarking current power consumption value of middle component

Network element Equipment_mMarking of base power consumption value of middle component

Network element Equipment_mThe first power consumption value of the middle component is marked as

Representing a numerical value

And a numerical value

Maximum value of (1), network element Equipment_mMarking the second power consumption value of the middle component as

Compared with the prior art, the invention has the advantages that: the method comprises the steps of collecting a working parameter set of each network element device in a preset time period after starting work on the mobile Internet, calculating a standard deviation corresponding to each working parameter, respectively fitting to obtain a real-time change fitting curve of each working parameter corresponding to each network element device in the preset time period, obtaining an inflection point time set and an inflection point value set corresponding to each real-time change fitting curve of each working parameter of each network element device, obtaining an optimal correction time corresponding to each working parameter of each network element device, finally correcting the working parameter value corresponding to any network element device to the optimal working parameter value at the optimal correction time when detecting that any network element device works to the optimal correction time corresponding to any working parameter, and continuously executing work by each network element device according to the working parameter corrected by the network element device, thereby realizing automatic detection and automatic correction of mis-configuration operation of each network element on the mobile Internet, the mis-configuration detection efficiency of the network element equipment is improved.

Drawings

Fig. 1 is a flow chart of a method for detecting mis-configuration of a mobile internet network element device according to an embodiment of the present invention.

Detailed Description

The invention is described in further detail below with reference to the accompanying examples.

Referring to fig. 1, the present embodiment provides a method for detecting a mis-configuration of a mobile internet network element device, including the following steps:

step 1, acquiring identification numbers of network element devices on the mobile Internet and corresponding working parameter value sets; wherein, suppose that the total number of the network element devices on the mobile internet is marked as M, and the mth network element device on the mobile internet is marked as Equipment_mNetwork element Equipment_mIdentification number mark of

Network element Equipment_mIs marked as

Parameter set

The total number of the operating parameter classes in the parameter set is marked N

The nth operating parameter of

Operating parameters

Is marked with

M is more than or equal to 1 and less than or equal to M, N is more than or equal to 1 and less than or equal to N; in this embodiment, the operating parameter set of any network element device at least includes a power consumption parameter of the network element device;

step 2, respectively detecting the working state whether each network element equipment on the mobile Internet is started or not in real time, and after detecting that any network element equipment is started to work, turning to step 3; otherwise, continuously detecting the working state of each network element device;

step 3, in a preset time period T_preRespectively detecting the working parameter value sets of each network element device after starting working according to a preset acquisition time, and respectively obtaining the working parameter sample value sets corresponding to each network element device;

wherein the preset time period T_preMarking the total number of the corresponding preset acquisition moments as I and a preset time period T_preThe ith preset acquisition time mark in the table is t_iNetwork element Equipment_mAt a preset acquisition time t_iCorresponding working parameter

Is marked with

Network element Equipment_mThe corresponding working parameter sample value set is marked as

Is about network element Equipment_mFirst operating parameter of

Set of sample values, set of sample values

Containing sample values

To

The I sample values; in the same way, the method for preparing the composite material,

is about network element Equipment_mThe Nth operating parameter of

Set of sample values, set of sample values

Containing sample values

To

The I sample values;

step 4, calculating the standard difference value of each working parameter sample value set in the working parameter sample value set corresponding to each network element device aiming at each network element device on the mobile network; wherein, the network element Equipment_mCorresponding working parameter sample value

The standard deviation of the set is marked

Step 5, aiming at each network element device on the mobile network, respectively fitting to obtain a real-time change fitting curve of each working parameter corresponding to each network element device in the preset time period according to the obtained working parameter sample value set corresponding to each network element device; wherein, the network element Equipment_mCorresponding working parameter

At a preset time period T_preReal-time change fit curve labeling

t∈[0,T_pre]；

Step 6, calculating an inflection point time of a real-time change fitting curve corresponding to each working parameter of the network element equipment and an inflection point value corresponding to the inflection point time aiming at each working parameter of the network element equipment to obtain an inflection point time set and a corresponding inflection point value set of the working parameter corresponding to the network element equipment; wherein, the network element Equipment_mCorresponding working parameter

Corresponding real-time variation fitting curve

Has K inflection points at the moment, and changes the fitting curve in real time

Is marked as the K-th inflection point time

1≤k≤K；

It should be noted that, by calculating the inflection point value of the real-time variation fitting curve of the working parameter of the network element device at the corresponding inflection point time, whether the working parameter has a front-back sudden variation or not along with the time variation can be obtained by using the obtained inflection point value, so that the inflection point time when the front-back variation occurs is conveniently used as the time when the working parameter is abnormal, and the subsequent adjustment and correction of the working parameter of the network element device are facilitated;

step 7, respectively searching a minimum inflection point value in the inflection point value set and an inflection point time corresponding to the minimum inflection point value of each working parameter of each network element device, and marking the searched inflection point time as the optimal correction time of the working parameter;

step 8, when detecting that any network element equipment works to the optimal correction time corresponding to any working parameter of the network element equipment, correcting the working parameter value corresponding to any network element equipment at the optimal correction time to the optimal working parameter value; wherein, the network element Equipment_mOperating parameters of

Marking the optimal working parameter value corresponding to the optimal correction time

t_optFor network element Equipment_mOperating parameters of

The corresponding optimal correction time;

and 9, each network element device on the mobile internet continuously executes work according to the corrected working parameters. In addition, specifically in this embodiment, as a specific implementation method for the network element device to obtain its own operating parameters, the network element device herein obtains its own power consumption parameters according to the following steps a1 to a 4:

a1, obtaining the appointed information of the components in the network element device;

step a2, determining the current power consumption value of the component according to the specified information; wherein, the network element Equipment_mMarking current power consumption value of middle component

A step 3, determining a first power consumption value of a component according to a current power consumption value and a basic power consumption value of the component, wherein the basic power consumption value is used for indicating the power consumption value of the component in idle running or full running; network element Equipment_mMarking of base power consumption value of middle component

Network element Equipment_mThe first power consumption value of the middle component is marked as

Representing a numerical value

And a numerical value

Maximum value of (1);

step a4, determining a second power consumption value of the network element device according to the first power consumption value. Therein, here, network element Equipment_mMarking the second power consumption value of the middle component as

Although preferred embodiments of the present invention have been described in detail hereinabove, it should be clearly understood that modifications and variations of the present invention are possible to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (4)

1. A method for detecting the mis-configuration of the network element equipment of the mobile internet is characterized by comprising the following steps:

step 1, acquiring identification numbers of network element devices on the mobile Internet and corresponding working parameter value sets; wherein, the total number of the network element devices on the mobile internet is marked as M, and the mth network element device on the mobile internet is marked as Equipment_mNetwork element Equipment_mIdentification number mark of

Network element Equipment_mIs marked as

Parameter set

The total number of the operating parameter classes in the parameter set is marked N

The nth operating parameter of

Operating parameters

Is marked with

Step 2, respectively detecting the working state whether each network element equipment on the mobile Internet is started or not in real time, and after detecting that any network element equipment is started to work, turning to step 3; otherwise, continuously detecting the working state of each network element device;

step 3, respectively detecting the working parameter value sets of the network element equipment after starting working according to a preset acquisition time within a preset time period, and respectively obtaining the working parameter sample value sets corresponding to the network element equipment;

wherein the preset time period is marked as T_preThe preset time period T_preMarking the total number of the corresponding preset acquisition moments as I and a preset time period T_preThe ith preset acquisition time mark in the table is t_iNetwork element Equipment_mAt a preset acquisition time t_iCorresponding working parameter

Is marked with

Network element Equipment_mThe corresponding working parameter sample value set is marked as

Step 4, aiming at each network element device on the mobile network, calculating the standard difference value of each working parameter sample value set in the working parameter sample value set corresponding to each network element device(ii) a Wherein, the network element Equipment_mCorresponding working parameter sample value

The standard deviation of the set is marked

Step 5, aiming at each network element device on the mobile network, respectively fitting to obtain a real-time change fitting curve of each working parameter corresponding to each network element device in the preset time period according to the obtained working parameter sample value set corresponding to each network element device; wherein, the network element Equipment_mCorresponding working parameter

At a preset time period T_preReal-time change fit curve labeling

Step 6, calculating an inflection point time of a real-time change fitting curve corresponding to each working parameter of the network element equipment and an inflection point value corresponding to the inflection point time aiming at each working parameter of the network element equipment to obtain an inflection point time set and a corresponding inflection point value set of the working parameter corresponding to the network element equipment; wherein, the network element Equipment_mCorresponding working parameter

Corresponding real-time variation fitting curve

Has a turning point momentK, real-time variation of fitting curve

Is marked as the K-th inflection point time

Step 7, respectively searching a minimum inflection point value in the inflection point value set and an inflection point time corresponding to the minimum inflection point value of each working parameter of each network element device, and marking the searched inflection point time as the optimal correction time of the working parameter;

step 8, when detecting that any network element equipment works to the optimal correction time corresponding to any working parameter of the network element equipment, correcting the working parameter value corresponding to any network element equipment at the optimal correction time to the optimal working parameter value; wherein, the network element Equipment_mOperating parameters of

Marking the optimal working parameter value corresponding to the optimal correction time

t_optFor network element Equipment_mOperating parameters of

The corresponding optimal correction time;

and 9, each network element device on the mobile internet continuously executes work according to the corrected working parameters.

2. The method according to claim 1, wherein the operating parameter set of any network element device at least includes a power consumption parameter of the network element device.

3. The method for detecting the mis-configuration of the mobile internet network element equipment as claimed in claim 2, wherein the network element equipment obtains its own power consumption parameter according to the following steps a 1-a 4:

a1, obtaining the appointed information of the components in the network element device;

step a2, determining the current power consumption value of the component according to the specified information;

a step 3, determining a first power consumption value of a component according to a current power consumption value and a basic power consumption value of the component, wherein the basic power consumption value is used for indicating the power consumption value of the component in idle running or full running;

step a4, determining a second power consumption value of the network element device according to the first power consumption value.

4. The method of claim 3, wherein the network element Equipment configures the mobile internet network element Equipment to detect the mis-configuration_mMarking current power consumption value of middle component

Network element Equipment_mMarking of base power consumption value of middle component

Network element Equipment_mThe first power consumption value of the middle component is marked as

Representing a numerical value

And a numerical value

Maximum value of (1), network element Equipment_mMarking the second power consumption value of the middle component as

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