CN106941691B - Information processing method and device for out-of-service cell - Google Patents

Abstract

The embodiment of the invention discloses an information processing method and a device for a quit-service cell, wherein the method comprises the following steps: counting the number of available physical resource blocks of a physical link shared channel of a cell according to the traffic information; determining a first backoff period for a cell based on the number of available physical resource blocks; determining the missing time of the performance data as a second quit service time period according to the performance data; and determining the service quitting time of the cell according to the first service quitting time interval and the second service quitting time interval.

Description

Information processing method and device for out-of-service cell

Technical Field

The present invention relates to the field of wireless communications, and in particular, to an information processing method and apparatus for a fallback cell.

Background

The quit service cell is a cell for quitting the communication service. In the current communication system, a serving cell can be inquired, but accurate serving information of the serving cell is not provided. For the alarm information of the out-of-service cell, the alarm information can only be inquired in the network management client of the manufacturer forming the base station of each cell, and the alarm information cannot be intuitively and simply acquired, which causes the problems of high difficulty in acquiring the related information of the out-of-service cell and the like.

Disclosure of Invention

In view of the above, embodiments of the present invention provide a method and an apparatus for processing information of a fallback cell, which at least partially solve the above problem.

In order to achieve the purpose, the technical scheme of the invention is realized as follows:

a first aspect of an embodiment of the present invention provides an information processing method for a serving cell, where the method includes:

counting the number of available physical resource blocks of a physical link shared channel of a cell according to the traffic information;

determining a first backoff period for a cell based on the number of available physical resource blocks;

determining the missing time of the performance data as a second quit service time period according to the performance data;

and determining the service quitting time of the cell according to the first service quitting time interval and the second service quitting time interval.

Based on the above scheme, the method further comprises:

determining alarm time associated with the cell quitting service according to the alarm information;

performing correlation matching on the service quitting time and the alarm time to form a matching result;

and positioning information processing abnormity according to the matching result and a preset standard strategy.

Based on the scheme, the positioning information processing problem is as follows according to the matching result and the preset standard strategy:

if the service quitting time is taken as the matching standard time, when the matching result shows that the alarm time is not matched with the service quitting time, determining that the alarm information is processed abnormally;

or

And if the alarm time is taken as the matching standard time, when the matching result shows that the service quitting time is not matched with the alarm time, determining that the service quitting time is abnormal statistically.

Based on the above scheme, the determining the alarm time associated with the cell out of service according to the alarm information includes:

the alarm time f (x) is solved using the following equation:

f(x)＝f_a(x)+f_b(x)；

wherein, A represents the set of all the alarm information before the district quits service; the I is the number of the alarm information included in the A; a is a_iThe ith alarm information in the A is obtained; a is a_iS is said a_iThe alarm start time included; a is a_iE is said a_iThe alarm end time included; said x_iAccording to the service quitting starting time in the service quitting item corresponding to the service quitting time and the a_iThe fallback entry of S; said x_iS is said x_iThe service quit start time; said x_iE is said x_iThe service quit end time;

b represents the set of all the previous alarm information when the cell quits service; j is the number of the alarm information included in B; b is_jThe ith alarm information in the B is obtained; b is_jS is said b_jThe alarm start time included; b is_jE is said b_jThe alarm end time included; said x_jAccording to the service quitting starting time in the service quitting item corresponding to the service quitting time and the b_jThe fallback entry of S; said x_jS is said x_jThe service quit start time; said x_jE is said x_jThe service quit end time.

Based on the above scheme, the method further comprises:

inquiring the alarm information of the cell with non-zero service quitting time;

and forming a service quitting alarm association list comprising the cell identification, the service quitting time and the alarm information.

A second aspect of the embodiments of the present invention provides an information processing apparatus for a fallback cell, where the apparatus includes:

the statistical unit is used for counting the number of available physical resource blocks of a physical link shared channel of a cell according to the traffic information;

a first determining unit, configured to determine a first backoff period of a cell based on the number of available physical resource blocks;

the second determining unit is used for determining the missing time of the performance data as a second quit service time interval according to the performance data;

and the third determining unit is used for determining the service quitting time of the cell according to the first service quitting time interval and the second service quitting time interval.

Based on the above scheme, the apparatus further comprises:

the fourth determining unit is used for determining the alarm time associated with the cell quit service according to the alarm information;

the matching unit is used for performing correlation matching on the service quitting time and the alarm time to form a matching result;

and the positioning unit is used for positioning the information processing exception according to the matching result and a preset standard strategy.

Based on the above scheme, the positioning unit is specifically configured to determine that the processing of the alarm information is abnormal when the matching result indicates that the alarm time is not matched with the service quitting time, with the service quitting time as a matching standard time; or, if the alarm time is taken as the matching standard time, when the matching result shows that the service quitting time is not matched with the alarm time, determining that the service quitting time is abnormal statistically.

Based on the foregoing scheme, the fourth determining unit is specifically configured to:

f(x)＝f_a(x)+f_b(x)；

wherein, A represents the set of all the alarm information before the district quits service; the I is the number of the alarm information included in the A; a is a_iThe ith alarm information in the A is obtained; a is a_iS is said a_iThe alarm start time included; a is a_iE is said a_iThe alarm end time included; said x_iAccording to the service quitting starting time in the service quitting item corresponding to the service quitting time and the a_iThe fallback entry of S; said x_iS is said x_iThe service quit start time; said x_iE is said x_iThe service quit end time;

b represents the set of all the previous alarm information when the cell quits service; j is the number of the alarm information included in B; b is_jThe ith alarm information in the B is obtained; b is_jS is said b_jThe alarm start time included; b is_jE is said b_jThe alarm end time included; said x_jAccording to the service quitting starting time in the service quitting item corresponding to the service quitting time and the b_jThe fallback entry of S; said x_jS is said x_jThe service quit start time; said x_jE is said x_jThe service quit end time.

Based on the above scheme, the apparatus further comprises:

the inquiring unit is used for inquiring the alarm information of the cell with the service quitting time not equal to zero;

and the forming unit is used for forming a quit-service alarm correlation list comprising the cell identification, the quit-service time and the alarm information.

According to the information processing method and device for the service quitting cell, the number of available physical resource blocks of a physical link shared channel of the cell is counted according to the telephone traffic information, a first service quitting time period is determined according to the number of the available physical resource blocks, a second service quitting time period is determined according to the missing time of performance data, and therefore the total service quitting time is obtained, and the service quitting time of the cell is simply and conveniently determined; the service quitting time can be conveniently counted by the communication operator; and the service quitting time determined by the method has the characteristic of high accuracy.

Drawings

Fig. 1 is a flowchart illustrating an information processing method for a fallback cell according to a first embodiment of the present invention;

fig. 2 is a flowchart illustrating a second information processing method for a fallback cell according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of an information processing apparatus of a resignation cell according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of an information processing apparatus of another fallback cell according to an embodiment of the present invention;

fig. 5 is a flowchart illustrating an information processing method for a third fallback cell according to an embodiment of the present invention.

Detailed Description

The technical solution of the present invention is further described in detail with reference to the drawings and the specific embodiments of the specification.

The first embodiment is as follows:

as shown in fig. 1, the present embodiment provides an information processing method for a fallback cell, where the method includes:

step S110: counting the number of available physical resource blocks of a physical link shared channel of a cell according to the traffic information;

step S120: determining a first backoff period for a cell based on the number of available physical resource blocks;

step S130: determining the missing time of the performance data as a second quit service time period according to the performance data;

step S140: and determining the service quitting time of the cell according to the first service quitting time interval and the second service quitting time interval.

The information processing method for the fallback cell in this embodiment may be an information processing method applied to a communication operator management device.

In step S110, the number of available Physical Resource Blocks (PRBs) of the Physical link shared channel is counted according to the traffic information. The telephone traffic information is information formed by information interaction between the terminal and the cell. If the terminal and the base station perform information interaction, the physical resource block corresponding to the terminal needs to be used, and in this embodiment, the physical link shared channel is counted. The physical link shared channel is a channel used for the terminal to interact with the base station in service content. The Physical Uplink shared Channel herein includes a Physical Uplink Shared Channel (PUSCH) and a Physical Downlink Shared Channel (PDSCH). In this embodiment, the available PRBs are the total number of PRBs of the uplink and downlink physical link shared channels.

If the number of PRBs of the physical link shared channel used in a certain time period is determined to be zero according to the traffic information, the cell can be considered to have no available PRBs, the cell is considered to suspend the provision of the communication service, and the current cell can be considered to be in a service quitting state, and the cell is a service quitting cell. In step S120, the period in which the number of available PRBs is counted to be 0 is taken as the first backoff period.

In step S130, the fallback period is determined from the performance detection data. The performance detection data is data for performing performance detection on the cell, and if the performance data of the cell is not detected, the cell may be disconnected from the entire communication network, so that the performance data cannot be detected, and it can also be indicated that the cell may be in a fallback state. If the period is determined by taking days as service quitting time, the system can detect the service quitting time period according to the telephone traffic data in the first day of service quitting of a cell; if the data of the cell cannot be detected in the traffic information of the next day, the out-of-service time period cannot be determined. However, in the performance data, detection is also performed according to the cell identifier, and if the performance data is not detected, the performance data of the day is null. Therefore, in this embodiment, in order to accurately count the service quitting time of the cell, the first service quitting time period and the second service quitting time period are respectively determined according to the traffic information and the performance data, so as to determine the total service quitting time. The service quitting time can include various information such as starting time, duration, service quitting termination time and the like of the service quitting.

Obviously, the embodiment provides a method for accurately determining the service quitting time of the service quitting cell, which has the characteristics of simple implementation and convenient implementation, and a communication operator can automatically count the service quitting time of the service quitting cell according to the traffic information and the performance data.

As shown in fig. 2, as a further improvement of this embodiment, the method further includes:

step S150: determining alarm time associated with the cell quitting service according to the alarm information;

step S160: performing correlation matching on the service quitting time and the alarm time to form a matching result;

step S170: and positioning information processing abnormity according to the matching result and a preset standard strategy.

When the cell quits, the alarm system should detect the corresponding alarm information. The alarm information is generally present and the cell is considered to be faulty. Not all failures will result in cell fallback. In this embodiment, the warning time associated with the cell resignation is determined according to the warning time and/or the warning content of the warning information. The alarm time may include information such as alarm start time, alarm end time, and alarm duration.

In step S160, the out-of-service time and the alarm time are associated and matched, and if the out-of-service time is accurate in statistics and the alarm monitoring is accurate, the out-of-service time should be theoretically consistent with the alarm time. In step S170, based on the rule, an information processing exception is located according to the matching result and a preset standard policy. Two ways of handling the exception of the positioning information in step S170 are provided below:

the first method is as follows:

the step S170 may include: and if the service quitting time is taken as the matching standard time, determining that the alarm information is processed abnormally when the matching result shows that the alarm time is not matched with the service quitting time. Obviously, in this method, assuming that the statistically obtained backoff time is accurate, the backoff time can be regarded as matching the standard time. If the service quitting time is not matched with the alarm time, alarm abnormity may occur. The alarm exception here includes: and the alarm is not carried out in the alarm appearing time period, and the alarm does appear in the alarm appearing time period. In this case, the alarm information may be considered abnormal.

The second method comprises the following steps:

the step S170 may include:

and if the alarm time is taken as the matching standard time, when the matching result shows that the service quitting time is not matched with the alarm time, determining that the service quitting time is abnormal statistically.

In this method, assuming that the determination of the alarm time is accurate, the alarm time is regarded as matching the standard time, and if the alarm time and the standard time are not consistent, the statistics of the out-of-service time is considered to be abnormal, and the statistics of the out-of-service time needs to be adjusted.

Therefore, the service quitting time and the alarm time are overlapped as much as possible through repeated processing of alarm abnormity and statistic abnormity, and the subsequent accurate association processing of the service quitting and the alarm is facilitated.

There are various ways to determine the warning time associated with the cell out of service according to the warning information, and the following provides an optional way, and specifically, the step S150 may include:

the alarm time f (x) is solved using the following equation:

f(x)＝f_a(x)+f_b(x)；

wherein, A represents the set of all the alarm information before the district quits service; the I is the number of the alarm information included in the A; a is a_iThe ith alarm information in the A is obtained; a is a_iS is said a_iThe alarm start time included; a is a_i.EIs a said_iThe alarm end time included; said x_iAccording to the service quitting starting time in the service quitting item corresponding to the service quitting time and the a_iThe fallback entry of S; said x_iS is said x_iThe service quit start time; said x_iE is said x_iThe service quit end time;

b represents the set of all the previous alarm information when the cell quits service; j is the number of the alarm information included in B; b is_jThe ith alarm information in the B is obtained; b is_jS is said b_jThe alarm start time included; b is_jE is said b_jThe alarm end time included; said x_jAccording to the service quitting starting time in the service quitting item corresponding to the service quitting time and the b_jThe fallback entry of S; said x_jS is said x_jThe service quit start time; said x_jE is said x_jThe service quit end time.

In a specific implementation, the

Wherein the value of I is from 1 to I. The definition of A is correspondingly as follows: according to the service quit time determined in step S130, all sets of alarm information are collected before the service quit occurs in the cell and the recovery time is empty in the current service quit time period or the service quit time period. The above-mentioned

Wherein J has a value from 1 to J. The definition of B can be: and according to the service quitting time determined in the step S130, the service quitting occurs in the cell on the day, and the recovery time is the set of all the alarm information which is empty in the service quitting time period or the service quitting time period of the day.

f_min(a_i.S,x_iS) represents the alarm starting time and the quit entry x for searching the alarm information in the set A_iA closest to the back-off start time_i。f_min(b_j.S,x_jS) is expressed as the notice in the search set BAlarm starting time and out-of-service entry x of alarm information_jB with the closest service quit start time_j。

Therefore, the alarm time associated with the cell quit can be simply and conveniently determined in the alarm information by using the formula.

In this embodiment, in order to implement query and associated management of staff information, the method in this embodiment further includes:

inquiring the alarm information of the cell with non-zero service quitting time;

and forming a service quitting alarm association list comprising the cell identification, the service quitting time and the alarm information.

By forming the out-of-service alarm association list, the out-of-service time, alarm information and the like of the out-of-service cell can be simultaneously checked in one list, so that the method is simple, convenient and visual, and is convenient for subsequent operation and processing. Through the generation of the out-of-service alarm list, the worker can conveniently, simply and quickly obtain the reason for the out-of-service of the out-of-service cell, so that the worker can make a decision as soon as possible on how to process or maintain the cell fault, and communication faults and complaints caused by the out-of-service of the cell by the user are reduced.

The out-of-service alarm association list may include a cell identifier, an out-of-service duration, a time period in which the number of available PRBs of a physical link shared channel is 0, a time period in which performance data is 0, alarm specific time, alarm information content, alarm time, and other content, which may be specifically shown in table 1.

TABLE 1

Of course, the above is only an example, and the fallback alarm association list may be in other forms in a specific implementation process, and is not limited to the above form.

In short, the embodiment provides an information processing method for a service quitting cell, which can be used for an operator to count service quitting duration according to traffic information, and meanwhile, the service quitting duration is associated and matched with alarm information, so that service quitting information for the cell can be better obtained, and the operation of a worker is simplified.

Example two:

as shown in fig. 3, the present embodiment provides an information processing apparatus of a fallback cell, the apparatus including:

a counting unit 110, configured to count the number of available physical resource blocks of a physical link shared channel of a cell according to traffic information;

a first determining unit 120, configured to determine a first backoff period of a cell based on the number of available physical resource blocks;

a second determining unit 130, configured to determine, according to the performance data, that the missing time of the performance data is a second quit-service time period;

a third determining unit 140, configured to determine a service quitting time of the cell according to the first service quitting time period and the second service quitting time period.

The information processing apparatus of the fallback cell in this embodiment may be a management device operating in a communication network. The specific structure corresponding to the counting unit 110 may include a calculator or a processor or a processing circuit with a calculating function, which is capable of counting the number of available PRBs of the physical link shared channel of the cell according to the traffic information.

The specific structure of the first determining unit 120, the second determining unit 130 and the third determining unit 130 corresponds to a processor or a processing circuit. The processor may include a central processing unit, a digital signal processor, a microprocessor, an application processor, or a programmable array of information processing structures. The processing circuitry may comprise an application specific integrated circuit or the like. The processor or processing circuit can perform the functions of the first determining unit 120, the second determining unit 130 and the third determining unit 130 by executing predetermined instructions.

The information processing device for the service quitting cell can accurately obtain the service quitting time information of the service quitting cell by using the telephone traffic information, and has the characteristics of simple acquisition and convenient realization; hardware is provided for implementing the information processing method of the fallback cell described in the foregoing embodiment.

Further, as shown in fig. 4, the apparatus further includes:

a fourth determining unit 150, configured to determine, according to the warning information, a warning time associated with the cell resignation;

the matching unit 160 is configured to perform correlation matching on the service quitting time and the alarm time to form a matching result;

and the positioning unit 170 is configured to position an information processing exception according to the matching result and a preset standard policy.

The fourth determining unit 150 of the present embodiment determines the warning time associated with the cell out-of-service. The specific structure of the fourth determining unit 150 is similar to or the same as the hardware structures of the first determining unit 120 to the third determining unit 140 in the foregoing embodiments, except that the fourth determining unit here determines the warning time associated with the cell out-of-service according to the warning information.

The matching unit 160 may include a comparator or a processor with a comparing function, and the like, and may perform a correlation matching on the determined alarm time and the determined fallback time by a comparison method, so as to determine a matching degree between the alarm time and the fallback time, and form the matching result.

The positioning unit 170 may include a processor or a processing circuit, and may be capable of positioning an information processing exception according to the matching result and a predetermined standard policy.

Therefore, subsequent maintenance personnel can conveniently have abnormal information processing, the corresponding information processing flow is adjusted, and the service quitting time of the service quitting cell and the accuracy of the alarm information are improved.

Further, the positioning unit 170 is specifically configured to determine that the processing of the alarm information is abnormal when the matching result indicates that the alarm time is not matched with the service quitting time, with the service quitting time as a matching standard time; or, if the alarm time is taken as the matching standard time, when the matching result shows that the service quitting time is not matched with the alarm time, determining that the service quitting time is abnormal statistically. On the basis of the foregoing embodiment, the present embodiment further provides two structures of the positioning unit 170 for positioning information processing exception according to the matching result, and has the characteristics of simple structure and simple and convenient implementation.

As a further improvement of this embodiment, the fourth determining unit 150 is specifically configured to:

f(x)＝f_a(x)+f_b(x)；

wherein, A represents the set of all the alarm information before the district quits service; the I is the number of the alarm information included in the A; a is a_iThe ith alarm information in the A is obtained; a is a_iS is said a_iThe alarm start time included; a is a_iE is said a_iThe alarm end time included; said x_iAccording to the service quitting starting time in the service quitting item corresponding to the service quitting time and the a_iThe fallback entry of S; said x_iS is said x_iThe service quit start time; said x_iE is said x_iThe service quit end time;

b represents the set of all the previous alarm information when the cell quits service; j is the number of the alarm information included in B; b is_jThe ith alarm information in the B is obtained; b is_jS is said b_jThe alarm start time included; b is_jE is said b_jThe alarm end time included; said x_jAccording to the service quitting starting time in the service quitting item corresponding to the service quitting time and the b_jThe fallback entry of S; said x_jS is said x_jThe service quit start time; said x_jE is said x_jThe service quit end time.

The device further comprises:

the inquiring unit is used for inquiring the alarm information of the cell with the service quitting time not equal to zero;

and the forming unit is used for forming a quit-service alarm correlation list comprising the cell identification, the quit-service time and the alarm information.

In this embodiment, the alarm information of the cell whose service quitting time is not zero is queried, where the service quitting time is not zero, which indicates that the cell quits providing the communication service at least for a certain time period, and the cell is a service quitting cell in the time period. In the embodiment, the alarm information of the cell with non-zero out-of-service time is inquired to form the out-of-service alarm association list, so that more information about the out-of-service cell can be provided by using the out-of-service alarm association list, the out-of-service time, the alarm information and other information of the out-of-service cell can be provided more intuitively, and information processing of maintenance personnel is facilitated.

One specific example is provided below in connection with the above embodiments:

as shown in fig. 5, the present example provides an information processing method for a fallback cell, including:

step S1: and carrying out duplicate removal processing on cell samples acquired by the all-antenna system to determine each cell in the communication system.

Step S2: and counting the time interval of which the number of the available PRBs of the physical link shared channel is 0 and the time interval of which the performance data is missing, and determining the backoff time.

Step S3: the fallback cell is associated with the alarm information.

Step S4: and forming a quit alarm association list.

In step S1 and step S2, a cell fallback statistical range is determined based on the cross-dimension cell in the traffic statistics of the network optimization platform. When the cross-dimension cell exists in the network optimization platform traffic statistics, the service quitting duration of the cell is counted in the time period of the summation of the usable average number of the uplink PUSCH PRBs and the usable average number of the uplink PUSCH PRBs to be 0 within 15 hours from 8 points to 22 points a day, and several service quitting durations are considered to be generated when several time periods occur.

In the traffic statistics of the network optimization platform, the cross-dimension cell (the cross-dimension time is less than or equal to the current time) exists, and when the cell is within 15 time periods from 8 o 'clock to 22 o' clock a day, the performance data are lost for several time periods, and the statistics is several service quitting time periods.

And (3) special cell filtering: based on the wind-solar complementary cell, filtering is needed in both the cell quit service and the total cell. The wind-solar complementary cells are wind power generation cells or illumination power supply cells, which may cause the operation stop due to wind uncertainty or when a solar panel is covered by a covering such as frost or the like, and the special cells can be excluded from the refuge cells needing to be treated in the example.

Total cell number here: and de-duplicating the number of cell samples acquired by the whole telephone system. Service quit duration (hours) based on speech system: the time length of the available number of the service channel being 0 is added with the service quitting time length of the performance data obtained without measurement. Speech system based rate of withdrawal (%): based on the total fallback duration/(total cell number 15). Here 15 is the statistical duration from 8 to 22 points.

In step S3, the alarm table is queried according to the cell identifier of the withdrawn cell to obtain the alarm information of the withdrawn cell; and associating the quit service cell with the alarm information. The alarm information may include alarm content such as alarm occurrence time, alarm name, alarm level, alarm type, etc. In step S4, a fallback alert association list is formed, in which the alert information can be directly seen or entered into a lower list through the alert link of the list, and the specific alert contents are presented through the lower list. For example, only the alarm time is displayed in the out-of-service alarm association list, and the alarm time is multiplexed as the alarm link at the same time, and the alarm link is clicked to enter the lower-level list, so that the specific alarm content corresponding to the alarm time is displayed.

In the several embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other ways. The above-described device embodiments are merely illustrative, for example, the division of the unit is only a logical functional division, and there may be other division ways in actual implementation, such as: multiple units or components may be combined, or may be integrated into another system, or some features may be omitted, or not implemented. In addition, the coupling, direct coupling or communication connection between the components shown or discussed may be through some interfaces, and the indirect coupling or communication connection between the devices or units may be electrical, mechanical or other forms.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, that is, may be located in one place, or may be distributed on a plurality of network units; some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, all the functional units in the embodiments of the present invention may be integrated into one processing module, or each unit may be separately used as one unit, or two or more units may be integrated into one unit; the integrated unit can be realized in a form of hardware, or in a form of hardware plus a software functional unit.

Those of ordinary skill in the art will understand that: all or part of the steps for implementing the method embodiments may be implemented by hardware related to program instructions, and the program may be stored in a computer readable storage medium, and when executed, the program performs the steps including the method embodiments; and the aforementioned storage medium includes: a mobile storage device, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (6)

1. An information processing method for a resignant cell, the method comprising:

counting the number of available physical resource blocks of a physical link shared channel of a cell according to the traffic information;

determining a first backoff period for a cell based on the number of available physical resource blocks; wherein the number of available physical resource blocks is zero;

determining the missing time of the performance data as a second quit service time period according to the performance data;

determining the service quitting time of the cell according to the first service quitting time interval and the second service quitting time interval;

the method further comprises the following steps:

determining alarm time associated with the cell quitting service according to the alarm information;

performing correlation matching on the service quitting time and the alarm time to form a matching result;

positioning information processing abnormity according to the matching result and a preset standard strategy;

and according to the matching result and a preset standard strategy, positioning information processing abnormity comprises the following steps:

if the service quitting time is taken as the matching standard time, when the matching result shows that the alarm time is not matched with the service quitting time, determining that the alarm information is processed abnormally;

or

And if the alarm time is taken as the matching standard time, when the matching result shows that the service quitting time is not matched with the alarm time, determining that the service quitting time is abnormal statistically.

2. The method of claim 1,

the determining the alarm time associated with the cell out of service according to the alarm information comprises the following steps:

the alarm time f (x) is solved using the following equation:

f(x)＝f_a(x)+f_b(x)；

wherein, A represents the set of all the alarm information before the district quits service; the I is the number of the alarm information included in the A; a is a_iThe ith alarm information in the A is obtained; a is a_iS is said a_iThe alarm start time included; a is a_iE is said a_iThe alarm end time included; said x_iAccording to the service quitting starting time in the service quitting item corresponding to the service quitting time and the a_iThe fallback entry of S; said x_iS is said x_iThe service quit start time; said x_iE is said x_iThe service quit end time;

b represents the set of all the previous alarm information when the cell quits service; j is the number of the alarm information included in B; b is_jThe ith alarm information in the B is obtained; b is_jS is said b_jThe alarm start time included; b is_jE is said b_jThe alarm end time included; said x_jAccording to the service quitting starting time in the service quitting item corresponding to the service quitting time and the b_jThe fallback entry of S; said x_jS is said x_jThe service quit start time; said x_jE is said x_jThe service quit end time.

3. The method of claim 1,

the method further comprises the following steps:

inquiring the alarm information of the cell with non-zero service quitting time;

and forming a service quitting alarm association list comprising the cell identification, the service quitting time and the alarm information.

4. An information processing apparatus of a resignant cell, the apparatus comprising:

the statistical unit is used for counting the number of available physical resource blocks of a physical link shared channel of a cell according to the traffic information;

a first determining unit, configured to determine a first backoff period of a cell based on the number of available physical resource blocks; wherein the number of available physical resource blocks is zero;

the second determining unit is used for determining the missing time of the performance data as a second quit service time interval according to the performance data;

a third determining unit, configured to determine a service quitting time of the cell according to the first service quitting time period and the second service quitting time period;

the device further comprises:

the fourth determining unit is used for determining the alarm time associated with the cell quit service according to the alarm information;

the matching unit is used for performing correlation matching on the service quitting time and the alarm time to form a matching result;

the positioning unit is used for positioning information processing abnormity according to the matching result and a preset standard strategy;

the positioning unit is specifically configured to determine that the alarm information is processed abnormally when the matching result indicates that the alarm time is not matched with the service quitting time, with the service quitting time as matching standard time; or, if the alarm time is taken as the matching standard time, when the matching result shows that the service quitting time is not matched with the alarm time, determining that the service quitting time is abnormal statistically.

5. The apparatus of claim 4,

the fourth determining unit is specifically configured to:

f(x)＝f_a(x)+f_b(x)；

wherein A represents a cellQuitting the set of all the previous alarm information; the I is the number of the alarm information included in the A; a is a_iThe ith alarm information in the A is obtained; a is a_iS is said a_iThe alarm start time included; a is a_iE is said a_iThe alarm end time included; said x_iAccording to the service quitting starting time in the service quitting item corresponding to the service quitting time and the a_iThe fallback entry of S; said x_iS is said x_iThe service quit start time; said x_iE is said x_iThe service quit end time;

b represents the set of all the previous alarm information when the cell quits service; j is the number of the alarm information included in B; b is_jThe ith alarm information in the B is obtained; b is_jS is said b_jThe alarm start time included; b is_jE is said b_jThe alarm end time included; said x_jAccording to the service quitting starting time in the service quitting item corresponding to the service quitting time and the b_jThe fallback entry of S; said x_jS is said x_jThe service quit start time; said x_jE is said x_jThe service quit end time.

6. The apparatus of claim 4,

the device further comprises:

the inquiring unit is used for inquiring the alarm information of the cell with the service quitting time not equal to zero;

and the forming unit is used for forming a quit-service alarm correlation list comprising the cell identification, the quit-service time and the alarm information.

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