CN109257755A - Evaluation method and evaluating apparatus - Google Patents
Evaluation method and evaluating apparatus Download PDFInfo
- Publication number
- CN109257755A CN109257755A CN201811110558.XA CN201811110558A CN109257755A CN 109257755 A CN109257755 A CN 109257755A CN 201811110558 A CN201811110558 A CN 201811110558A CN 109257755 A CN109257755 A CN 109257755A
- Authority
- CN
- China
- Prior art keywords
- score
- thresholding
- formula
- grid
- rate
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Classifications
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W24/00—Supervisory, monitoring or testing arrangements
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L41/00—Arrangements for maintenance, administration or management of data switching networks, e.g. of packet switching networks
- H04L41/14—Network analysis or design
Abstract
This application discloses a kind of evaluation method and evaluating apparatus, are related to mobile communication field, for fully assessing mobile communications network.This method comprises: the mobile communications network is divided into multiple grids;Obtain the covering index, quality index and perception index of each grid;The covering score that grid is calculated according to the covering index, the quality score of grid is calculated according to the quality index, and the perception score of grid is calculated according to the perception index;The score value of this grid is calculated according to the sum of the covering score of each grid, quality score and perception score;This grid grade is determined according to the score value of each grid.The embodiment of the present application is applied to assessment mobile communication network quality.
Description
Technical field
This application involves mobile communication network technology field more particularly to a kind of evaluation method and evaluating apparatus.
Background technique
As more and more users begin to use network, network is evaluated, and according to the evaluation result pair of network
Network optimizes, to improve the user experience of the network user, have become telecom operators need solve mainly ask
Topic.
In the prior art, assessing network still relatively mostly uses drive test test or performance indicator to carry out assessing network.This
Kind method is difficult to accomplish to put comprehensive assessment network quality in the same time and place, and is only lacked entirely with drive test index or performance indicator
Also it is difficult to reflect network truth comprehensively while the property of face.It is traditional in the case where network quality requires the overall background constantly promoted
Assessing network method is no longer applicable in.
Summary of the invention
Embodiments herein provides a kind of evaluation method and evaluating apparatus, is used for thoroughly evaluating network.
In order to achieve the above objectives, embodiments herein adopts the following technical scheme that
In a first aspect, embodiments herein provides a kind of evaluation method, it is applied to mobile communications network, the evaluation
Method includes:
The mobile communications network is divided into multiple grids;
Obtain the covering index, quality index and perception index of each grid;
The covering score that grid is calculated according to the covering index, obtains according to the quality that the quality index calculates grid
Point, the perception score of grid is calculated according to the perception index;
The score value of this grid is calculated according to the sum of the covering score of each grid, quality score and perception score;
This grid grade is determined according to the score value of each grid.
Second aspect, embodiments herein provide a kind of evaluating apparatus, applied to evaluation side described in first aspect
Method, the evaluating apparatus include:
Division unit, for mobile communications network to be divided into multiple grids;
Acquiring unit, for obtaining the covering index, quality index and perception index of each grid;
Computing unit is calculated for calculating the covering score of grid according to the covering index according to the quality index
The quality score of grid calculates the perception score of grid according to the perception index;
The computing unit is also used to according to the sum of the covering score of each grid, quality score and perception score meter
Calculate the score value of this grid;
Determination unit, for determining this grid grade according to the score value of each grid.
The third aspect, provides a kind of computer readable storage medium for storing one or more programs, it is one or
Multiple programs include instruction, and described instruction makes the computer execute commenting as described in relation to the first aspect when executed by a computer
Valence method.
Fourth aspect provides a kind of computer program product comprising instruction, when described instruction is run on computers
When, so that computer executes evaluation method as described in relation to the first aspect.
5th aspect, provides a kind of evaluating apparatus, comprising: processor and memory, memory are located for storing program
The program that device calls memory storage is managed, to execute evaluation method described in above-mentioned first aspect.
The evaluation method and evaluating apparatus that embodiments herein provides, it is multiple by the way that mobile communications network to be divided into
Grid calculates the score value of grid according to covering index, quality index and perception index, and determines grade according to the score value of grid,
Various dimensions evaluate network, more comprehensively objective.
Detailed description of the invention
Fig. 1 is a kind of evaluation method flow diagram one that embodiments herein provides;
Fig. 2 is a kind of evaluation method flow diagram two that embodiments herein provides;
Fig. 3 is a kind of evaluation method flow diagram three that embodiments herein provides;
Fig. 4 is a kind of evaluation method flow diagram four that embodiments herein provides;
Fig. 5 is a kind of evaluation method flow diagram five that embodiments herein provides;
Fig. 6 is a kind of evaluation method flow diagram six that embodiments herein provides;
Fig. 7 is a kind of evaluating apparatus structural schematic diagram that embodiments herein provides.
Specific embodiment
The embodiment of the present application provides a kind of evaluation method and evaluating apparatus, and mobile communications network is divided into multiple nets
Network determines grid score value according to the covering index of grid, quality index and perception index, and corresponding score, so that it is determined that
Grid grade can be from whole and part evaluation network matter for different network levels by various dimensions comprehensive analysis network
Amount, to support the network optimization of fining.
Embodiment 1,
The embodiment of the present application provides a kind of evaluation method, be applied to mobile communications network, referring to shown in 1, this method
Including S101-S106:
S101, mobile communications network is divided into multiple grids.
By the way that mobile communications network is divided into multiple grids according to area priorities, each grid may include multiple
Grid.
S102, the covering index for obtaining each grid, quality index and perception index.
Each grid includes multiple measurement reports (Measurement Report, MR), and MR includes multiple data, the number
According to can be used for network evaluation and optimization.Each MR includes covering index, quality index and perception index, utilizes covering, quality
And the dimensions index such as perception carries out comprehensive analysis to network, can assess network quality with objective reality, can also utilize MR and use
Family performance indicator covers comprehensive characteristic, forms mobile network's appraisement system of multidimensional, can preferably supporting network it is fine
Optimization Work.
Optionally, covering index may include 4 generations (Generation, G) MR coverage rate and 4G cell serviceability rate, matter
Figureofmerit may include: 3GMR low quality accounting and 4G channel quality instruction (Channel Quality Indicator,
CQI) it is greater than 7 accountings, perception index may include: that the wireless percent of call completed of 3/4G, 3G voice service cutting off rate, 4G data service are fallen
Line rate, 4G uplink service Mean Speed and 4G downlink business Mean Speed.
Optionally, referring to fig. 2, S102 may include S201-S209:
S201,4GMR coverage rate is calculated according to the first formula.
Wherein, the first formula can be with are as follows:K1For 4GMR coverage rate, N is the grid of a grid
Sum, N1Reference Signal Received Power (the Reference Signal Receiving covered for 4GMR in the grid
Power, RSRP) it is lower than the grid quantity of the first pre-determined threshold.
Illustratively, the first pre-determined threshold can be -105dBm.
It should be noted that the RSRP of 4GMR covering may include the RSRP of indoor and outdoors.
S202,4G cell serviceability rate is calculated according to the second formula.
Wherein, the second formula can be with are as follows:K2For 4G cell serviceability rate, T is default
Measurement period, T1It is moved back for cell in default measurement period and takes duration, T2For the disconnected station of cell or offline duration in default measurement period.
Illustratively, measurement period can be 24 hours, can count each grid 4G cell and move back and take duration and 4G is small
The disconnected station in area or offline duration, so that it is determined that 4G cell serviceability rate in the grid.
S203,3GMR low quality accounting is calculated according to third formula.
Wherein, third formula can be with are as follows:K3For 3GMR low quality accounting, M is the grid of grid
Sum, M1It is default lower than second for (the Energy chip/Interfere other cell) EcIo of 3GMR signal-to-noise ratio in the grid
The grid quantity of thresholding.
Illustratively, the second pre-determined threshold can be -12.
S204,4GCQI is calculated greater than 7 accountings according to the 4th formula.
Wherein, the 4th formula can be with are as follows:K4It is greater than 7 accountings for 4GCQI, L is cell CQI sampling
The sum of point, L1It is greater than 7 sampling number for cell CQI.
S205, the wireless percent of call completed of 3/4G is calculated according to the 5th formula.
Wherein, the 5th formula can be with are as follows: K5=KA×0.5+KB× 0.5, KA=Ka×Kb× 100%, KB=Ka×Kc×
100%, K5For the wireless percent of call completed of 3/4G, KAFor 3G wireless network percent of call completed, KaFor wireless heterogeneous networks (Radio Resource
Control, RRC) it is created as power, KbPower, K are created as radio access bearer (Radio Access Bearer, RAB)B
For 4G wireless system percent of call completed, KcFor the radio access bearer (Evolved Radio Access Bearer, E-RAB) of evolution
It is created as power.
S206,3G voice service cutting off rate is calculated according to the 6th formula;
Wherein, the 6th formula can be with are as follows:K6For 3G voice service cutting off rate, P is circuit switching
(Circuit Switched, CS) business discharges total degree, P1Number is discharged for CS service exception;
S207,4G data service drop rate is calculated according to the 7th formula;
Wherein, the 7th formula can be with are as follows:K7For 4G data service drop rate, Q is E-RAB release
Total degree, Q1The number discharged extremely for E-RAB;
S208,4G uplink service Mean Speed is calculated according to the 8th formula;
Wherein, the 8th formula can be with are as follows:K8For 4G uplink service Mean Speed, N2For
Upper line number received by cell Packet Data Convergence Protocol (Packet Data Convergence Protocol, PDCP) layer
According to total throughout, N3For make user equipment (User Experience, UE) caching be sky the last one transmission time between
Every the uplink PDCP handling capacity that (Transmission Time Interval, TTI) is passed, T3UE caching is set to be empty to deduct
The last one TTI after upper line number pass duration;
Optionally, UE may include the mobile communication equipments such as mobile phone.
S209,4G downlink business Mean Speed is calculated according to the 9th formula;
Wherein, the 9th formula can be with are as follows:K9For 4G downlink business Mean Speed, N4For
The total throughout of downlink data transmitted by PDCP layers of cell, N5To make caching be the downlink that the last one empty TTI is passed
PDCP handling capacity, T4Duration is passed to deduct the lower line number after making caching be the last one empty TTI.
S103, the covering index score that grid is calculated according to covering index, obtain according to the quality that quality index calculates grid
Point, the perception score of grid is calculated according to perception index.
Each index includes multiple single indexs, available by each single index score multiplied by corresponding weight
Cover score, quality score and perception score.
Optionally, referring to fig. 3, S103 may include S301-S307, S1301:
If S301, K1The first thresholding of <, then the score of 4GMR coverage rate is 100.
If S302, K1=the second thresholding, then the score of 4GMR coverage rate is 50.
Wherein, the second thresholding is greater than the first thresholding.
If S303, K1The second thresholding of >, then the score of 4GMR coverage rate is 0.
If S304, the first thresholding≤K1The second thresholding of < then calculates the score of 4GMR coverage rate according to the tenth formula.
Wherein, the tenth formula can be with are as follows: S1=2 × (100 × the second -100 × K of thresholding1)+50, S1For 4GMR coverage rate
Score.
Illustratively, the first thresholding can be 10%, and the second thresholding can be 35%;Work as K1When=20%, 4GMR covering
The score of rate is 2 × (100 × 35%-100 × 20) %+50=.8
If S305, K2< third thresholding, then the score of 4GMR cell serviceability rate is 0.
If S306, K2=third thresholding, then the score of 4GMR cell serviceability rate is 50.
If S307, third thresholding < K2≤ 100%, then point of 4GMR cell serviceability rate is calculated according to the 11st formula
Number;
Wherein, the 11st formula are as follows: S2=(100 × K2- 100 × third thresholding) × 2.5+50, S2It is intact for 4GMR cell
The score of rate.
Illustratively, third thresholding can be 80%;Work as K2When=90%, the score of 4GMR cell serviceability rate is 2.5 ×
(100 × 90%-100 × 80%)+50=75.
S1031, covering score=4GMR coverage rate score × first weight+4GMR cell serviceability rate score × the
Two weights.
Illustratively, the first weight can be 10%, and the second weight can be 10%;When the first thresholding is 10%, second
Thresholding is 35%, and third thresholding is 80%, K1=20%, K2When=90%, covering index is scored at 80 × 10%+75 × 10%
=15.5.
Optionally, referring to fig. 4, S103 may include S401-S407, S1301.
If S401, K3The 4th thresholding of <, then the score of 3GMR low quality accounting is 100.
If S402, K3=the five thresholding, then the score of 3GMR low quality accounting is 50.
Wherein, the 5th thresholding is greater than the 4th thresholding.
If S403, K3The 5th thresholding of >, then the score of 3GMR low quality accounting is 0.
If S404, four thresholdings≤K3The 5th thresholding of < then calculates 3GMR low quality accounting according to the 12nd formula
Score.
Wherein, the 12nd formula can be with are as follows: S3=2 × (the 100 × the 5th -100 × K of thresholding3)+50, S1For 3GMR low-quality
Measure the score of accounting.
Illustratively, the 4th thresholding can be 10%, and the 5th thresholding can be 35%;Work as K3When=20%, 3GMR low-quality
Measure the score of accounting are as follows:
2 × (100 × 35%-100 × 20%)+50=80.
If S405, K4The 6th thresholding of <, then it is 0 that 4GCQI, which is greater than the score of 7 accountings,.
If S406, K4=the six thresholding, then it is 50 that 4GCQI, which is greater than the score of 7 accountings,.
If S407, the 6th thresholding < K4≤ 100%, then point that 4GCQI is greater than 7 accountings is calculated according to the 13rd formula
Number.
Wherein, the 13rd formula are as follows: S4=(100 × K4- 100 × the 6th thresholding) × 2.5+50, S2It is greater than 7 for 4GCQI to account for
The score of ratio.
Illustratively, the 6th thresholding can be 80%;Work as K4When=90%, 4GCQI be greater than 7 accountings score be 2.5 ×
(100 × 90%-100 × 80%)+50=75.
S1031, quality score=3GMR low quality accounting score × third weight+4GCQI are greater than the score of 7 accountings
× the four weight.
Illustratively, third weight can be 10%, and the 4th weight can be 15%;When the 4th thresholding is the 10%, the 5th
Thresholding is 35%, and the 6th thresholding is 80%, K1=20%, K2When=90%, covering is scored at 80 × 10%+75 × 10%=
15.5。
Optionally, referring to fig. 5, S103 may include S501-S517, S1031:
If S501, K5The 7th thresholding of >, then the score of the wireless percent of call completed of 3/4G is 100.
If S502, K5The 8th thresholding of <, then the score of the wireless percent of call completed of 3/4G is 0.
Wherein, the 8th thresholding is less than the 7th thresholding.
If S503, eight thresholdings≤K5≤ the seven thresholding then calculates the wireless percent of call completed of 3/4G according to the 14th formula
Score.
Wherein, the 14th formula can be with are as follows:
S5=(100 × K5- 100 × the 8th thresholding) × [1 ÷ (the 7th the-the eight thresholding of thresholding)], S5It is wirelessly connect for 3/4G
The score of passband.
Illustratively, the 7th thresholding can be 97%, and the 8th thresholding can be 90%;Work as K5When=95%, 3/4G is wireless
The score of percent of call completed is 7 ≈ 71.4 of (100 × 95-90) × 100 ÷.
If S504, K6The 9th thresholding of >, then the score of 3G voice service cutting off rate is 0.
If S505, K6The tenth thresholding of <, then the score of 3G voice service cutting off rate is 100.
Wherein, the tenth thresholding is less than the 9th thresholding.
If S506, ten thresholdings≤K6≤ the nine thresholding then calculates 3G voice service cutting off rate according to the 15th formula
Score.
Wherein, the 15th formula can be with are as follows:
S6=100- (100 × K6- 100 × the tenth thresholding) × [1 ÷ (the 9th the-the ten thresholding of thresholding)], S6For 3G voice industry
The score of business cutting off rate.
Illustratively, the 9th thresholding can be 2%, and the tenth thresholding can be 0.15%;Work as K6When=1%, 3G voice industry
The score of business cutting off rate are as follows:
100- (100 × 0.01-100 × 0.15%) × [1 ÷ (0.02-0.0015)] ≈ 54.1.
If S507, K7The 11st thresholding of >, then the score of 4G data service drop rate is 0.
If S508, K7The 12nd thresholding of <, then the score of 4G data service drop rate is 100.
Wherein, the 12nd thresholding is less than the 11st thresholding.
If S509,12 thresholdings≤K7≤ the ten one thresholding then calculates 4G data service according to the 17th formula and falls
The score of line rate.
Wherein, the 16th formula can be with are as follows:
S7=100- (100 × K7- 100 × the 11st thresholding) × [1 ÷ (11 thresholding of the 12nd thresholding-the)], S7For
The score of 4G data service drop rate.
Illustratively, the 11st thresholding can be 2%, and the 12nd thresholding can be 0.15%;Work as K7When=1%, 4G number
According to the score of business drop rate are as follows:
100- (100 × 0.01-100 × 0.15%) × [1 ÷ (0.02-0.0015)] ≈ 54.1.
If S510, K8The 13rd thresholding of >, then the score of 4G uplink service Mean Speed is 100.
If S511, K8The 14th thresholding of <, then the score of 4G uplink service Mean Speed is 0.
Wherein, the 14th thresholding is less than the 13rd thresholding.
If S512, K8=the ten four thresholding, then the score of 4G uplink service Mean Speed is 50.
If S513, the 14th thresholding < K8It is flat then to calculate 4G uplink service according to the 17th formula for≤the ten three thresholding
The score of equal rate.
Wherein, the 17th formula can be with are as follows:
S8=50 ÷ (14 thresholding of the 13rd thresholding-the) × (K8- the ten four thresholding)+50, S8It is flat for 4G uplink service
The score of equal rate.
Illustratively, the 13rd thresholding can be 1.5Mbps, and the 14th thresholding can be 1Mbps;Work as K8=1.2Mbps
When, the score of 4G uplink service Mean Speed are as follows:
50 ÷ (1.5-1) × (1.2-1)+50=70.
If S514, K8The 15th thresholding of >, then the score of 4G downlink business Mean Speed is 100.
If S515, K8The 16th thresholding of <, then the score of 4G downlink business Mean Speed is 0.
Wherein, the 15th thresholding is greater than the 16th thresholding.
If S516, K9=the ten six thresholding, then the score of 4G downlink business Mean Speed is 50.
If S517, the 16th thresholding < K9It is flat then to calculate 4G downlink business according to the 18th formula for≤the ten five thresholding
The score of equal rate.
Wherein, the 18th formula can be with are as follows:
S9=(K9- the ten six thresholding) × (the 16th thresholding of 50 ÷)+50, S9For point of 4G downlink business Mean Speed
Number.
Illustratively, the 15th thresholding can be 20Mbps, and the 16th thresholding can be 10Mbps;Work as K9=15Mbps
When, the score of 4G downlink business Mean Speed are as follows:
(15-10) × 50 ÷ 10+50=75.
S1301, score × the 5th weight+3G voice service cutting off rate point for perceiving the wireless percent of call completed of score=3/4G
Score × the 7th weight+4G uplink service Mean Speed score × 8th of the × the six weight+4G data service drop rate of number
Score × the 9th weight of weight+4G downlink business Mean Speed.
Illustratively, the 5th weight can be 15%, and the 6th weight can be 20%, and the 7th weight can be 5%, the
Eight weights can be 5%, and the 9th weight can be 15%;When the 7th thresholding is 87%, the 8th thresholding is 90%, the 9th thresholding
It is 2%, the tenth thresholding is 0.15%, and the 11st thresholding can be 2%, and the 12nd thresholding is 0.15%, and the 13rd thresholding is
1.5Mbps, the 14th thresholding are 1Mbps, and the 15th thresholding is 20Mbps, and the 16th thresholding is 10Mbps, K5=95%, K6=
1%, K7=1%, K8=1.2Mbps, K9When=15Mbps, perception index is scored at 71.4 × 15%+54.1 × 20%+54.1
The ≈ of × 5%+70 × 5%+75 × 15% 39.
It should be noted that first the+the second weight of weight+third weight the+the four weight the+the six weight+the of the+the five weight
Seven the+the nine weight=1 of the+the eight weight of weight.
S104, point that this grid is calculated according to the sum of the covering score of each grid, quality score and perception score
Value.
Illustratively, the covering of grid is scored at 15.5, quality score 15.5, perception is scored at 39, then this grid
Score value is 15.5+15.5+39=70.
S105, this grid grade is determined according to the score value of each grid.
Grid can be divided into multiple grades according to the size of the score value of grid, may thereby determine that network entirety and
The network quality of part.
Optionally, referring to fig. 6, S105 may include S601-S602:
If the score value of S601, grid is less than or equal to the first preset value and is more than or equal to the second preset value, this grid is
The first estate.
Wherein, the first preset value is greater than the second preset value.
If the score value of S602, grid is less than the second preset value and is more than or equal to third preset value, this grid is second
Grade.
Wherein, the second preset value is greater than third preset value.
If the score value of S603, grid is less than third preset value and is more than or equal to the 4th preset value, this grid is third
Grade.
Wherein, third preset value is greater than the 4th preset value.
If the score value of S604, grid, less than the 4th preset value, this grid is the fourth estate.
Illustratively, the first preset value is 100, and the second preset value is 90, and third preset value is 85, and the 4th preset value is
80, the first estate be it is excellent, the second grade be it is good, the tertiary gradient be it is poor, the fourth estate be it is poor.When grid is scored at 70, then should
Grid is the fourth estate, as poor.
It should be noted that the embodiment of the present application according only to grid score value by four grades of grid dividing, but the application is not
It is confined to this, can also be the multiple grades of other quantity by grid dividing according to grid score value.
Mobile communications network to be evaluated is divided into multiple grids, utilizes net by evaluation method provided by the embodiments of the present application
The covering indexs of lattice, quality index and perception index various dimensions comprehensive analysis network, and according to covering index, quality index and
Perceive index marking grading, objective reality comprehensively assesses network quality, also directed to every a kind of index the network operation effect
Size and excellent ratio define all kinds of scoring method and score weight, so that it is determined that grid score, true according to grid score
It is whole and local can be layered assessment network for different network levels for the grade for determining multiple grids of mobile communications network
Quality, to support fine network optimization.
Embodiment 2,
The embodiment of the present application provides a kind of evaluating apparatus, can be applied to above-mentioned evaluation method, referring to fig. 7,
The evaluating apparatus 700 may include:
Division unit 701, for mobile communications network to be divided into multiple grids.
Acquiring unit 702, for obtaining the covering index, quality index and perception index of each grid.
Computing unit 703 calculates grid according to quality index for calculating the covering score of grid according to covering index
Quality score, according to perception index calculate grid perception score.
Computing unit 703 is also used to according to the sum of the covering score of each grid, quality score and perception score meter
Calculate the score value of this grid.
Determination unit 704, for determining this grid grade according to the score value of each grid.
Optionally, each grid includes multiple grids, and covering index includes: 4 generation measurement report 4GMR coverage rates and 4G
Cell serviceability rate, quality index include: that 3GMR low quality accounting and 4G channel quality indicator (CQI) are greater than 7 accountings, and perception refers to
Mark includes: the wireless percent of call completed of 3/4G, 3G voice service cutting off rate, 4G data service drop rate, 4G uplink service Mean Speed
And 4G downlink business Mean Speed.
Optionally, computing unit 703 are specifically used for:
4GMR coverage rate is calculated according to the first formula;
Wherein, the first formula are as follows:K1For 4GMR coverage rate, N is the grid sum of grid, N1For
The Reference Signal Received Power RSRP of 4GMR covering is lower than the grid quantity of the first pre-determined threshold;
Illustratively, the first pre-determined threshold can be -105dBm;
4G cell serviceability rate is calculated according to the second formula;
Wherein, the second formula are as follows:K2For 4G cell serviceability rate, T is default statistics
Period, T1It is moved back for cell in default measurement period and takes duration, T2For the disconnected station of cell or offline duration in default measurement period;
3GMR low quality accounting is calculated according to third formula;
Wherein, third formula are as follows:K3For 3GMR low quality accounting, M is that the grid of grid is total
Number, M1It is lower than the grid quantity of the second pre-determined threshold for 3GMR signal-to-noise ratio EcIo;
4GCQI, which is calculated, according to the 4th formula is greater than 7 accountings;
Wherein, the 4th formula are as follows:K4It is greater than 7 accountings for 4GCQI, L is cell CQI sampled point
Sum, L1It is greater than 7 sampling number for cell CQI;
The wireless percent of call completed of 3/4G is calculated according to the 5th formula;
Wherein, the 5th formula are as follows: K5=KA×0.5+KB× 0.5, KA=Ka×Kb× 100%, KB=Ka×Kc×
100%, K5For the wireless percent of call completed of 3/4G, KAFor 3G wireless network percent of call completed, KaPower, K are created as radio resource control RRCb
Power, K are created as radio access bearer RABBFor 4G wireless system percent of call completed, KcFor the radio access bearer E-RAB of evolution
It is created as power;
3G voice service cutting off rate is calculated according to the 6th formula;
Wherein, the 6th formula are as follows:K6For 3G voice service cutting off rate, P is circuit switching (CS) industry
Business release total degree, P1Number is discharged for CS service exception;
4G data service drop rate is calculated according to the 7th formula;
Wherein, the 7th formula are as follows:K7For 4G data service drop rate, Q is E-RAB release total time
Number, Q1The number discharged extremely for E-RAB;
4G uplink service Mean Speed is calculated according to the 8th formula;
Wherein, the 8th formula are as follows:K8For 4G uplink service Mean Speed, N2For cell
The total throughout of upstream data received by PDCP layers of Packet Data Convergence Protocol, N3To make user equipment (UE) caching be empty
The uplink PDCP handling capacity that is passed of the last one Transmission Time Interval TTI, T3UE caching is set to be the last one empty to deduct
Upper line number after TTI passes duration;
4G downlink business Mean Speed is calculated according to the 9th formula;
Wherein, the 9th formula are as follows:K9For 4G downlink business Mean Speed, N4For cell
The total throughout of downlink data transmitted by PDCP layers, N5To make caching be that the downlink PDCP that the last one empty TTI is passed is gulped down
The amount of spitting, T4Duration is passed to deduct the lower line number after making caching be the last one empty TTI;
Optionally, computing unit 703, also particularly useful for:
If K1The first thresholding of <, then the score of 4GMR coverage rate is 100;
If K1=the second thresholding, then the score of 4GMR coverage rate is 50, wherein the second thresholding is greater than the first thresholding;
If K1The second thresholding of >, then the score of 4GMR coverage rate is 0;
If the first thresholding≤K1The second thresholding of < then calculates the score of 4GMR coverage rate according to the tenth formula;
Wherein, the tenth formula are as follows: S1=2 × (second -100 × K of thresholding1)+50, S1For the score of 4GMR coverage rate;
If K2< third thresholding, then the score of 4GMR cell serviceability rate is 0;
If K2=third thresholding, then the score of 4GMR cell serviceability rate is 50;
If third thresholding < K2≤ 100%, then the score of 4GMR cell serviceability rate is calculated according to the 11st formula;
Wherein, the 11st formula are as follows: S2=(100 × K2- 100 × third thresholding) × 2.5+50, S2It is intact for 4GMR cell
The score of rate;
Optionally, index score=4GMR coverage rate score × first weight+4GMR cell serviceability rate score is covered
× the second weight;
Illustratively, the first thresholding can be 10%, and the second thresholding can be 35%, and third thresholding can be 10%, the
Four thresholdings can be 35%, and the first weight can be 10%, and the second weight can be 10%.
Optionally, computing unit 703, also particularly useful for:
If K3The 4th thresholding of <, then the score of 3GMR low quality accounting is 100;
If K3=the five thresholding, then the score of 3GMR low quality accounting is 50;
Wherein, the 5th thresholding is greater than the 4th thresholding;
If K3The 5th thresholding of >, then the score of 3GMR low quality accounting is 0;
If the first thresholding≤K3The second thresholding of < then calculates the score of 3GMR low quality accounting according to the 12nd formula;
Wherein, the 12nd formula can be with are as follows: S3=2 × (the 100 × the 5th -100 × K of thresholding3)+50, S1For 3GMR low-quality
Measure the score of accounting;
If K4The 6th thresholding of <, then it is 0 that 4GCQI, which is greater than the score of 7 accountings,;
If K4=the six thresholding, then it is 50 that 4GCQI, which is greater than the score of 7 accountings,;
If the 6th thresholding < K4≤ 100%, then the score that 4GCQI is greater than 7 accountings is calculated according to the 13rd formula;
Wherein, the 13rd formula are as follows: S4=(100 × K4- 100 × the 6th thresholding) × 2.5+50, S2It is greater than 7 for 4GCQI to account for
The score of ratio;
Quality score=3GMR low quality accounting score × third weight+4GCQI is greater than score × 4th of 7 accountings
Weight;
Illustratively, the 4th thresholding can be 10%, and the 5th thresholding can be 35%, and the 6th thresholding can be 80%, the
Three weights can be 15%, and the 4th weight can be 20%.
Optionally, computing unit 703, also particularly useful for:
If K5The 7th thresholding of >, then the score of the wireless percent of call completed of 3/4G is 100;
If K5The 8th thresholding of <, then the score of the wireless percent of call completed of 3/4G is 0;
Wherein, the 8th thresholding is less than the 7th thresholding;
If eight thresholdings≤K5≤ the seven thresholding then calculates the score of the wireless percent of call completed of 3/4G according to the 14th formula;
Wherein, the 14th formula can be with are as follows:
S5=(100 × K5- 100 × the 8th thresholding) × [1 ÷ (the 7th the-the eight thresholding of thresholding)], S5It is wirelessly connect for 3/4G
The score of passband;
If K6The 9th thresholding of >, then the score of 3G voice service cutting off rate is 0;
If K6The tenth thresholding of <, then the score of 3G voice service cutting off rate is 100;
Wherein, the tenth thresholding is less than the 9th thresholding;
If ten thresholdings≤K6≤ the nine thresholding then calculates point of 3G voice service cutting off rate according to the 15th formula
Number;
Wherein, the 15th formula can be with are as follows:
S6=100- (100 × K6- 100 × the tenth thresholding) × [1 ÷ (the 9th the-the ten thresholding of thresholding)], S6For 3G voice industry
The score of business cutting off rate;
Illustratively, the 9th thresholding can be 2%, and the tenth thresholding can be 0.15%;
If K7The 11st thresholding of >, then the score of 4G data service drop rate is 0;
If K7The 12nd thresholding of <, then the score of 4G data service drop rate is 100;
Wherein, the 12nd thresholding is less than the 11st thresholding;
If 12 thresholdings≤K7≤ the ten one thresholding, then calculate 4G data service drop rate according to the 17th formula
Score;
Wherein, the 16th formula can be with are as follows:
S7=100- (100 × K7- 100 × the 11st thresholding) × [1 ÷ (11 thresholding of the 12nd thresholding-the)], S7For
The score of 4G data service drop rate;
Illustratively, the 11st thresholding can be 2%, and the 12nd thresholding can be 0.15%;
If K8The 13rd thresholding of >, then the score of 4G uplink service Mean Speed is 100;
If K8The 14th thresholding of <, then the score of 4G uplink service Mean Speed is 0;
Wherein, the 14th thresholding is less than the 13rd thresholding;
If K8=the ten four thresholding, then the score of 4G uplink service Mean Speed is 50;
If the 14th thresholding < K8≤ the ten three thresholding then calculates the average speed of 4G uplink service according to the 17th formula
The score of rate;
Wherein, the 17th formula can be with are as follows:
S8=50 ÷ (14 thresholding of the 13rd thresholding-the) × (K8- the ten four thresholding)+50, S8It is flat for 4G uplink service
The score of equal rate;
Illustratively, the 13rd thresholding can be 1.5Mbps, and the 14th thresholding can be 1Mbps;
If K9The 15th thresholding of >, then the score of 4G downlink business Mean Speed is 100;
If K9The 16th thresholding of <, then the score of 4G downlink business Mean Speed is 0;
Wherein, the 15th thresholding is greater than the 16th thresholding;
If K9=the ten six thresholding, then the score of 4G downlink business Mean Speed is 50;
If the 16th thresholding < K9≤ the ten five thresholding then calculates the average speed of 4G downlink business according to the 18th formula
The score of rate;
Wherein, the 18th formula can be with are as follows:
S9=(K9- the ten six thresholding) × (the 16th thresholding of 50 ÷)+50, S9For point of 4G downlink business Mean Speed
Number;
Illustratively, the 15th thresholding can be 20Mbps, and the 16th thresholding can be 10Mbps;
Perceive score × the of the five weight+3G voice service cutting off rate of score × the of the wireless percent of call completed of score=3/4G
The score of six weight+4G data service drop rates × the 7th weight+4G uplink service Mean Speed score × the 8th weight+
The score of 4G downlink business Mean Speed × the 9th weight;
Illustratively, the 5th weight can be 15%, and the 6th weight can be 20%, and the 7th weight can be 5%, the
Eight weights can be 5%, and the 9th weight can be 15%;When the 7th thresholding is 87%, the 8th thresholding is 90%, the 9th thresholding
It is 2%, the tenth thresholding is 0.15%, and the 11st thresholding can be 2%, and the 12nd thresholding is 0.15%, and the 13rd thresholding is
1.5Mbps, the 14th thresholding are 1Mbps, and the 15th thresholding is 20Mbps, and the 16th thresholding is 10Mbps.
It should be noted that first the+the second weight of weight+third weight the+the four weight the+the six weight+the of the+the five weight
Seven the+the nine weight=1 of the+the eight weight of weight.
Computing unit 703, also particularly useful for:
The score value of this grid is calculated according to the sum of the covering score of each grid, quality score and perception score;
Illustratively, the covering of grid is scored at 15.5, quality score 15.5, perception is scored at 39, then this grid
Score value is 15.5+15.5+39=70.
Determination unit 704, is specifically used for:
If the score value of grid is less than or equal to the first preset value and is more than or equal to the second preset value, this grid is first
Grade;
If the score value of grid is less than the second preset value and is more than or equal to third preset value, this grid is the second grade;
If the score value of grid is less than third preset value and is more than or equal to the 4th preset value, this grid is the tertiary gradient;
If the score value of grid, less than the 4th preset value, this grid is the fourth estate, wherein the first preset value is greater than
Second preset value, the second preset value are greater than third preset value, and third preset value is greater than the 4th preset value.
Illustratively, the first preset value is 100, and the second preset value is 90, and third preset value is 85, and the 4th preset value is
80, the first estate be it is excellent, the second grade be it is good, during the tertiary gradient is, the fourth estate is poor.
Embodiments herein provides a kind of computer readable storage medium for storing one or more programs, and described one
A or multiple programs include instruction, and described instruction makes computer execute evaluation as described in figs. 1-6 when executed by a computer
Method.
The embodiment of the present invention provides a kind of computer program product comprising instruction, when instruction is run on computers
When, so that computer executes evaluation method as described in figs. 1-6.
The embodiment of the present invention provides a kind of evaluating apparatus, comprising: processor and memory, memory is for storing journey
Sequence, processor calls the program of memory storage, to execute evaluation method as described in figs. 1-6.
It can be with by evaluating apparatus, computer readable storage medium, computer program product in an embodiment of the present invention
Applied to the above method, therefore, technical effect can be obtained see also above method embodiment, the embodiment of the present invention
Details are not described herein.
It should be noted that above-mentioned each unit can be the processor individually set up, also can integrate controller certain
It is realized in one processor, in addition it is also possible to be stored in the form of program code in the memory of controller, by controller
Some processor call and execute the function of the above each unit.Processor described here can be a central processing
Device (Central Processing Unit, CPU) or specific integrated circuit (Application Specific
Integrated Circuit, ASIC), or be arranged to implement one or more integrated circuits of the embodiment of the present application.
It should be understood that magnitude of the sequence numbers of the above procedures are not meant to execute suitable in the various embodiments of the application
Sequence it is successive, the execution of each process sequence should be determined by its function and internal logic, the implementation without coping with the embodiment of the present application
Process constitutes any restriction.
Those of ordinary skill in the art may be aware that described in conjunction with the examples disclosed in the embodiments of the present disclosure
Unit and algorithm steps can be realized with the combination of electronic hardware or computer software and electronic hardware.These functions
It is implemented in hardware or software actually, the specific application and design constraint depending on technical solution.Professional technique
Personnel can use different methods to achieve the described function each specific application, but this realization should not be recognized
For beyond scope of the present application.
It is apparent to those skilled in the art that for convenience and simplicity of description, foregoing description is
The specific work process of system, device and unit, can refer to corresponding processes in the foregoing method embodiment, details are not described herein.
In several embodiments provided herein, it should be understood that disclosed system, apparatus and method, it can be with
It realizes by another way.For example, apparatus embodiments described above are merely indicative, for example, the unit
It divides, only a kind of logical function partition, there may be another division manner in actual implementation, such as multiple units or group
Part can be combined or can be integrated into another system, or some features can be ignored or not executed.Another point, it is shown
Or the mutual coupling, direct-coupling or communication connection discussed can be through some interfaces, between equipment or unit
Coupling or communication connection are connect, can be electrical property, mechanical or other forms.
The unit as illustrated by the separation member may or may not be physically separated, as unit
The component of display may or may not be physical unit, it can and it is in one place, or may be distributed over more
In a network unit.Some or all of unit therein can be selected to realize this embodiment scheme according to the actual needs
Purpose.
It, can also be in addition, each functional unit in each embodiment of the application can integrate in one processing unit
It is that each unit physically exists alone, can also be integrated in one unit with two or more units.
Claims (15)
1. a kind of evaluation method, which is characterized in that be applied to mobile communications network, the evaluation method includes:
The mobile communications network is divided into multiple grids;
Obtain the covering index, quality index and perception index of each grid;
The covering score that grid is calculated according to the covering index, the quality score of grid, root are calculated according to the quality index
The perception score of grid is calculated according to the perception index;
The score value of this grid is calculated according to the sum of the covering score of each grid, quality score and perception score;
This grid grade is determined according to the score value of each grid.
2. the method according to claim 1, wherein each grid includes multiple grids, the covering index packet
Include: 4 generation measurement report 4GMR coverage rates and 4G cell serviceability rate, the quality index include: 3GMR low quality accounting and
4G channel quality indicator (CQI) be greater than 7 accountings, the perception index include: the wireless percent of call completed of 3/4G, 3G voice service cutting off rate,
4G data service drop rate, 4G uplink service Mean Speed and 4G downlink business Mean Speed;The each grid of acquisition
Cover index, quality index and perception index, comprising:
The 4GMR coverage rate is calculated according to the first formula;
Wherein, first formula are as follows:K1For the 4GMR coverage rate, N is the grid sum of grid, N1
It is lower than the grid quantity of the first pre-determined threshold for the Reference Signal Received Power RSRP of 4GMR covering;
The 4G cell serviceability rate is calculated according to the second formula;
Wherein, second formula are as follows:K2For the 4G cell serviceability rate, T is default system
Count period, T1It is moved back for cell in the default measurement period and takes duration, T2For the disconnected station of cell in the default measurement period or offline
Duration;
The 3GMR low quality accounting is calculated according to third formula;
Wherein, the third formula are as follows:K3For the 3GMR low quality accounting, M is that the grid of grid is total
Number, M1It is lower than the grid quantity of the second pre-determined threshold for the 3GMR signal-to-noise ratio EcIo;
The 4GCQI, which is calculated, according to the 4th formula is greater than 7 accountings;
Wherein, the 4th formula are as follows:K4It is greater than 7 accountings for the 4GCQI, L is cell CQI sampling
The sum of point, L1It is greater than 7 sampling number for cell CQI;
The wireless percent of call completed of 3/4G is calculated according to the 5th formula;
Wherein, the 5th formula are as follows: K5=KA×0.5+KB× 0.5, KA=Ka×Kb× 100%, KB=Ka×Kc× 100%,
K5For the wireless percent of call completed of the 3/4G, KAFor 3G wireless network percent of call completed, KaPower, K are created as radio resource control RRCbFor nothing
Line access bearer RAB is created as power, KBFor the 4G wireless system percent of call completed, KcIt is built for the radio access bearer E-RAB of evolution
Vertical success rate;
The 3G voice service cutting off rate is calculated according to the 6th formula;
Wherein, the 6th formula are as follows:K6For the 3G voice service cutting off rate, P is circuit switching (CS)
Business discharges total degree, P1Number is discharged for the CS service exception;
The 4G data service drop rate is calculated according to the 7th formula;
Wherein, the 7th formula are as follows:K7For the 4G data service drop rate, Q is E-RAB release
Total degree, Q1The number discharged extremely for the E-RAB;
The 4G uplink service Mean Speed is calculated according to the 8th formula;
Wherein, the 8th formula are as follows:K8For the 4G uplink service Mean Speed, N2It is small
The total throughout of upstream data received by area's Packet Data Convergence Protocol PDCP floor, N3To make user equipment (UE) caching be empty
The uplink PDCP handling capacity that is passed of the last one Transmission Time Interval TTI, T3The UE caching is set to be the last of sky to deduct
Upper line number after one TTI passes duration;
The 4G downlink business Mean Speed is calculated according to the 9th formula;
Wherein, the 9th formula are as follows:K9For the 4G downlink business Mean Speed, N4It is small
The total throughout of downlink data transmitted by area's PDCP floor, N5To make caching be the downlink PDCP that the last one empty TTI is passed
Handling capacity, T4Duration is passed to deduct the lower line number after making caching be the last one empty TTI.
3. according to the method described in claim 2, it is characterized in that, described calculate covering for grid according to the covering index
Point, comprising:
If K1The first thresholding of <, then the score of the 4GMR coverage rate is 100;
If K1=the second thresholding, then the score of the 4GMR coverage rate is 50, wherein second thresholding is greater than described first
Limit;
If K1The second thresholding of >, then the score of the 4GMR coverage rate is 0;
If the first thresholding≤K1The second thresholding of <, then calculate the score of the 4GMR coverage rate according to the tenth formula;
Wherein, the tenth formula are as follows: S1=2 × (100 × the second -100 × K of thresholding1)+50, S1For the 4GMR coverage rate
Score;
If K2< third thresholding, then the score of the 4GMR cell serviceability rate is 0;
If K2=third thresholding, then the score of the 4GMR cell serviceability rate is 50;
If third thresholding < K2≤ 100%, then the score of the 4GMR cell serviceability rate is calculated according to the 11st formula;
Wherein, the 11st formula are as follows: S2=(100 × K2- 100 × third thresholding) × 2.5+50, S2For the 4GMR cell
The score of serviceability rate;
Covering index score=4GMR coverage rate score × first weight+4GMR cell serviceability rate score
× the second weight.
4. according to the method described in claim 2, it is characterized in that, the quality for calculating network according to the quality index obtains
Point, comprising:
If K3The 4th thresholding of <, then the score of the 3GMR low quality accounting is 100;
If K3=the five thresholding, then the score of the 3GMR low quality accounting is 50, wherein the 5th thresholding is greater than described
4th thresholding;
If K3The 5th thresholding of >, then the score of the 3GMR low quality accounting is 0;
If four thresholdings≤K3The 5th thresholding of <, then calculate the score of the 3GMR low quality accounting according to the 12nd formula;
Wherein, the 12nd formula are as follows: S3=2 × (the 100 × the 5th -100 × K of thresholding3)+50, S3For the 3GMR low quality
The score of accounting;
If K4The 6th thresholding of <, then it is 0 that the 4GCQI, which is greater than the score of 7 accountings,;
If K4=the six thresholding, then it is 50 that the 4GCQI, which is greater than the score of 7 accountings,;
If the 6th thresholding < K4≤ 100%, then the score that the 4GCQI is greater than 7 accountings is calculated according to the 13rd formula;
Wherein, the 13rd formula are as follows: S4=(100 × K4- 100 × the 6th thresholding) × 2.5+50, S4It is big for the 4GCQI
In the score of 7 accountings;
The quality index score=3GMR low quality accounting score × third weight+4GCQI is greater than 7 accountings
Score × the 4th weight.
5. according to the method described in claim 2, it is characterized in that, described calculate perceiving for network according to the perception index
Point, comprising:
If K5The 7th thresholding of >, then the score of the wireless percent of call completed of the 3/4G is 100;
If K5The 8th thresholding of <, then the score of the wireless percent of call completed of the 3/4G is 0, wherein the 8th thresholding is less than described the
Seven thresholdings;
If eight thresholdings≤K5≤ the seven thresholding, then calculate the score of the wireless percent of call completed of the 3/4G according to the 14th formula;
Wherein, the 14th formula are as follows:
S5=(100 × K5- 100 × the 8th thresholding) × [1 ÷ (the 7th the-the eight thresholding of thresholding)], S5It is wirelessly connected for the 3/4G
The score of rate;
If K6The 9th thresholding of >, then the score of the 3G voice service cutting off rate is 0;
If K6The tenth thresholding of <, then the score of the 3G voice service cutting off rate is 100, wherein the tenth thresholding is less than institute
State the 9th thresholding;
If ten thresholdings≤K6≤ the nine thresholding, then calculate the score of the 3G voice service cutting off rate according to the 15th formula;
Wherein, the 15th formula are as follows:
S6=100- (100 × K6- 100 × the tenth thresholding) × [1 ÷ (the 9th the-the ten thresholding of thresholding)], S6For the 3G voice industry
The score of business cutting off rate;
If K7The 11st thresholding of >, then the score of the 4G data service drop rate is 0;
If K7The 12nd thresholding of <, then the score of the 4G data service drop rate is 100, wherein the 12nd thresholding is small
In the 11st thresholding;
If 12 thresholdings≤K7≤ the ten one thresholding, then calculate the 4G data service drop rate according to the 16th formula
Score;
Wherein, the 16th formula are as follows:
S7=100- (100 × K7- 100 × the 11st thresholding) × [1 ÷ (11 thresholding of the 12nd thresholding-the)], S7For the 4G
The score of data service drop rate;
If K8The 13rd thresholding of >, then the score of the 4G uplink service Mean Speed is 100;
If K8The 14th thresholding of <, then the score of the 4G uplink service Mean Speed is 0, wherein the 14th thresholding is small
In the 13rd thresholding;
If K8=the ten four thresholding, then the score of the 4G uplink service Mean Speed is 50,
If the 14th thresholding < K8≤ the ten three thresholding, then calculate the 4G uplink service Mean Speed according to the 17th formula
Score;
Wherein, the 17th formula are as follows:
S8=50 ÷ (14 thresholding of the 13rd thresholding-the) × (K8- the ten four thresholding)+50, S8It is average for the 4G uplink service
The score of rate;
If K9The 15th thresholding of >, then the score of the 4G downlink business Mean Speed is 100;
If K9The 16th thresholding of <, then the score of the 4G downlink business Mean Speed is 0, wherein the 15th thresholding is big
In the 16th thresholding;
If K9=the ten six thresholding, then the score of the 4G downlink business Mean Speed is 50;
If the 16th thresholding < K9≤ the ten five thresholding, then calculate the 4G downlink business Mean Speed according to the 18th formula
Score;
Wherein, the 18th formula are as follows:
S9=(K9- the ten six thresholding) × (the 16th thresholding of 50 ÷)+50, S9For the score of the 4G downlink business Mean Speed;
Score × the 5th weight+3G voice service cutting off rate of the perception index score=3/4G the is wireless percent of call completed
Score × the 6th weight+4G data service drop rate score × the 7th weight+4G uplink service Mean Speed
Score × the 8th weight+4G downlink business Mean Speed score × the 9th weight.
6. the method according to claim 1, wherein the score value according to each network determines present networks etc.
Grade, comprising:
If the score value of grid is less than or equal to the first preset value and is more than or equal to the second preset value, this grid is the first estate;
If the score value of grid is less than second preset value and is more than or equal to third preset value, this grid is the second grade;
If the score value of grid is less than the third preset value and is more than or equal to the 4th preset value, this grid is the tertiary gradient;
If the score value of grid is less than the 4th preset value, this grid is the fourth estate, wherein first preset value is big
In second preset value, second preset value is greater than the third preset value, and the third preset value is greater than the described 4th
Preset value.
7. a kind of evaluating apparatus, which is characterized in that be applied to evaluation method described in any one of claims 1-6, the evaluation
Device includes:
Division unit, for mobile communications network to be divided into multiple grids;
Acquiring unit, for obtaining the covering index, quality index and perception index of each grid;
Computing unit calculates grid according to the quality index for calculating the covering score of grid according to the covering index
Quality score, according to it is described perception index calculate grid perception score;
The computing unit is also used to calculate this according to the sum of the covering score of each grid, quality score and perception score
The score value of grid;
Determination unit, for determining this grid grade according to the score value of each grid.
8. device according to claim 7, which is characterized in that each grid includes multiple grids, the covering index packet
Include: 4GMR coverage rate and 4G cell serviceability rate, the quality index include: that 3GMR low quality accounting and 4GCQI are greater than 7 and account for
Than the perception index includes: the wireless percent of call completed of 3/4G, 3G voice service cutting off rate, 4G data service drop rate, the upper industry of 4G
Mean Speed of being engaged in and 4G downlink business Mean Speed;The computing unit is specifically used for:
The 4GMR coverage rate is calculated according to the first formula;
Wherein, first formula are as follows:K1For the 4GMR coverage rate, N is the grid sum of grid,
N1It is lower than the grid quantity of the first pre-determined threshold for the RSRP of 4GMR covering;
The 4G cell serviceability rate is calculated according to the second formula;
Wherein, second formula are as follows:K2For the 4G cell serviceability rate, T is default system
Count period, T1It is moved back for cell in the default measurement period and takes duration, T2For the disconnected station of cell in the default measurement period or offline
Duration;
The 3GMR low quality accounting is calculated according to third formula;
Wherein, the third formula are as follows:K3For the 3GMR low quality accounting, M is that the grid of grid is total
Number, M1It is lower than the grid quantity of the second pre-determined threshold for the 3GMR EcIo;
The 4GCQI, which is calculated, according to the 4th formula is greater than 7 accountings;
Wherein, the 4th formula are as follows:K4It is greater than 7 accountings for the 4GCQI, L is cell CQI sampling
The sum of point, L1It is greater than 7 sampling number for cell CQI;
The wireless percent of call completed of 3/4G is calculated according to the 5th formula;
Wherein, the 5th formula are as follows: K5=KA×0.5+KB× 0.5, KA=Ka×Kb× 100%, KB=Ka×Kc× 100%,
K5For the wireless percent of call completed of the 3/4G, KAFor 3G wireless network percent of call completed, KaPower, K are created as RRCbIt is created as power for RAB,
KBFor the 4G wireless system percent of call completed, KcPower is created as E-RAB;
The 3G voice service cutting off rate is calculated according to the 6th formula;
Wherein, the 6th formula are as follows:K6For the 3G voice service cutting off rate, P is circuit switching (CS)
Business discharges total degree, P1Number is discharged for the CS service exception;
The 4G data service drop rate is calculated according to the 7th formula;
Wherein, the 7th formula are as follows:K7For the 4G data service drop rate, Q is E-RAB release
Total degree, Q1The number discharged extremely for the E-RAB;
The 4G uplink service Mean Speed is calculated according to the 8th formula;
Wherein, the 8th formula are as follows:K8For the 4G uplink service Mean Speed, N2It is small
The total throughout of upstream data received by area's PDCP floor, N3To make UE caching be the last one empty Transmission Time Interval
The uplink PDCP handling capacity that TTI is passed, T3When being passed to deduct the upper line number after making the UE caching be the last one empty TTI
It is long;
The 4G downlink business Mean Speed is calculated according to the 9th formula;
Wherein, the 9th formula are as follows:K9For the 4G downlink business Mean Speed, N4It is small
The total throughout of downlink data transmitted by area's PDCP floor, N5To make caching be the downlink PDCP that the last one empty TTI is passed
Handling capacity, T4Duration is passed to deduct the lower line number after making caching be the last one empty TTI.
9. device according to claim 8, which is characterized in that the computing unit is specifically used for:
If K1The first thresholding of <, then the score of the 4GMR coverage rate is 100;
If K1=the second thresholding, then the score of the 4GMR coverage rate is 50, wherein second thresholding is greater than described first
Limit;
If K1The second thresholding of >, then the score of the 4GMR coverage rate is 0;
If the first thresholding≤K1The second thresholding of <, then calculate the score of the 4GMR coverage rate according to the tenth formula;
Wherein, the tenth formula are as follows: S1=2 × (second -100 × K of thresholding1)+50, S1For the score of the 4GMR coverage rate;
If K2< third thresholding, then the score of the 4GMR cell serviceability rate is 0;
If K2=third thresholding, then the score of the 4GMR cell serviceability rate is 50;
If third thresholding < K2≤ 100%, then the score of the 4GMR cell serviceability rate is calculated according to the 11st formula;
Wherein, the 11st formula are as follows: S2=(100 × K2- 100 × third thresholding) × 2.5+50, S2For the 4GMR cell
The score of serviceability rate;
Covering index score=4GMR coverage rate score × first weight+4GMR cell serviceability rate score
× the second weight.
10. device according to claim 8, which is characterized in that the computing unit is specifically used for:
If K3The 4th thresholding of <, then the score of the 3GMR low quality accounting is 100;
If K3=the five thresholding, then the score of the 3GMR low quality accounting is 50, wherein the 5th thresholding is greater than described
4th thresholding;
If K3The 5th thresholding of >, then the score of the 3GMR low quality accounting is 0;
If four thresholdings≤K3The 5th thresholding of <, then calculate the score of the 3GMR low quality accounting according to the 12nd formula;
Wherein, the 12nd formula are as follows: S3=2 × (the 100 × the 5th -100 × K of thresholding3)+50, S3For the 3GMR low quality
The score of accounting;
If K4The 6th thresholding of <, then it is 0 that the 4GCQI, which is greater than the score of 7 accountings,;
If K4=the six thresholding, then it is 50 that the 4GCQI, which is greater than the score of 7 accountings,;
If the 6th thresholding < K4≤ 100%, then the score that the 4GCQI is greater than 7 accountings is calculated according to the 13rd formula;
Wherein, the 13rd formula are as follows: S4=(100 × K4- 100 × the 6th thresholding) × 2.5+50, S4It is big for the 4GCQI
In the score of 7 accountings;
The quality index score=3GMR low quality accounting score × third weight+4GCQI is greater than 7 accountings
Score × the 4th weight.
11. device according to claim 8, which is characterized in that the computing unit is specifically used for
If K5The 7th thresholding of >, then the score of the wireless percent of call completed of the 3/4G is 100;
If K5The 8th thresholding of <, then the score of the wireless percent of call completed of the 3/4G is 0, wherein the 8th thresholding is less than described the
Seven thresholdings;
If eight thresholdings≤K5≤ the seven thresholding, then calculate the score of the wireless percent of call completed of the 3/4G according to the 14th formula;
Wherein, the 14th formula are as follows:
S5=(100 × K5- 100 × the 8th thresholding) × [1 ÷ (the 7th the-the eight thresholding of thresholding)], S5It is wirelessly connected for the 3/4G
The score of rate;
If K6The 9th thresholding of >, then the score of the 3G voice service cutting off rate is 0;
If K6The tenth thresholding of <, then the score of the 3G voice service cutting off rate is 100, wherein the tenth thresholding is less than institute
State the 9th thresholding;
If ten thresholdings≤K6≤ the nine thresholding, then calculate the score of the 3G voice service cutting off rate according to the 15th formula;
Wherein, the 15th formula are as follows:
S6=100- (100 × K6- the ten thresholding) × 100 ÷ (the 9th the-the ten thresholding of thresholding), S6Fall for the 3G voice service
The score of words rate;
If K7The 11st thresholding of >, then the score of the 4G data service drop rate is 0;
If K7The 12nd thresholding of <, then the score of the 4G data service drop rate is 100, wherein the 12nd thresholding is small
In the 11st thresholding;
If 12 thresholdings≤K7≤ the ten one thresholding, then calculate the 4G data service drop rate according to the 16th formula
Score;
Wherein, the 16th formula are as follows:
S7=100- (100 × K7- the ten one thresholding) × 100 ÷ (11 thresholding of the 12nd thresholding-the), S7For the 4G data
The score of business drop rate;
If K8The 13rd thresholding of >, then the score of the 4G uplink service Mean Speed is 100;
If K8The 14th thresholding of <, then the score of the 4G uplink service Mean Speed is 0, wherein the 14th thresholding is small
In the 13rd thresholding;
If 13 thresholdings≤K8≤ the ten four thresholding, then calculate the 4G uplink service Mean Speed according to the 17th formula
Score;
Wherein, the 17th formula are as follows:
S8=50 ÷ (14 thresholding of the 13rd thresholding-the) × (K8- the ten four thresholding)+50, S8It is average for the 4G uplink service
The score of rate;
If K9The 15th thresholding of >, then the score of the 4G downlink business Mean Speed is 100;
If K9The 16th thresholding of <, then the score of the 4G downlink business Mean Speed is 0, wherein the 15th thresholding is big
In the 16th thresholding;
If 16 thresholdings≤K9≤ the ten five thresholding, then calculate the 4G downlink business Mean Speed according to the 18th formula
Score;
Wherein, the 18th formula are as follows:
S9=(K9- the ten six thresholding) × (the 16th thresholding of 50 ÷)+50, S9For the score of the 4G downlink business Mean Speed;
Score × the 5th weight+3G voice service cutting off rate of the perception index score=3/4G the is wireless percent of call completed
Score × the 6th weight+4G data service drop rate score × the 7th weight+4G uplink service Mean Speed
Score × the 8th weight+4G downlink business Mean Speed score × the 9th weight.
12. device according to claim 7, which is characterized in that the determination unit is specifically used for:
If the score value of grid is less than or equal to the first preset value and is more than or equal to the second preset value, this grid is the first estate;
If the score value of grid is less than second preset value and is more than or equal to third preset value, this grid is the second grade;
If the score value of grid is less than the third preset value and is more than or equal to the 4th preset value, this grid is the tertiary gradient;
If the score value of grid is less than the 4th preset value, this grid is the fourth estate, wherein first preset value is big
In second preset value, second preset value is greater than the third preset value, and the third preset value is greater than the described 4th
Preset value.
13. a kind of computer readable storage medium, instruction is stored in the computer readable storage medium, which is characterized in that
When described instruction is run on evaluating apparatus, so that the evaluating apparatus is executed as described in any one of claims 1 to 6
Evaluation method.
14. a kind of computer program product comprising instruction, which is characterized in that when described instruction is run on computers, make
It obtains the computer and executes evaluation method as claimed in any one of claims 1 to 6.
15. a kind of evaluating apparatus characterized by comprising processor and memory, memory is for storing program, processor
The program of memory storage is called, to execute evaluation method as claimed in any one of claims 1 to 6.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201811110558.XA CN109257755B (en) | 2018-09-21 | 2018-09-21 | Evaluation method and evaluation device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201811110558.XA CN109257755B (en) | 2018-09-21 | 2018-09-21 | Evaluation method and evaluation device |
Publications (2)
Publication Number | Publication Date |
---|---|
CN109257755A true CN109257755A (en) | 2019-01-22 |
CN109257755B CN109257755B (en) | 2022-02-18 |
Family
ID=65048592
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201811110558.XA Active CN109257755B (en) | 2018-09-21 | 2018-09-21 | Evaluation method and evaluation device |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN109257755B (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112533238A (en) * | 2020-11-23 | 2021-03-19 | 东智安通(北京)科技有限公司 | Network optimization method and device, electronic equipment and storage medium |
CN113923704A (en) * | 2021-09-18 | 2022-01-11 | 广州瀚信通信科技股份有限公司 | VoNR quality evaluation method and device based on 5G voice system index |
CN114945191A (en) * | 2022-06-15 | 2022-08-26 | 中国联合网络通信集团有限公司 | User perception determining method and device for 5G mobile service and electronic equipment |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102149103A (en) * | 2011-04-11 | 2011-08-10 | 北京铭润创展科技有限公司 | Network optimizing system and method |
CN104469834A (en) * | 2013-09-17 | 2015-03-25 | 中国移动通信集团福建有限公司 | Service simulation-perception-evaluation method and system |
CN105959965A (en) * | 2016-07-16 | 2016-09-21 | 王晓刚 | Wireless mobile network analysis method and apparatus |
US9686738B2 (en) * | 2009-04-28 | 2017-06-20 | Apple Inc. | Methods and apparatus for configuration of femtocells in a wireless network |
-
2018
- 2018-09-21 CN CN201811110558.XA patent/CN109257755B/en active Active
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US9686738B2 (en) * | 2009-04-28 | 2017-06-20 | Apple Inc. | Methods and apparatus for configuration of femtocells in a wireless network |
CN102149103A (en) * | 2011-04-11 | 2011-08-10 | 北京铭润创展科技有限公司 | Network optimizing system and method |
CN104469834A (en) * | 2013-09-17 | 2015-03-25 | 中国移动通信集团福建有限公司 | Service simulation-perception-evaluation method and system |
CN105959965A (en) * | 2016-07-16 | 2016-09-21 | 王晓刚 | Wireless mobile network analysis method and apparatus |
Non-Patent Citations (1)
Title |
---|
MCC SUPPORT: "R4-1811900:E-UTRA and UTRA; Radio Frequency (RF) requirement background for Active Antenna System (AAS) Base Station (BS) radiated requirements (Release 15)", 《3GPP》 * |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112533238A (en) * | 2020-11-23 | 2021-03-19 | 东智安通(北京)科技有限公司 | Network optimization method and device, electronic equipment and storage medium |
CN113923704A (en) * | 2021-09-18 | 2022-01-11 | 广州瀚信通信科技股份有限公司 | VoNR quality evaluation method and device based on 5G voice system index |
CN113923704B (en) * | 2021-09-18 | 2024-02-06 | 广州瀚信通信科技股份有限公司 | VoNR quality evaluation method and device based on 5G voice system index |
CN114945191A (en) * | 2022-06-15 | 2022-08-26 | 中国联合网络通信集团有限公司 | User perception determining method and device for 5G mobile service and electronic equipment |
Also Published As
Publication number | Publication date |
---|---|
CN109257755B (en) | 2022-02-18 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN109257755A (en) | Evaluation method and evaluating apparatus | |
CN106937306B (en) | A kind of network quality appraisal procedure and device | |
WO2014101674A1 (en) | Load balancing method and network control node | |
CN103581928B (en) | A kind of cell combining method and device | |
CN109819476A (en) | A kind of network optimized approach and terminal, storage medium | |
CN103945418B (en) | A kind of auxiliary serving cell collocation method and equipment | |
US10237793B2 (en) | Access control method and apparatus, and network device | |
CN103781181B (en) | User scheduling method and apparatus, system and base station in TDD system | |
CN104301948B (en) | Cell switching method and device in a kind of carrier aggregation network | |
CN109905889B (en) | Wireless resource balancing method, device, equipment and medium | |
CN106792833B (en) | A kind of method and device determining weak coverage cell | |
CN108243441A (en) | Indoor distributed system failure judgment method and device | |
CN103249160B (en) | A kind of resource allocation methods in lte-a system under CoMP | |
CN104066196A (en) | Method and device for determining remote radio unit (RRU) | |
CN107426778A (en) | A kind of system of selection of frequency handover and access device | |
CN107819676A (en) | Intelligent routing device and method based on weighting matrix model | |
CN102340815A (en) | Method, device and system for testing coverage performance of time division-synchronous code division multiple access (TD-SCDMA) network | |
CN103945462B (en) | A kind of auxiliary serving cell configuration method and equipment | |
CN104244446B (en) | Obtain the method and device of WLAN deployment information | |
CN104956733A (en) | Admission control method and device for wireless communication network | |
CN107820286A (en) | A kind of handoff parameter choosing method, base station and terminal device | |
CN108810950A (en) | A kind of method and relevant device of the deletable cell of identification | |
CN104411006A (en) | Method and device for adjusting power of router and router | |
CN105722110A (en) | Method and apparatus for acquiring coverage distance | |
CN106817728A (en) | A kind of load-balancing method and device |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PB01 | Publication | ||
PB01 | Publication | ||
SE01 | Entry into force of request for substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
GR01 | Patent grant | ||
GR01 | Patent grant |