CN107205245A - Hot spot region automatic identifying method and device - Google Patents
Hot spot region automatic identifying method and device Download PDFInfo
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- CN107205245A CN107205245A CN201710452773.7A CN201710452773A CN107205245A CN 107205245 A CN107205245 A CN 107205245A CN 201710452773 A CN201710452773 A CN 201710452773A CN 107205245 A CN107205245 A CN 107205245A
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Abstract
The present invention relates to hot spot region automatic identifying method and device.This method includes:According to Zone quality index degraded threshold set in advance, hot spot region identification step of the triggering for cell to be identified;The hot spot region identification step includes:Situation about being deteriorated according to the identical services quality index of the co-sited adjacent area of the cell to be identified and each neighboring station adjacent area on co-sited adjacent area periphery, searches each homogeneity deterioration cell;According to accounting of the quantity relative to the association adjacent area analyzed in this secondary hot spots identification process of the homogeneity deterioration cell found, hot spot region determination process is triggered, triggering hot spot region determination process includes carrying out closing connection to form hot spot region by the association adjacent area analyzed in this secondary hot spots identification process.The present invention can carry out hot spot region identification automatically, and accuracy is high, efficiency high.
Description
It Application No. 201610799023.2, the applying date is that August in 2016 31 days, invention and created name are that the application, which is,
The divisional application of the Chinese patent application of " hot spot region automatic identifying method and device ".
Technical field
The present invention relates to communication technical field, more particularly to a kind of hot spot region automatic identifying method and device.
Background technology
Current mobile wireless network is in Rapid development stage, and network load starts to face high traffic test, in part
Hot spot region has showed the feature of high user density, high concurrent, big flow.Grasp in time and ensure the business matter of hot spot region
Amount and client perception, are the emphasis of network operation work.
Existing hot spot region monitoring capacity mainly by delimiting the good scope that may occur traffic hotspots in advance, artificial comb
The network element that needs are paid close attention to is managed out, is given more sustained attention during ensureing.This method can precisely arrive network monitoring scope
Hot spot region, is solved to daily predictable hot spot region traffic load and the monitoring efficiency of network quality.
But manual intervention setting hot spot region has certain limitation, the human cost of artificial combing and manual configuration
Consumption is high, and the signaling big data analysis hot spot region automatic capture ability based on the program is more highlighted efficiently.
According to current signaling data acquisition capacity, hot spot region automatic capture and quality of service monitoring are realized, is existed
Problem and defect, have it is following some:
1st, the real-time acquisition capacity of signaling big data is needed to be further improved at present, particular for the timing_delay estimation of achievement data
There is breach in ability, the breach has the performance for increasing and deteriorating along with the expansion of acquisition range.Data delay will be directly affected
To the capture ability to the unexpected concurrent problem in hot spot region.
2nd, bottom data source diversity, is related to signaling, webmaster, testing, drive test, will improve difficult to upper layer data convergence
Degree, by different data sources, different time dimension, different delay, progress convergence compound operation, the logical operation to data analysis layer
Ability has very high requirement.
3rd, focus identification uses Dynamic Baseline, and horizontal alignment algorithm, the historical data of generation Dynamic Baseline is all based on 5 points
Clock collection, the whole network cell granularity, while sudden because of hot spot region, it is impossible to which agreement needs the data model laterally compared in advance
Enclose, therefore whole Dynamic Baseline all will be real-time triggering calculates, this computational methods it is less efficient.
The content of the invention
Technical problem
In view of this, the technical problem to be solved in the present invention is, how automatic identification hot spot region.
Solution
The present invention provides a kind of hot spot region automatic identifying method, including:
In the case where there is to be identified cell of the number of users more than the first thresholding and/or portfolio more than the second thresholding,
Hot spot region identification step of the triggering for the cell to be identified;
The hot spot region identification step includes:
Obtain the associated traffic data of the co-sited adjacent area and each neighboring station adjacent area of the cell to be identified under mutually in the same time;
The origin centered on the co-sited adjacent area, is connected to each neighboring station adjacent area on co-sited adjacent area periphery, with true
Determine area coverage;
According to the business datum of the co-sited adjacent area, the business datum and the area coverage of each neighboring station adjacent area, meter
Calculate the corresponding traffic density data of the area coverage;
It is close from the whole co-sited adjacent area in the area coverage and the business of the history cycle of each neighboring station adjacent area
In degrees of data, valid data are extracted, and calculate corresponding Dynamic Baseline;
According to the Dynamic Baseline and the tolerance pre-set, determine whether the area coverage belongs to focus region of initiation
Domain;
Hot spot region is constituted based on the focus original area.
For the above method, in a kind of possible implementation, hot spot region is constituted based on the focus original area
Including:
In the case where there are multiple focus original areas, the adjacent focus original area in border is merged to constitute
Hot spot region.
It is adjacent from the whole co-sited in the area coverage in a kind of possible implementation for the above method
In the traffic density data of the history cycle of area and each neighboring station adjacent area, valid data are extracted, and calculate corresponding dynamic
State baseline, including:
Number of users and/or portfolio are extracted from the co-sited adjacent area in the area coverage and each neighboring station adjacent area
The traffic density data of history cycle in d days;
According to the percentage a% of virtual value set in advance, selected from the traffic density data of the history cycle extracted
D*a% valid data are taken, wherein, the valid data are minimum for variance in the traffic density data of the history cycle extracted
D*a% data;
The average value E and variance sigma of d*a% selected valid data are calculated, and using formula M=E+sigma meters
Calculate the Dynamic Baseline M.
For the above method, in a kind of possible implementation, according to the Dynamic Baseline and the tolerance pre-set
Degree determines whether the area coverage belongs to focus original area, including:
Using formula M* (1+rn) calculate n-th grade of traffic fluctuations thresholding, wherein, rnFor the appearance that traffic fluctuations rank is n grades
Degree of bearing, n is positive integer;
The fluctuation situation and traffic fluctuations thresholding of the traffic density data of the history cycle of the area coverage are compared
Compared with determining whether the area coverage belongs to focus original area.
For the above method, in a kind of possible implementation, in addition to:
Traffic fluctuations rank according to belonging to the area coverage, is rendered in GIS map using respective color.
The present invention also provides a kind of hot spot region automatic identifying method, including:
According to Zone quality index degraded threshold set in advance, triggering is known for the hot spot region of cell to be identified
Other step;
The hot spot region identification step includes:
According to the phase same trade of the co-sited adjacent area of the cell to be identified and each neighboring station adjacent area on co-sited adjacent area periphery
The situation of quality index of being engaged in deterioration, searches each homogeneity deterioration cell;
According to the quantity of the homogeneity deterioration cell found relative to the association analyzed in this secondary hot spots identification process
The accounting of adjacent area, triggers hot spot region determination process, and triggering hot spot region determination process includes recognizing this secondary hot spots
The association adjacent area analyzed in journey carries out closing connection to form hot spot region.
For the above method, in a kind of possible implementation, according to the co-sited adjacent area of the cell to be identified with
The situation of the identical services quality index deterioration of each neighboring station adjacent area on co-sited adjacent area periphery, searches each homogeneity deterioration cell,
Including:
There is a situation where the deterioration of identical services quality index in the co-sited adjacent area of the cell to be identified and each neighboring station adjacent area
Under, search whether the homogeneity deterioration cell that there is the cell to be identified;
If it is present the homogeneity deterioration cell arrived according to current lookup performs finding step, the finding step includes:
Search the current lookup to homogeneity deterioration cell co-sited adjacent area with neighboring station adjacent area whether there is current lookup arrive it is same
The homogeneity deterioration cell of shoddyization cell;
If it is present according to current lookup to homogeneity deterioration cell continue executing with the finding step, until search
Less than current lookup to homogeneity deterioration cell homogeneity deterioration cell untill.
For the above method, in a kind of possible implementation, in addition to:
According to the service quality deterioration rank of each cell in the hot spot region, entered in GIS map using respective color
Row is rendered.
The present invention also provides a kind of hot spot region automatic identification equipment, including:
Trigger module, for being more than the to be identified of the second thresholding there is number of users more than the first thresholding and/or portfolio
In the case of cell, triggering hot spot region identification module carries out hot spot region identification to the cell to be identified;
The hot spot region identification module includes:
Business datum acquiring unit, for obtaining the co-sited adjacent area and each neighboring station adjacent area of the cell to be identified when identical
The business datum inscribed;
Area coverage determining unit, for the origin centered on the co-sited adjacent area, is connected to co-sited adjacent area periphery
Each neighboring station adjacent area, to determine area coverage;
Traffic density computing unit, for the business datum according to the co-sited adjacent area, the business of each neighboring station adjacent area
Data and the area coverage, calculate the corresponding traffic density data of the area coverage;
Dynamic Baseline computing unit, for adjacent from the whole co-sited adjacent area in the area coverage and each neighboring station
In the traffic density data of the history cycle in area, valid data are extracted, and calculate corresponding Dynamic Baseline;
Hot spot region determining unit, for according to the Dynamic Baseline and the tolerance pre-set, determining the covering
Whether area belongs to focus original area;Hot spot region is constituted based on the focus original area.
For said apparatus, in a kind of possible implementation, the hot spot region determining unit is additionally operable to exist
In the case of multiple focus original areas, the adjacent focus original area in border is merged to constitute hot spot region.
For said apparatus, in a kind of possible implementation, the Dynamic Baseline computing unit is additionally operable to:
Number of users and/or portfolio are extracted from the co-sited adjacent area in the area coverage and each neighboring station adjacent area
The traffic density data of history cycle in d days;
According to the percentage a% of virtual value set in advance, selected from the traffic density data of the history cycle extracted
D*a% valid data are taken, wherein, the valid data are minimum for variance in the traffic density data of the history cycle extracted
D*a% data;
The average value E and variance sigma of d*a% selected valid data are calculated, and using formula M=E+sigma meters
Calculate the Dynamic Baseline M.
For said apparatus, in a kind of possible implementation, the hot spot region determining unit is additionally operable to:
N-th grade of traffic fluctuations thresholding is calculated using formula M* (1+rn), wherein, rn is that traffic fluctuations rank is n grades
Tolerance, n is positive integer;
The fluctuation situation and traffic fluctuations thresholding of the traffic density data of the history cycle of the area coverage are compared
Compared with determining whether the area coverage belongs to focus original area.
For said apparatus, in a kind of possible implementation, in addition to:
Rendering module, for the traffic fluctuations rank according to belonging to the area coverage, uses corresponding face in GIS map
Color is rendered.
The present invention also provides a kind of hot spot region automatic identification equipment, including:
Trigger module, for according to Zone quality index degraded threshold set in advance, the identification of triggering hot spot region
The hot spot region of cell to be identified is identified module;
The hot spot region identification module includes:
Searching unit, for the co-sited adjacent area according to the cell to be identified and each neighboring station on co-sited adjacent area periphery
The situation of the identical services quality index deterioration of adjacent area, searches each homogeneity deterioration cell;
Hot spot region determining unit, the quantity for deteriorating cell according to the homogeneity found is known relative to this secondary hot spots
The accounting for the association adjacent area analyzed during not, triggers hot spot region determination process, triggering hot spot region determination process
Connected including the association adjacent area analyzed in this secondary hot spots identification process is carried out into closing to form hot spot region.
For said apparatus, in a kind of possible implementation, the searching unit is additionally operable to:
There is a situation where the deterioration of identical services quality index in the co-sited adjacent area of the cell to be identified and each neighboring station adjacent area
Under, search whether the homogeneity deterioration cell that there is the cell to be identified;
If it is present the homogeneity deterioration cell arrived according to current lookup performs finding step, the finding step includes:
Search the current lookup to homogeneity deterioration cell co-sited adjacent area with neighboring station adjacent area whether there is current lookup arrive it is same
The homogeneity deterioration cell of shoddyization cell;
If it is present according to current lookup to homogeneity deterioration cell continue executing with the finding step, until search
Less than current lookup to homogeneity deterioration cell homogeneity deterioration cell untill.
For said apparatus, in a kind of possible implementation, in addition to:
Rendering module, for the service quality deterioration rank according to each cell in the hot spot region, is adopted in GIS map
Rendered with respective color.
Beneficial effect
The present invention can carry out hot spot region identification automatically, relatively existing artificial judgment method, by setting focus
Automatic capture thresholding, completes hot spot region automatic capture, can save human cost, possesses accuracy height, the advantage of efficiency high.
Further, the present invention may be referred to the co-sited adjacent area of cell to be identified and each neighboring station adjacent area relevant historical data is assisted
With analysis, effective analysis and assessment can be made to hot spot region bursting problem by periodic data, has evaded real time data
Gather the time delay of time delay.
Further, the present invention collects bottom data step by step, forms the association analysis data of different stage, reduces defeated
The operational capability and demand gone out needed for final result, and contrast situation can also be provided by different pieces of information level.
Further, the co-sited adjacent area and each neighboring station adjacent area relevant historical data of the invention by analyzing cell to be identified,
Extracted valid data, and calculate corresponding Dynamic Baseline, is not required to collection in real time and calculatings of setting out in real time, improve recognition efficiency with
Computing demand.
According to below with reference to the accompanying drawings becoming to detailed description of illustrative embodiments, further feature of the invention and aspect
It is clear.
Brief description of the drawings
Comprising in the description and constituting accompanying drawing and the specification of a part of specification and together illustrate the present invention's
Exemplary embodiment, feature and aspect, and for explaining the principle of the present invention.
Fig. 1 shows the flow chart of hot spot region automatic identifying method according to an embodiment of the invention;
Fig. 2 shows the flow chart of hot spot region automatic identifying method according to another embodiment of the present invention;
Fig. 3 shows the flow chart of hot spot region automatic identifying method according to another embodiment of the present invention;
Fig. 4 shows the flow chart of hot spot region automatic identifying method according to another embodiment of the present invention;
Fig. 5 shows the area coverage calculation in hot spot region automatic identifying method according to another embodiment of the present invention
Schematic diagram;
Fig. 6 shows the signal of the rendering effect in hot spot region automatic identifying method according to another embodiment of the present invention
Figure;
Fig. 7 shows the structural representation of hot spot region automatic identification equipment according to an embodiment of the invention;
Fig. 8 shows the structural representation of hot spot region automatic identification equipment according to another embodiment of the present invention.
Embodiment
Describe various exemplary embodiments, feature and the aspect of the present invention in detail below with reference to accompanying drawing.It is identical in accompanying drawing
Reference represent the same or analogous element of function.Although the various aspects of embodiment are shown in the drawings, remove
Non-specifically is pointed out, it is not necessary to accompanying drawing drawn to scale.
Special word " exemplary " is meant " being used as example, embodiment or illustrative " herein.Here as " exemplary "
Illustrated any embodiment should not necessarily be construed as preferred or advantageous over other embodiments.
In addition, in order to better illustrate the present invention, numerous details are given in embodiment below.
It will be appreciated by those skilled in the art that without some details, the present invention can equally be implemented.In some instances, for
Method well known to those skilled in the art, means, element and circuit are not described in detail, in order to highlight the purport of the present invention.
The embodiment of the present invention is main from two aspect difference of important area quality assurance effect and network performance management process
Criterion is specified, condition monitoring is fluctuated by Zone face index (such as flow, number of users), with reference to signaling chain of command
Each desired value (such as quality deterioration), province and district city, district, important leverage focus trigger gauge are rationally set with big data analysis
Then, realize that important area quality-monitoring is analyzed, grasp in time and ensure the quality of service and client perception of key area.
First, geographically can be by such as province and district city, 3, district fixed scene, and in priority support scene areas
Affiliated full dose cell etc. is considered as important area.
Then, focus identification is carried out based on basic data.For example, the index set based on signaling can include:User
4 classes such as number, portfolio, chain of command index, signaling plane index.Be related to web page browsing, video traffic, instant messaging, using download
The link such as four business and network attachment, carrying foundation, TAU renewals, inquiry of the domain name, connection foundation.Index set can be adopted all
Wireless area Spatial Dimension is used, is within 5 minutes the time to count granularity.The type of each index and corresponding implication etc., may refer to
Such as related content of table 1, but table 1 is also only a kind of example, you can be used as heat using the part or all of index in table 1
The basic data of point identification, it would however also be possible to employ the basic data that other indexs similar with table 1 are recognized as focus.
Table 1
Focus identification (or hot spot service identification) refers to according to certain computation rule, it is main using threshold value and fluctuation thresholding,
Across comparison method, finds out the business that significant change occurs for usage amount highest in region, increment highest or business model, in time the palm
Hold the situation of area's intra domain user access service.The mistake of hot spot region automatic identification is introduced below by way of several specific embodiments
Journey.
Embodiment 1
Fig. 1 shows the flow chart of hot spot region automatic identifying method according to an embodiment of the invention.As shown in figure 1, should
Hot spot region automatic identifying method can mainly include:
Step 101, there is number of users and is being more than more than the first thresholding and/or portfolio the cell to be identified of the second thresholding
In the case of, trigger step 102.For example, each cell of important area can be monitored, finds some of important area
The user density and/or traffic density of cell are undergone mutation, and the cell can be considered to cell to be identified.
Step 102, hot spot region identification is carried out to the cell to be identified, can specifically included:
The related industry of step 1021, the co-sited adjacent area for obtaining the cell to be identified to each neighboring station adjacent area under mutually in the same time
Business data;Wherein, the co-sited adjacent area of a cell is other cells in the cell institute home base station coverage;One cell
Neighboring station adjacent area be and all cells in the base station range of the cell home base station direct neighbor.
Step 1022, the origin centered on the co-sited adjacent area, are connected to each neighboring station on co-sited adjacent area periphery
Adjacent area, to determine area coverage;
Step 1023, the business datum according to the co-sited adjacent area, the business datum of each neighboring station adjacent area and described cover
Capping is accumulated, and calculates the corresponding traffic density data of the area coverage;
Step 1024, from the whole co-sited adjacent area in the area coverage and the history cycle of each neighboring station adjacent area
Traffic density data in, extract valid data, and calculate corresponding Dynamic Baseline;
Step 1025, according to the Dynamic Baseline and the tolerance pre-set, determine whether the area coverage belongs to
Focus original area.
In addition, in step 1026, hot spot region is constituted based on the focus original area.Specifically, if there is
Multiple focus original areas, can merge the adjacent focus original area in border to constitute hot spot region, so as to be formed
Complete hot spot region recognition result.
For example, step 1024 can specifically include:
The history week of number of users and/or portfolio in d days is extracted from the co-sited adjacent area and each neighboring station adjacent area
The traffic density data of phase;Wherein, number of days d can be adjusted to 7,30 etc. by week, moon cycle requirement, and maximum may be configured as 365, default
It can select for optimal value 30, can flexibly be set according to specific application demand, the present invention does not limit d concrete numerical value.
According to the percentage a% of virtual value set in advance, selected from the traffic density data of the history cycle extracted
D*a% valid data are taken, wherein, the valid data are minimum for variance in the traffic density data of the history cycle extracted
D*a% data;
The average value E and variance sigma of d*a% selected valid data are calculated, and using formula M=E+sigma meters
Calculate the Dynamic Baseline M.
Then, in step 1025, formula M* (1+r can be usedn) calculate n-th grade of traffic fluctuations thresholding, wherein, rn
For the tolerance that traffic fluctuations rank is n grades, n is positive integer.Then by the traffic density of the history cycle of the area coverage
The fluctuation situation and traffic fluctuations thresholding of data are compared, and determine whether the area coverage belongs to focus original area.
Finally, in step 103, can be according to the traffic fluctuations rank belonging to the area coverage, in GIS
Rendered on (Geographic Information System, GIS-Geographic Information System) map using respective color.Referring to figure
6。
Embodiment 2
Fig. 2 shows the flow chart of hot spot region automatic identifying method according to another embodiment of the present invention.As shown in Fig. 2
The hot spot region automatic identifying method is mainly based upon user density, traffic density mutation and carries out the automatic identification of hot spot region,
It can specifically include:
Step 201, it is more than some presetting static gates when some community user number and/or portfolio real time data index
Limit, the analysis of triggering hot spot region.For example, each cell to important area is monitored, some cell of important area is found
User density and/or traffic density are undergone mutation.
Business datum is mutually descended in step 202, the co-sited adjacent area for extracting the cell in the same time with neighboring station adjacent area.
Step 203, centered on co-sited adjacent area, connect the neighboring station adjacent area on co-sited adjacent area periphery, then neighboring station adjacent area carried out
It is sequentially connected, forms the area coverage of Spatial Dimension closing.
Step 204, traffic density=total business volume/area coverage.Wherein, the calculation of area coverage can have many
Kind, such as shown in figure 5, by area coverage according to being split as after multiple triangles are calculated respectively merging.
Step 205, the data for extracting 30 days history cycles of community user number or each portfolio.Wherein, only it is within 30 days a kind of
Example, specifically can flexibly be selected according to practical application scene.
Step 206, the percentage a% according to presetting virtual value, choose wherein 30*a% data and are used as valid data
Calculate Dynamic Baseline (this be in order to reject abnormal data therein).
Specifically, valid data are the minimum 30*a% numbers of wherein variance.30*a% of selection, which can be calculated, has
Imitate the average value E and variance sigma of data, Dynamic Baseline M=E+sigma.
After step 207, Dynamic Baseline are calculated, tolerance r1, r2, r3, r4 need to be set, level Four fluctuation door is ultimately formed
Limit, to distinguish fluctuation grade.4 tolerances in table 2 are only a kind of examples, specifically can be flexible according to practical application scene
Set.
Table 2
Index fluctuates direction | One-level | Two grades | Three-level | Level Four |
Index is fluctuated upwards | M*(1+r1) | M*(1+r2) | M*(1+r3) | M*(1+r4) |
If the traffic fluctuations rank of the traffic density data of the history cycle of step 208, the area coverage is in fluctuation door
In the range of limit, then the area coverage is then determined as focus original area.
Step 209, the adjacent focus original area in border merged, then form complete region recognition.
Embodiment 3
Fig. 3 shows the flow chart of hot spot region automatic identifying method according to another embodiment of the present invention.As shown in figure 3,
The hot spot region automatic identifying method can mainly include:
Step 301, according to Zone quality index degraded threshold set in advance, trigger step 302.Specifically,
The quality of service index degraded threshold of cell can be preset, it can be seen from table 1, quality of service index has a variety of, both includes
Various KQI, also including indexs such as connection foundation, inquiry of the domain name, network attachment, carrying foundation, TAU, each quality of service refers to
Mark can set corresponding degraded threshold.Some quality of service index burst deterioration of some cell in such as important area
When, the quality of service index after deterioration is less than degraded threshold, then can trigger the step of hot spot region is recognized.
Step 302, to cell to be identified carry out hot spot region identification, can specifically include:
Step 3021, the co-sited adjacent area according to the cell to be identified and each neighboring station adjacent area on co-sited adjacent area periphery
The deterioration of identical services quality index situation, search each homogeneity deterioration cell;Wherein, homogeneity deterioration cell refer to it is to be identified
There is the cell of deterioration condition simultaneously in some or certain several quality of service indexs of cell.For example, it is false referring to table 1
If cell A and cell B HTTP singles response success rate reduces 10% or all deteriorates door beyond quality of service index
Limit, then it is considered that cell A is cell B homogeneity deterioration cell, or cell B is cell A homogeneity deterioration cell.
Step 3022, the quantity of cell is deteriorated according to the homogeneity that is found relative to dividing in this secondary hot spots identification process
The accounting of the association adjacent area of analysis, triggers hot spot region determination process, and triggering hot spot region determination process is included this heat
The association adjacent area analyzed in point identification process carries out closing connection to form hot spot region.
Wherein, step 3021 can include:
Step 3021a, in the co-sited adjacent area of the cell to be identified and each neighboring station adjacent area there is identical services quality index
In the case of deterioration, the homogeneity deterioration cell that there is the cell to be identified is searched whether;If it is present performing step
3021b。
Step 3021b, the homogeneity deterioration cell arrived according to current lookup perform finding step 3021c.In finding step
In 3021c, search the current lookup to the co-sited adjacent area of homogeneity deterioration cell currently looked into whether there is in neighboring station adjacent area
The homogeneity deterioration cell of the homogeneity deterioration cell found.
If it is present according to current lookup to homogeneity deterioration cell continue executing with the finding step 3021c, until
Search less than current lookup to homogeneity deterioration cell homogeneity deterioration cell untill, and found homogeneity can be calculated
The quantity of cell is deteriorated, step 3022 is then performed.
Finally, in step 303, can be according to the service quality deterioration rank of each cell in the hot spot region, in GIS
Rendered on map using respective color, referring to Fig. 6.
Embodiment 4
Fig. 4 shows the flow chart of hot spot region automatic identifying method according to another embodiment of the present invention.As shown in figure 4,
The hot spot region automatic identifying method is based primarily upon the automatic identification that network deterioration carries out hot spot region, can specifically include:
Step 401, some presetting Zone quality index degraded threshold.
Step 402, the operational indicator deterioration triggering hot spot region analysis based on the cell.
Step 403, analyze what the co-sited adjacent area and neighboring station adjacent area of the cell were deteriorated with the presence or absence of identical services quality index
Situation, cell is deteriorated if there is homogeneity, then performs step 404.
The homogeneity deterioration cell that step 404, basis are found analyzes co-sited adjacent area and the neighboring station neighbour of homogeneity deterioration cell
Whether homogeneity deterioration cell is deposited in area.If it does, continuing step 404 searches homogeneity deterioration cell, otherwise stop analysis.In analysis
During searching homogeneity deterioration cell, the homogeneity that can count found deteriorates the quantity of cell.
Step 405, number of cells deteriorated relative to associating adjacent area during once complete focus regional analysis according to homogeneity
Accounting triggering hot spot region identification, the cells (associating adjacent area) that all during analysis were analyzed carry out closing companies
Connect, automatically form hot spot region.
As shown in fig. 6, carrying hot spot region scope based on GIS map, each hot spot region scope is according in above-described embodiment
Traffic fluctuations rank or service quality deterioration rank, color rendering early warning can be carried out.Render process can be using interpolation point
Algorithm is analysed, forming rendered color, gradual change diffusion from deep to shallow is imitated by traffic fluctuations cell-of-origin or business deterioration cell-of-origin progress
Really.
The embodiment of the present invention can carry out hot spot region identification automatically, relatively existing artificial judgment method, possess accurate
Property high, the advantage of efficiency high.By setting focus automatic capture thresholding, and thresholding pre-value is permanently effective, completes hot zone
Domain automatic capture, greatlys save human cost.
Acquisition capacity based on signaling data, compared to former base in the acquisition capacity of webmaster side, either in index real-time,
Or angle is segmented in business, there is tremendous increase.Pass through focus automatic identification algorithm, it is possible to achieve hot spot region monitoring is without dead
Angle, hot spot region effective monitoring can reach 100%.
The hot spot region automatic identifying method of the embodiment of the present invention has redefined the definition of hot spot region.It is not repeated
By artificially collecting, historical data analysis confines monitoring range in advance, and the complete dynamic generation in hot spot region in the program, its
Focus area coverage will synchronize renewal according to real-time indicators change, accomplish that monitored object is shot the arrow at the target.
Embodiment 5
Fig. 7 shows the structural representation of hot spot region automatic identification equipment according to an embodiment of the invention.Such as Fig. 7 institutes
Show, the hot spot region automatic identification equipment can specifically include:
Trigger module 51, for occur number of users more than the first thresholding and/or portfolio be more than the second thresholding wait know
In the case of other cell, triggering hot spot region identification module carries out hot spot region identification to the cell to be identified;
The hot spot region identification module 53 includes:
Business datum acquiring unit 531, for obtaining the co-sited adjacent area and each neighboring station adjacent area of the cell to be identified in phase
Business datum under in the same time;
Area coverage determining unit 532, for the origin centered on the co-sited adjacent area, is connected to the co-sited adjacent area week
Each neighboring station adjacent area on side, to determine area coverage;
Traffic density computing unit 533, connects respectively with business datum acquiring unit 531 and area coverage determining unit 532
Connect, for the business datum according to the co-sited adjacent area, the business datum and the area coverage of each neighboring station adjacent area, calculate
Go out the corresponding traffic density data of the area coverage;
Dynamic Baseline computing unit 534, is connected with traffic density computing unit, for from the whole in the area coverage
In the traffic density data of the history cycle of the co-sited adjacent area and each neighboring station adjacent area, valid data are extracted, and calculate
Go out corresponding Dynamic Baseline;
Hot spot region determining unit 535, is connected with Dynamic Baseline computing unit, for according to the Dynamic Baseline and in advance
The tolerance of setting, determines whether the area coverage belongs to focus original area;Heat is constituted based on the focus original area
Point region.
In a kind of possible implementation, hot spot region determining unit 535 is additionally operable to the presence of multiple focus regions of initiation
In the case of domain, the adjacent focus original area in border is merged to constitute hot spot region.
In a kind of possible implementation, the Dynamic Baseline computing unit 534 is additionally operable to:
Number of users and/or portfolio are extracted from the co-sited adjacent area in the area coverage and each neighboring station adjacent area
The traffic density data of history cycle in d days;
According to the percentage a% of virtual value set in advance, selected from the traffic density data of the history cycle extracted
D*a% valid data are taken, wherein, the valid data are minimum for variance in the traffic density data of the history cycle extracted
D*a% data;
The average value E and variance sigma of d*a% selected valid data are calculated, and using formula M=E+sigma meters
Calculate the Dynamic Baseline M.
In a kind of possible implementation, the hot spot region determining unit 535 is additionally operable to:
N-th grade of traffic fluctuations thresholding is calculated using formula M* (1+rn), wherein, rn is that traffic fluctuations rank is n grades
Tolerance, n is positive integer;
The fluctuation situation and traffic fluctuations thresholding of the traffic density data of the history cycle of the area coverage are compared
Compared with determining whether the area coverage belongs to focus original area.
In a kind of possible implementation, the hot spot region automatic identification equipment also includes:
Rendering module 55, is connected with hot spot region identification module 53, for the business ripple according to belonging to the area coverage
Dynamic rank, is rendered in GIS map using respective color.
The hot spot region automatic identification equipment of the present embodiment is able to carry out the hot spot region automatic identification side of embodiment 1,2
Method.The present embodiment content same as the previously described embodiments has identical implication, repeats no more.
Embodiment 6
Fig. 8 shows the structural representation of hot spot region automatic identification equipment according to another embodiment of the present invention.Such as Fig. 8 institutes
Show, the hot spot region automatic identification equipment is based primarily upon the automatic identification that network deterioration carries out hot spot region, and the hot spot region is certainly
Dynamic identifying device can specifically include:
Trigger module 61, for according to Zone quality index degraded threshold set in advance, triggering hot spot region to be known
The hot spot region of cell to be identified is identified other module;
The hot spot region identification module 63 includes:
Searching unit 631, for the co-sited adjacent area according to the cell to be identified with each of co-sited adjacent area periphery
The situation of the identical services quality index deterioration of neighboring station adjacent area, searches each homogeneity deterioration cell;
Hot spot region determining unit 633, for deteriorating the quantity of cell according to the homogeneity found relative to this heat
The accounting for the association adjacent area analyzed in point identification process, triggers hot spot region determination process, and the triggering hot spot region is determined
Process includes carrying out closing connection to form hot spot region by the association adjacent area analyzed in this secondary hot spots identification process.
In a kind of possible implementation, the searching unit 631 is additionally operable to:
There is a situation where the deterioration of identical services quality index in the co-sited adjacent area of the cell to be identified and each neighboring station adjacent area
Under, search whether the homogeneity deterioration cell that there is the cell to be identified;
If it is present the homogeneity deterioration cell arrived according to current lookup performs finding step, the finding step includes:
Search the current lookup to homogeneity deterioration cell co-sited adjacent area with neighboring station adjacent area whether there is current lookup arrive it is same
The homogeneity deterioration cell of shoddyization cell;
If it is present according to current lookup to homogeneity deterioration cell continue executing with the finding step, until search
Less than current lookup to homogeneity deterioration cell homogeneity deterioration cell untill.
In a kind of possible implementation, the hot spot region automatic identification equipment also includes:Rendering module 65, for root
According to the service quality deterioration rank of each cell in the hot spot region, rendered in GIS map using respective color.
The hot spot region automatic identification equipment of the present embodiment is able to carry out the hot spot region automatic identification side of embodiment 3,4
Method.The present embodiment content same as the previously described embodiments has identical implication, repeats no more.
The present invention can carry out hot spot region identification automatically, relatively existing artificial judgment method, by setting focus
Automatic capture thresholding, completes hot spot region automatic capture, can save human cost, possesses accuracy height, the advantage of efficiency high.
Further, the present invention may be referred to the co-sited adjacent area of cell to be identified and each neighboring station adjacent area relevant historical data is assisted
With analysis, effective analysis and assessment can be made to hot spot region bursting problem by periodic data, has evaded real time data
Gather the time delay of time delay.
Further, the present invention collects bottom data step by step, forms the association analysis data of different stage, reduces defeated
The operational capability and demand gone out needed for final result, and contrast situation can also be provided by different pieces of information level.
Further, the co-sited adjacent area and each neighboring station adjacent area relevant historical data of the invention by analyzing cell to be identified,
Extracted valid data, and calculate corresponding Dynamic Baseline, is not required to collection in real time and calculatings of setting out in real time, improve recognition efficiency with
Computing demand.
The foregoing is only a specific embodiment of the invention, but protection scope of the present invention is not limited thereto, any
Those familiar with the art the invention discloses technical scope in, change or replacement can be readily occurred in, should all be contained
Cover within protection scope of the present invention.Therefore, protection scope of the present invention should be based on the protection scope of the described claims.
Claims (6)
1. a kind of hot spot region automatic identifying method, it is characterised in that including:
According to Zone quality index degraded threshold set in advance, hot spot region identification step of the triggering for cell to be identified
Suddenly;
The hot spot region identification step includes:
According to the identical services matter of the co-sited adjacent area of the cell to be identified and each neighboring station adjacent area on co-sited adjacent area periphery
The situation of figureofmerit deterioration, searches each homogeneity deterioration cell;
According to the quantity of the homogeneity deterioration cell found relative to the association adjacent area analyzed in this secondary hot spots identification process
Accounting, trigger hot spot region determination process, triggering hot spot region determination process include by this secondary hot spots identification process
The association adjacent area analyzed closing connection is carried out to form hot spot region.
2. according to the method described in claim 1, it is characterised in that according to the co-sited adjacent area of the cell to be identified with described
The situation of the identical services quality index deterioration of each neighboring station adjacent area on co-sited adjacent area periphery, searches each homogeneity deterioration cell, including:
In the case of there is the deterioration of identical services quality index in the co-sited adjacent area of the cell to be identified and each neighboring station adjacent area, look into
Look for the homogeneity deterioration cell with the presence or absence of the cell to be identified;
If it is present the homogeneity deterioration cell arrived according to current lookup performs finding step, the finding step includes:Search
The current lookup to homogeneity deterioration cell co-sited adjacent area with neighboring station adjacent area whether there is current lookup arrive it is same shoddy
Change the homogeneity deterioration cell of cell;
If it is present according to current lookup to homogeneity deterioration cell continue executing with the finding step, until search less than
Current lookup to homogeneity deterioration cell homogeneity deterioration cell untill.
3. method according to claim 2, it is characterised in that also include:
According to the service quality deterioration rank of each cell in the hot spot region, wash with watercolours is carried out using respective color in GIS map
Dye.
4. a kind of hot spot region automatic identification equipment, it is characterised in that including:
Trigger module, for according to Zone quality index degraded threshold set in advance, triggering hot spot region identification module
The hot spot region of cell to be identified is identified;
The hot spot region identification module includes:
Searching unit, for the co-sited adjacent area according to the cell to be identified and each neighboring station adjacent area on co-sited adjacent area periphery
The deterioration of identical services quality index situation, search each homogeneity deterioration cell;
Hot spot region determining unit, the quantity for deteriorating cell according to the homogeneity found was recognized relative to this secondary hot spots
The accounting for the association adjacent area analyzed in journey, triggers hot spot region determination process, triggering hot spot region determination process includes
The association adjacent area analyzed in this secondary hot spots identification process is carried out closing connection to form hot spot region.
5. device according to claim 4, it is characterised in that the searching unit is additionally operable to:
In the case of there is the deterioration of identical services quality index in the co-sited adjacent area of the cell to be identified and each neighboring station adjacent area, look into
Look for the homogeneity deterioration cell with the presence or absence of the cell to be identified;
If it is present the homogeneity deterioration cell arrived according to current lookup performs finding step, the finding step includes:Search
The current lookup to homogeneity deterioration cell co-sited adjacent area with neighboring station adjacent area whether there is current lookup arrive it is same shoddy
Change the homogeneity deterioration cell of cell;
If it is present according to current lookup to homogeneity deterioration cell continue executing with the finding step, until search less than
Current lookup to homogeneity deterioration cell homogeneity deterioration cell untill.
6. device according to claim 5, it is characterised in that also include:
Rendering module, for the service quality deterioration rank according to each cell in the hot spot region, uses phase in GIS map
Color is answered to be rendered.
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CN108446343B (en) * | 2018-03-06 | 2021-07-30 | 北京三快在线科技有限公司 | Method and device for area aggregation and electronic equipment |
CN111225404B (en) | 2018-11-23 | 2021-08-31 | 华为技术有限公司 | Network quality monitoring method and device |
CN109743674A (en) * | 2018-12-28 | 2019-05-10 | 中国联合网络通信集团有限公司 | Traffic hotspots area positioning method, device, equipment and readable medium |
CN111858543B (en) * | 2019-04-26 | 2024-03-19 | 中国移动通信集团河北有限公司 | Quality assessment method and device for commercial map and computing equipment |
CN111917597B (en) * | 2019-05-08 | 2022-02-22 | 中国移动通信集团福建有限公司 | Broadband service monitoring method and equipment |
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