CN111917568B - 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 the condition that any network element equipment works to the optimal correction time corresponding to any working parameter is detected, continuously executing work by each network element equipment according to the working parameter after self-correction, realizing the automatic detection and the automatic correction of the mis-configuration operation of each network element equipment on the mobile internet, and improving the mis-configuration detection efficiency of the network element equipment.

Description

A method for detecting misconfiguration of mobile Internet network element equipment

technical field

The invention relates to the field of mobile Internet, in particular to a method for detecting misconfiguration of mobile Internet network element equipment.

Background technique

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

In the actual operation of the mobile Internet, it is inevitable that each network element device will fail due to long-term work, which will affect or even lead to the complete shutdown of the entire mobile Internet. Therefore, it is necessary to timely prepare and detect various network element devices on the mobile Internet, so as to troubleshoot and modify in time.

However, in the configuration detection of network element devices for the mobile Internet, most of them are based on manual detection of configuration files, so as to detect errors in the configuration files of network element devices and then make corrections. However, this inevitably requires a lot of manpower and time, and also requires the basic professional knowledge of the manual detection personnel to identify the misconfiguration information of the network element equipment, so the efficiency of the misconfiguration detection for the network element equipment on the mobile Internet is bound to be reduce.

SUMMARY OF THE INVENTION

The technical problem to be solved by the present invention is to provide a method for detecting misconfiguration of mobile Internet network element equipment in view of the above-mentioned prior art.

The technical solution adopted by the present invention to solve the above technical problems is: a method for detecting misconfiguration of mobile Internet network element equipment, which is characterized in that it includes the following steps:

网元设备Equipment_m的工作参数值集合标记为

参数集合

内的工作参数种类总数目标记为N，该参数集合

内的第n个工作参数标记为

工作参数

的数值标记为

1≤m≤M，1≤n≤N；Step 1, obtain the identification number of each network element equipment on the mobile Internet and the corresponding set of working parameter values; wherein, the total number of network element equipment on the mobile Internet is marked as M, and the mth network element equipment on the mobile Internet is marked as Equipment _m , the identification number of the network element equipment Equipment _m is marked as

The set of working parameter values of NE Equipment _m is marked as

parameter set

The total number of working parameter types within is marked as N, the parameter set

The nth working parameter within is marked as

Working parameters

The value is marked as

1≤m≤M, 1≤n≤N;

Step 2: Detect in real time the working state of each network element device on the mobile Internet whether it is activated or not, and after detecting that any network element device is activated, go to step 3; otherwise, continue to detect the working state of each network element device;

Step 3: Detecting the set of working parameter values of each network element device after the work is started within a preset time period according to the preset collection time, and respectively obtaining a set of working parameter sample values corresponding to each network element device;

的样本值标记为

网元设备Equipment_m所对应的工作参数样本值集合标记为

The preset time period is marked as T _pre , the total number of preset collection moments corresponding to the preset time period T _pre is marked as 1, and the i-th preset collection moment in the preset time period T _pre is marked as is t _i , the working parameters of the network element Equipment _m corresponding to the preset collection time t _i

The sample values of are marked as

The set of working parameter sample values corresponding to the NE Equipment _m is marked as

集合的标准差值标记为

Step 4, for each network element device on the mobile network, calculate the standard deviation value of each working parameter sample value set in the working parameter sample value set corresponding to each network element device; wherein, the corresponding value of the network element device Equipment _m Working parameter sample values

The standard deviation values of the set are marked as

在预设时间段T_pre内的实时变化拟合曲线标记为

t∈[0,T_pre]；Step 5: For each network element device on the mobile network, according to the obtained set of working parameter sample values corresponding to each network element device, obtain each working parameter corresponding to each network element device in the preset value by fitting respectively. The real-time change fitting curve in the time period; among them, the working parameters corresponding to the equipment _m of the network element

The real-time change fitting curve within the preset time period T _pre is marked as

t∈[0, _Tpre ];

所对应实时变化拟合曲线

的拐点时刻具有K个，实时变化拟合曲线

的第K个拐点时刻标记为

1≤k≤K；Step 6, for each working parameter of each network element device, calculate the inflection point time of the real-time change fitting curve corresponding to each working parameter of the network element device and the inflection point value corresponding to the inflection point time, and obtain the total value of the network element device. Inflection point time set and corresponding inflection point value set corresponding to the working parameter; among them, the working parameter corresponding to the network element equipment Equipment _m

The corresponding real-time change fitting curve

The inflection point moment has K, real-time change fitting curve

The K-th inflection point moment is marked as

1≤k≤K;

Step 7, for each operating parameter of each described network element equipment, respectively find the minimum inflection point value in its inflection point value set and the inflection point moment corresponding to the minimum inflection point value, and mark the found inflection point moment as the operating parameter the best correction moment;

在其最佳修正时刻所对应的最佳工作参数值标记为

t_opt为网元设备Equipment_m的工作参数

所对应的最佳修正时刻；Step 8, when it is detected that any network element device works to the best correction time corresponding to any one of its operating parameters, the value of the corresponding work parameter of any network element device at the best correction time is corrected to the best work parameter value; among them, the working parameters of the NE Equipment _m

The best working parameter value corresponding to its best correction moment is marked as

t _opt is the working parameter of the NE Equipment _m

The corresponding best correction moment;

Step 9, each network element device on the mobile Internet continues to perform work with its own modified work parameters.

Advantageously, in the mobile Internet network element device misconfiguration detection method, the working parameter set of any network element device contains at least the power consumption parameter of the network element device.

Further, the network element device obtains its own power consumption parameters according to the following steps a1-a4:

Step a1, obtaining the specified information of the component in the network element device;

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

Step a3: Determine the first power consumption value of the component according to the current power consumption value of the component and the basic power consumption value, wherein the basic power consumption value is used to indicate the power consumption value of the component when it is running at no load or running at full load ;

Step a4: Determine the second power consumption value of the network element device according to the first power consumption value.

网元设备Equipment_m中组件的基础功耗值标记为

网元设备Equipment_m中组件的第一功耗值标记为

表示数值

与数值

中的最大值，网元设备Equipment_m中组件的第二功耗值标记为

Still further, in the mobile Internet network element equipment misconfiguration detection method, the current power consumption value of the components in the network element equipment Equipment _m is marked as:

The basic power consumption value of the components in the NE Equipment _m is marked as

The first power consumption value of the component in the network element device Equipment _m is marked as

Indicates value

with numerical values

The maximum _value of

Compared with the prior art, the present invention has the advantages that: by collecting the set of working parameters of each network element device in the preset time period after starting work on the mobile Internet, calculating the standard deviation corresponding to each working parameter, and then fitting the parameters respectively. Obtain the real-time change fitting curve of each working parameter corresponding to each network element device within a preset time period, and obtain the inflection point time set and the inflection point value set corresponding to the real-time change fitting curve of each working parameter of each network element device , and then obtain the best correction time corresponding to each working parameter of the network element equipment, and finally when it is detected that any network element device works to the best correction time corresponding to any of its operating parameters, the The corresponding working parameter value of the device is corrected to the best working parameter value at the best correction moment, and then each network element device continues to perform work with its own corrected working parameters, which realizes the operation against misconfiguration of each network element on the mobile Internet. Automatic detection and automatic correction improve the efficiency of misconfiguration detection of network element equipment.

Description of drawings

FIG. 1 is a schematic flowchart of a method for detecting misconfiguration of a mobile Internet network element device according to an embodiment of the present invention.

Detailed ways

The present invention will be further described in detail below with reference to the embodiments of the accompanying drawings.

Referring to FIG. 1 , this embodiment provides a method for detecting misconfiguration of mobile Internet network element equipment, including the following steps:

网元设备Equipment_m的工作参数值集合标记为

参数集合

内的工作参数种类总数目标记为N，该参数集合

内的第n个工作参数标记为

工作参数

的数值标记为

1≤m≤M，1≤n≤N；其中，在该实施例中，任一网元设备的工作参数集合内至少含有该网元设备的功耗参数；Step 1: Obtain the identification number of each network element device on the mobile Internet and the corresponding set of working parameter values; wherein, it is assumed that the total number of 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 _m , the identification number of the network element equipment Equipment _m is marked as

The set of working parameter values of NE Equipment _m is marked as

parameter set

The total number of working parameter types within is marked as N, the parameter set

The nth working parameter within is marked as

Working parameters

The value is marked as

1≤m≤M, 1≤n≤N; wherein, in this embodiment, the working parameter set of any network element device contains at least the power consumption parameter of the network element device;

Step 2: Detect in real time the working state of each network element device on the mobile Internet whether it is activated or not, and after detecting that any network element device is activated, go to step 3; otherwise, continue to detect the working state of each network element device;

Step 3: In the preset time period T _pre , according to the preset collection time, the set of working parameter values of each network element device after starting work is respectively detected, and the set of working parameter sample values corresponding to each network element device is obtained respectively;

的样本值标记为

网元设备Equipment_m所对应的工作参数样本值集合标记为

是关于网元设备Equipment_m的第一个工作参数

的样本值集合，样本值集合

内含有样本值

至

这I个样本值；同理，

是关于网元设备Equipment_m的第N个工作参数

的样本值集合，样本值集合

内含有样本值

至

这I个样本值；Wherein, the total number of preset collection moments corresponding to the preset time period T _pre is marked as I, the i-th preset collection moment within the preset time period T _pre is marked as t _i , and the network element device Equipment _m is in the preset time period T pre . Set the working parameters corresponding to the collection time t _i

The sample values of are marked as

The set of working parameter sample values corresponding to the NE Equipment _m is marked as

It is the first working parameter of the NE Equipment _m

set of sample values, set of sample values

Contains sample values

to

This I sample value; in the same way,

is the Nth working parameter of the NE Equipment _m

set of sample values, set of sample values

Contains sample values

to

This I sample value;

集合的标准差值标记为

Step 4, for each network element device on the mobile network, calculate the standard deviation value of each working parameter sample value set in the working parameter sample value set corresponding to each network element device; wherein, the working parameter corresponding to the network element device Equipment _m sample value

The standard deviation values of the set are marked as

在预设时间段T_pre内的实时变化拟合曲线标记为

t∈[0,T_pre]；Step 5: For each network element device on the mobile network, according to the obtained set of working parameter sample values corresponding to each network element device, obtain each working parameter corresponding to each network element device in the preset time period by fitting respectively. The real-time change fitting _curve in the

The real-time change fitting curve within the preset time period T _pre is marked as

t∈[0, _Tpre ];

所对应实时变化拟合曲线

的拐点时刻具有K个，实时变化拟合曲线

的第K个拐点时刻标记为

1≤k≤K；Step 6, for each working parameter of each network element device, calculate the inflection point time of the real-time change fitting curve corresponding to each working parameter of the network element device and the inflection point value corresponding to the inflection point time, and obtain the total value of the network element device. Inflection point time set and corresponding inflection point value set corresponding to the working parameter; among them, the working parameter corresponding to the network element equipment Equipment _m

The corresponding real-time change fitting curve

The inflection point moment has K, real-time change fitting curve

The K-th inflection point moment is marked as

1≤k≤K;

It should be noted that, by calculating the inflection point value of the fitting curve of the real-time change of the working parameters of the network element equipment at the corresponding inflection point, it is possible to use the obtained inflection point value to obtain whether the working parameter changes abruptly with time. The moment of the inflection point when there is a change before and after is taken as the moment when the working parameter is abnormal, so as to facilitate subsequent adjustment and correction of the working parameter of the network element device;

Step 7: For each operating parameter of each network element device, find the minimum inflection point value in the inflection point value set and the inflection point moment corresponding to the minimum inflection point value, and mark the found inflection point moment as the maximum inflection point of the operating parameter. best correction time;

在其最佳修正时刻所对应的最佳工作参数值标记为

t_opt为网元设备Equipment_m的工作参数

所对应的最佳修正时刻；Step 8, when it is detected that any network element device works to the best correction time corresponding to any one of its operating parameters, the value of the corresponding work parameter of any network element device at the best correction time is corrected to the best work parameter value; among them, the working parameters of the NE Equipment _m

The best working parameter value corresponding to its best correction moment is marked as

t _opt is the working parameter of the NE Equipment _m

The corresponding best correction moment;

In step 9, each network element device on the mobile Internet continues to perform work with its own modified work parameters. In addition, specifically in this embodiment, as a specific implementation method for a network element device to obtain its own working parameters, the network element device here obtains its own power consumption parameters according to the following steps a1 to a4:

Step a1, obtaining the specified information of the component in the network element device;

Step a2: Determine the current power consumption value of the component according to the specified information; wherein, the current power consumption value of the component in the network element device Equipment _m is marked as

网元设备Equipment_m中组件的第一功耗值标记为

表示数值

与数值

中的最大值；Step a3: Determine the first power consumption value of the component according to the current power consumption value of the component and the basic power consumption value, wherein the basic power consumption value is used to indicate the power consumption value of the component when it is running at no load or running at full load; the network element The base power consumption values for components in Equipment _m are marked as

The first power consumption value of the component in the network element device Equipment _m is marked as

Indicates value

with numerical values

the maximum value in;

Step a4: Determine the second power consumption value of the network element device according to the first power consumption value. Wherein, the second power consumption value of the component in the network element device Equipment _m here is marked as

Although the preferred embodiments of the present invention have been described in detail above, it should be clearly understood that various modifications and variations of the present invention will occur to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention shall be included within the protection scope of the present invention.

Claims (4)

1. a mobile Internet network element equipment misconfiguration detection method, is characterized in that, comprises the steps: Step 1, obtain the identification number of each network element equipment on the mobile Internet and the corresponding set of working parameter values; wherein, the total number of network element equipment on the mobile Internet is marked as M, and the mth network element equipment on the mobile Internet is marked as Equipment _m , the identification number of the network element equipment Equipment _m is marked as

The set of working parameter values of NE Equipment _m is marked as

parameter set

The total number of working parameter types within is marked as N, the parameter set

The nth working parameter within is marked as

Working parameters

The value is marked as

Step 2: Detect in real time the working state of each network element device on the mobile Internet whether it is activated or not, and after detecting that any network element device is activated, go to step 3; otherwise, continue to detect the working state of each network element device; Step 3: Detecting the set of working parameter values of each network element device after the work is started within a preset time period according to the preset collection time, and respectively obtaining a set of working parameter sample values corresponding to each network element device; The preset time period is marked as T _pre , the total number of preset collection moments corresponding to the preset time period T _pre is marked as 1, and the i-th preset collection moment in the preset time period T _pre is marked as is t _i , the working parameters of the network element Equipment _m corresponding to the preset collection time t _i

The sample values of are marked as

The set of working parameter sample values corresponding to the NE Equipment _m is marked as

Step 4, for each network element device on the mobile Internet, calculate the standard deviation value of each working parameter sample value set in the working parameter sample value set corresponding to each network element device; wherein, the corresponding network element device Equipment _m Working parameter sample values

The standard deviation values of the set are marked as

Step 5: For each network element device on the mobile Internet, according to the obtained set of working parameter sample values corresponding to each network element device, obtain each working parameter corresponding to each network element device in the preset value by fitting respectively. The real-time change fitting curve in the time period; among them, the working parameters corresponding to the equipment _m of the network element

The real-time change fitting curve within the preset time period T _pre is marked as

Step 6, for each working parameter of each network element device, calculate the inflection point time of the real-time change fitting curve corresponding to each working parameter of the network element device and the inflection point value corresponding to the inflection point time, and obtain the total value of the network element device. Inflection point time set and corresponding inflection point value set corresponding to the working parameter; among them, the working parameter corresponding to the network element equipment Equipment _m

The corresponding real-time change fitting curve

The inflection point moment has K, real-time change fitting curve

The K-th inflection point moment is marked as

Step 7, for each operating parameter of each described network element equipment, respectively find the minimum inflection point value in its inflection point value set and the inflection point moment corresponding to the minimum inflection point value, and mark the found inflection point moment as the operating parameter the best correction moment; Step 8, when it is detected that any network element device works to the best correction time corresponding to any one of its operating parameters, the value of the corresponding work parameter of any network element device at the best correction time is corrected to the best work parameter value; among them, the working parameters of the NE Equipment _m

The best working parameter value corresponding to its best correction moment is marked as

t _opt is the working parameter of the NE Equipment _m

The corresponding best correction moment; Step 9, each network element device on the mobile Internet continues to perform work with its own modified work parameters. 2 . The method for detecting misconfiguration of a mobile Internet network element device according to claim 1 , wherein the working parameter set of any network element device contains at least the power consumption parameter of the network element device. 3 . 3. The method for detecting misconfiguration of mobile Internet network element equipment according to claim 2, wherein the network element equipment obtains its own power consumption parameters according to the following steps a1 to a4: Step a1, obtaining the specified information of the component in the network element device; Step a2, determining the current power consumption value of the component according to the specified information; Step a3: Determine the first power consumption value of the component according to the current power consumption value of the component and the basic power consumption value, wherein the basic power consumption value is used to indicate the power consumption value of the component when it is running at no load or running at full load ; Step a4: Determine the second power consumption value of the network element device according to the first power consumption value. 4. The method for detecting misconfiguration of mobile Internet network element equipment according to claim 3, wherein the current power consumption value of the component in the network element equipment Equipment _m is marked as

The basic power consumption value of the components in the NE Equipment _m is marked as

The first power consumption value of the component in the network element device Equipment _m is marked as

Indicates value

with numerical values

The maximum _value of

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