CN109982349A - Configuration method, configuration device, equipment and the medium of the different system adjacent cell of LTE - Google Patents
Configuration method, configuration device, equipment and the medium of the different system adjacent cell of LTE Download PDFInfo
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- CN109982349A CN109982349A CN201711460000.XA CN201711460000A CN109982349A CN 109982349 A CN109982349 A CN 109982349A CN 201711460000 A CN201711460000 A CN 201711460000A CN 109982349 A CN109982349 A CN 109982349A
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- 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
- H04L41/08—Configuration management of networks or network elements
- H04L41/0803—Configuration setting
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- 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
- H04L41/08—Configuration management of networks or network elements
- H04L41/0803—Configuration setting
- H04L41/0823—Configuration setting characterised by the purposes of a change of settings, e.g. optimising configuration for enhancing reliability
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W24/00—Supervisory, monitoring or testing arrangements
- H04W24/02—Arrangements for optimising operational condition
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W24/00—Supervisory, monitoring or testing arrangements
- H04W24/10—Scheduling measurement reports ; Arrangements for measurement reports
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Abstract
The invention discloses the configuration method of the different system adjacent cell of LTE, configuration device, equipment and media.This method comprises: obtaining the BCCH channel of broadcast control frequency point within the scope of long term evolution Cell Global Identification LTE-CGI rule by default wildcard rule;According to BCCH frequency point, operation and maintenance center OMC measurement frequency point allocation list is generated;It acquires and counts global system for mobile communications sample data MRO-GSM relevant field information;According to OMC measurement frequency point allocation list and MRO-GSM relevant field information, the different system adjacent cell allocation list of long term evolution LTE is generated;The configuration of the different system adjacent cell of LTE is carried out according to the different system adjacent cell allocation list of LTE.Technical solution of the present invention can overcome the problems, such as that physical and chemical, human configuration adjacent area may cause inaccurate based on ground, and greatly improve working efficiency.
Description
Technical field
The present invention relates to the configuration method of radio network optimization technical field more particularly to a kind of different system adjacent cell of LTE, match
Set device, equipment and medium.
Background technique
Currently, making the overall arrangement for and using with VoLTE (voice service based on network interconnection protocol multi-media sub-system)
Amount amount is continuously increased, eSRVCC (Enhanced Single Radio Voice Call Continuity, the list of enhancing
One wireless voice call continuity) to GSM, (Global System for Mobile Communication, the whole world are mobile logical
Letter system) adjacent area and measurement frequency point have higher requirement.The adjacent area GSM polygamy will affect the timeliness of measurement, may cause and cuts
It changes not in time;Adjacent area leakage will lead to can not occur in LTE (Long Term Evolution, long term evolution) weak overlay area
ESRVCC, may direct call drop, seriously affect user perception.Therefore correct, the reasonable configuration adjacent area GSM is particularly significant.
In the related technology, the adjacent area GSM and its measurement frequency point configuration means are main are as follows: manual wildcard frequency point;It is artificial to be based on ground
Manage position configuring adjacent cell;It is verified and is planned by centralized optimization platform interoperability module.But adjacent area and frequency point in the related technology
Configuration method has the following problems:
When manual wildcard frequency point, easy polygamy frequency point causes measurement time delay elongated, and eSRVCC switching is easy under rapid fading scene
Failure.It is manually configured based on geographical location, heavy dependence is artificial and plane map, lacks scientific, accuracy.It is excellent by concentrating
To change platform interoperability module and verifies planning, the timeliness requirement of accuracy and update to basic work ginseng information table is high, once
Work ginseng information is not accurate enough or updates not in time, easily causes neighbor cell configuration chaotic.
Summary of the invention
The embodiment of the invention provides a kind of configuration method of the different system adjacent cell of LTE, configuration device, equipment and media, fill
The advantage of MRO (MR Original, measurement report sample data) big data is waved in distribution, and can be directly small to the whole network by software
MR (Measurement Report, the measurement report) data in area are analyzed and processed on demand, export the suggestion of GSM neighbor cell configuration
Table overcomes the inaccurate problem that physical and chemical, human configuration adjacent area may cause based on ground, and greatly improves working efficiency.
In a first aspect, method includes: to pass through the embodiment of the invention provides a kind of configuration method of the different system adjacent cell of LTE
Default wildcard rule, obtains LTE-CGI (LTE-Cell Global Identifier, long term evolution Cell Global Identification) rule
The then BCCH in range (Broadcast Control Channel, broadcast control channel) frequency point;According to BCCH frequency point, generate
OMC (Operation and Maintenance Center, operation and maintenance center) measurement frequency point allocation list;It acquires and counts complete
Ball mobile communication system sample data MRO-GSM relevant field information;According to OMC measurement frequency point allocation list and MRO-GSM phase
Field information is closed, the different system adjacent cell allocation list of long term evolution LTE is generated;The different system of LTE is carried out according to the different system adjacent cell allocation list of LTE
The configuration of system adjacent area.
Second aspect, the embodiment of the invention provides a kind of configuration device of the different system adjacent cell of LTE, device includes: frequency point
Acquiring unit, for obtaining wide within the scope of long term evolution Cell Global Identification LTE-CGI rule by default wildcard rule
Broadcast Control BCCH channel frequency point;Generation unit, for generating the configuration of operation and maintenance center OMC measurement frequency point according to BCCH frequency point
Table;Statistic unit is acquired, for acquiring and counting global system for mobile communications sample data MRO-GSM relevant field information;It is raw
At unit, it is also used to generate the different system of long term evolution LTE according to OMC measurement frequency point allocation list and MRO-GSM relevant field information
System neighbor cell configuration table;Configuration unit, for carrying out the configuration of the different system adjacent cell of LTE according to the different system adjacent cell allocation list of LTE.
The third aspect, the embodiment of the invention provides a kind of computer equipments, comprising: at least one processor, at least one
A memory and computer program instructions stored in memory, the realization when computer program instructions are executed by processor
Such as the method for first aspect in above embodiment.
Fourth aspect, the embodiment of the invention provides a kind of computer readable storage mediums, are stored thereon with computer journey
The method such as first aspect in above embodiment is realized in sequence instruction when computer program instructions are executed by processor.
Configuration method, configuration device, equipment and the medium of the different system adjacent cell of LTE provided in an embodiment of the present invention, by right
BCCH, RSSI (Received Signal Strength, the instruction of knot received signal intensity), NCC (network color in MR data
Code), the data dissection process analyses of the fields such as BCC (base station color code), by iterative calculation, minimum distance is counter releases GSM-CGI,
And sampling number, RSSI intensity is combined to be increased and decreased optimization to the adjacent area GSM, different system adjacent cell is configured based on UE actual measurement GSM signal,
Overcome the inaccurate problem that physical and chemical, human configuration adjacent area may cause based on ground.The advantage of MRO big data is given full play to, and
Directly the MR data of the whole network cell can be analyzed and processed on demand by software, energy fast accurate finds out configuration method process
The adjacent area of middle polygamy and leakage, directly output GSM neighbor cell configuration suggest table, with manually substantially mentioning compared with cell configuring adjacent cell one by one
Working efficiency is risen.
Detailed description of the invention
In order to illustrate the technical solution of the embodiments of the present invention more clearly, will make below to required in the embodiment of the present invention
Attached drawing is briefly described, for those of ordinary skill in the art, without creative efforts, also
Other drawings may be obtained according to these drawings without any creative labor.
Fig. 1 shows the flow diagram of the configuration method of the different system adjacent cell of LTE provided by one embodiment of the present invention;
Fig. 2 shows the schematic diagrames of current area provided by one embodiment of the present invention and adjacent cell angle;
Fig. 3 shows the schematic diagram of the configuration device of the different system adjacent cell of LTE provided by one embodiment of the present invention;
Fig. 4 shows the schematic diagram of computer equipment provided by one embodiment of the present invention.
Specific embodiment
The feature and exemplary embodiment of various aspects of the invention is described more fully below, in order to make mesh of the invention
, technical solution and advantage be more clearly understood, with reference to the accompanying drawings and embodiments, the present invention is further retouched in detail
It states.It should be understood that specific embodiment described herein is only configured to explain the present invention, it is not configured as limiting the present invention.
To those skilled in the art, the present invention can be real in the case where not needing some details in these details
It applies.Below the description of embodiment is used for the purpose of better understanding the present invention to provide by showing example of the invention.
It should be noted that, in this document, relational terms such as first and second and the like are used merely to a reality
Body or operation are distinguished with another entity or operation, are deposited without necessarily requiring or implying between these entities or operation
In any actual relationship or order or sequence.Moreover, the terms "include", "comprise" or its any other variant are intended to
Non-exclusive inclusion, so that the process, method, article or equipment including a series of elements is not only wanted including those
Element, but also including other elements that are not explicitly listed, or further include for this process, method, article or equipment
Intrinsic element.In the absence of more restrictions, the element limited by sentence " including ... ", it is not excluded that including
There is also other identical elements in the process, method, article or equipment of the element.
Fig. 1 shows the flow diagram of the configuration method of the different system adjacent cell of LTE provided by one embodiment of the present invention.Such as
Shown in Fig. 1, this method comprises:
Step 102, it by default wildcard rule, obtains within the scope of long term evolution Cell Global Identification LTE-CGI rule
BCCH channel of broadcast control frequency point;
Step 104, according to BCCH frequency point, operation and maintenance center OMC measurement frequency point allocation list is generated;
Step 106, it acquires and counts global system for mobile communications sample data MRO-GSM relevant field information;
Step 108, according to OMC measurement frequency point allocation list and MRO-GSM relevant field information, long term evolution LTE is generated
Different system adjacent cell allocation list;
Step 110, the configuration of the different system adjacent cell of LTE is carried out according to the different system adjacent cell allocation list of LTE.
The configuration method of the different system adjacent cell of LTE provided by the invention, gives full play to the advantage of MRO big data, and can pass through
Software is directly analyzed and processed the MR data of the whole network cell on demand, and output GSM neighbor cell configuration suggests table, overcomes based on ground
The inaccurate problem that physical and chemical, human configuration adjacent area may cause, and greatly improve working efficiency.
Wherein, presetting wildcard rule includes: that (1) LTE and GSM station spacing are less than every station LTE-GSM average stop spacing, such as Fig. 2
Shown, current area angle (A1) is less than 180 degree, adjacent cell angle (A2) is less than 180 degree;(2) LTE and GSM station spacing are less than 2
× every station LTE-GSM average stop spacing, current area angle are less than 180 degree less than 90 degree, adjacent cell angle.Every station LTE-GSM is flat
Equal stop spacing: the average value (being not involved in every station stop spacing less than the exclusion of 30M to calculate) at the nearest station 3 GSM of LTE website and periphery.
Step 104, according to BCCH frequency point, operation and maintenance center OMC measurement frequency point allocation list is generated, may include: basis
The configuring condition of the global system for mobile communications GSM measurement frequency point of BCCH frequency point and existing net measurement report MR obtains needing weight
The frequency point newly configured;The default batch of the frequency point reconfigured point will be needed to configure to preset quantity, generate the configuration of OMC measurement frequency point
Table.Wherein, the data for now netting the GSM measurement frequency point of MR include Network Color Code NCC, base station color code BCC, BCCH, received signal
Intensity indicates RSSI.Reading now net GSM measurement frequency point (it is consistent with adjacent area frequency point to can also be used for later period circuit domain dropping CSFB frequency point
Detection) configuration the case where, the BCCH frequency point obtained with wildcard rule compares, and obtains the frequency point that need to newly configure.It is logical by what need to be increased newly
With frequency point in batches full configuration to 31 (consider its data volume size, be limited in 2 times, extra wildcard frequency point directly abandons).
Step 106, global system for mobile communications sample data MRO-GSM relevant field information is acquired and counted, can wrap
It includes: acquisition MRO-GSM relevant field information;In MRO-GSM relevant field information, exception GSM measurement frequency point is removed;With LTE-
ECI is critical field, counts and presets sampled data and output formats (table 1) in every cell.Wherein, MRO-GSM relevant field is believed
Breath includes LTE field and GSM field, and LTE field includes eNB id, cell id, GSM field include MR.GsmNcellBcch,
MR.GsmNcellCarrierRSSI,MR.GsmNcellNcc,MR.GsmNcellBcc;Default sampled data include it is following at least
It is a kind of: base station identity code BCCH_BSIC, average ReLev on long term evolution cell identifier LTE-ECI, broadcast control channel,
Sampling number, total sampling number, sampled point accounting, sampled point ranking.
Table 1
LTE-ECI=eNB id&cell id;BCCH_BSIC=MR.GsmNcellBcch& ' _ ' &
MR.GsmNcellNcc&MR.GsmNcellBcc;Sampling number: the sampled point quantity of BCCH_BSIC in cell;Sampled point row
Name: " the sampled point quantity of BCCH_BSIC in cell " ranking is pressed;Total sampled point: all sampled points in cell;Sampled point accounting:
Sampling number/total sampled point (3 operations that round up after decimal point need to be carried out);Average ReLev indicates BCCH_BSIC in cell
MR.GsmNcellCarrierRSSI average value corresponding to sampled point subtracts 110.
Step 108, according to OMC measurement frequency point allocation list and MRO-GSM relevant field information, long term evolution LTE is generated
Different system adjacent cell allocation list may include:
(1) preliminary adjacent area screening: according to MRO-GSM relevant field information according to removal rule, fractional-sample point is removed;Its
In, removal rule is less than the invalid sample of preset number of days (such as 20000 days) to remove total sampling number, removes average ReLEV
Less than the sample that the sampled point of preset value (such as -100dBm), sampled point accounting are less than default accounting (such as 0.8%).
(2) LTE cell, BCCH_BSIC, LTE in the sample data MRO of remaining sampled point the anti-adjacent area GSM-CGI that pushes away: are obtained
Longitude and latitude, and remaining sampled point GSM base station database Cell Global Identification CGI, BCCH_BSIC, GSM longitude
And latitude;BCCH_BSIC using BCCH_BSIC and the GSM base station database of MRO matches, and obtains the warp of two sampled points
Degree and latitude;According to the longitude and latitude of two sampled points, nearest CGI, and the adjacent area GSM- as sampled point are iterated to calculate out
CGI。
(3) configuring adjacent cell configuration rule: firstly, the synthesis adjacent area MRO table: being opened since MRO is divided to two days, two can be obtained
Table is suggested in the adjacent area MRO of part (day), need to synthesize portion: based on the 1st crowd of MRO, compare the 1st batch with the 2nd crowd of LTE and BCCH
MRO, have more in the adjacent area the MRO suggestion table to be partially added to the 1st part, synthesize the new final adjacent area MRO suggestion table.
It needs to delete adjacent area in the case where OMC measurement frequency point allocation list polygamy, specifically: if OMC measurement frequency point allocation list
In there is this to suggest adjacent area, and suggest adjacent area without this in MRO, then obtain initially deleting suggestion table (the first deletion suggestion table).If just
Begin to delete 2G traffic in table be 0 and LTE and GSM distance be greater than 2 × D (D indicate every station LTE-GSM average stop spacing) or LTE and
GSM distance is greater than 5km, then obtains the second deletion suggestion table.
Addition adjacent area is needed in the case where OMC measurement frequency point allocation list leakage, specifically: if OMC measurement frequency point allocation list
It is middle to suggest adjacent area without this, and suggest addition in MRO, then it obtains initially adding suggestion table (table is suggested in the first addition).If sampled point
Before ranking 3 or distance less than the distance of 2 × D and 2 × D need to be less than 5Km, then obtain the second addition suggestion table.
OMC measurement frequency point allocation list obtains the total allocation list in the adjacent area OMC after the above deletion, addition are suggested, always matches to the adjacent area OMC
Set the adjacent area the 2G number that table counts to get every cell.It is 0 for the adjacent area 2G number, is deleted according to second and suggest table, selection distance is most
1 close adjacent area is added again and (is namely rejected in deletion table), exports final delete and suggests table.The adjacent area 2G number is greater than
32, table is suggested according to the second addition, the circulation selection the smallest deletion of sampled point accounting is less than or equal to 32 condition up to meeting
(namely rejecting in addition table) exports final addition and suggests table.It should be noted that D is that every station LTE-GSM averagely stands
Away from for average stop spacing less than 300 meters, as 300 meters of processing.
Fig. 3 shows the schematic diagram of the configuration device 300 of the different system adjacent cell of LTE provided by one embodiment of the present invention.Such as
Shown in Fig. 3, which includes:
Frequency point acquiring unit 302, for obtaining long term evolution Cell Global Identification LTE- by default wildcard rule
BCCH channel of broadcast control frequency point within the scope of CGI rule;Generation unit 304, for generating Operation and Maintenance according to BCCH frequency point
Center OMC measurement frequency point allocation list;Statistic unit 306 is acquired, for acquiring and counting global system for mobile communications sample data
MRO-GSM relevant field information;Generation unit 304 is also used to according to OMC measurement frequency point allocation list and MRO-GSM related words
Segment information generates the different system adjacent cell allocation list of long term evolution LTE;Configuration unit 308, for being configured according to the different system adjacent cell of LTE
The configuration of the table progress different system adjacent cell of LTE.
Wherein, presetting wildcard rule includes: that LTE and GSM station spacing are less than every station LTE-GSM average stop spacing, current area
Angle is less than 180 degree, adjacent cell angle is less than 180 degree;And LTE and GSM station spacing less than 2 × every station LTE-GSM averagely stands
It is less than 180 degree less than 90 degree, adjacent cell angle away from current area angle.
Generation unit 304, specifically for the global system for mobile communications according to BCCH frequency point and existing net measurement report MR
The configuring condition of GSM measurement frequency point obtains the frequency point for needing to reconfigure;The default batch of the frequency point reconfigured point will be needed to match
It sets to preset quantity, generates OMC measurement frequency point allocation list;Wherein, the data for now netting the GSM measurement frequency point of MR include Network Color Code
NCC, base station color code BCC, BCCH, received signal intensity indicate RSSI.
Statistic unit 306 is acquired, acquisition MRO-GSM relevant field information is specifically used for;In MRO-GSM relevant field information
In, remove exception GSM measurement frequency point;Using LTE-ECI as critical field, counts and preset sampled data and output table in every cell
Lattice.Wherein, MRO-GSM relevant field information includes LTE field and GSM field;Default sampled data includes following at least one:
Base station identity code BCCH_BSIC, average ReLev, sampling on long term evolution cell identifier LTE-ECI, broadcast control channel
Points, total sampling number, sampled point accounting, sampled point ranking.
Generation unit 304 is also used to remove fractional-sample point according to removal rule according to MRO-GSM relevant field information;
According to remaining sampled point, adjacent area global system for mobile communications Cell Global Identification GSM-CGI is obtained;According to OMC measurement frequency point
Allocation list generates the different system adjacent cell allocation list of LTE;Wherein, removal rule is less than the nothing of preset number of days for the total sampling number of removal
It imitates sample, remove the sample that average ReLEV is less than default accounting less than the sampled point of preset value, sampled point accounting.
Wherein, according to remaining sampled point, adjacent area GSM-CGI is obtained, comprising: obtain the sample data MRO of remaining sampled point
Middle LTE cell, BCCH_BSIC, LTE longitude and latitude, and remaining sampled point GSM base station database global cell identification
Code CGI, BCCH_BSIC, GSM longitude and latitude;Utilize the BCCH_BSIC phase of BCCH-BSIC and the GSM base station database of MRO
Matching, obtains the longitude and latitude of two sampled points;According to the longitude and latitude of two sampled points, CGI is iterated to calculate out, and make
For adjacent area GSM-CGI.
According to OMC measurement frequency point allocation list, the different system adjacent cell allocation list of LTE is generated, comprising: (1) acquire the whole network cell and survey
Data are measured, and are divided into first the whole network cell measurement data and second batch the whole network cell measurement data;It is small according to first the whole network
Region measurement data and second batch the whole network cell measurement data, the first allocation list and second for generating the different system adjacent cell of LTE respectively are matched
Set table;It is compared with second batch the whole network cell measurement data with first the whole network cell measurement data, the data having more is added
It adds to the first allocation list and generates the adjacent area MRO suggestion table.
(2) if OMC measurement frequency point allocation list is polygamy situation, OMC measurement frequency point allocation list delete and is suggested
To the total allocation list in the adjacent area OMC;If OMC measurement frequency point allocation list is leakage situation, is carried out to OMC measurement frequency point allocation list
Addition is suggested obtaining the total allocation list in the adjacent area OMC.
Can be, if having adjacent area corresponding with adjacent area GSM-CGI and the adjacent area MRO suggestion table in OMC measurement frequency point allocation list
Middle no adjacent area then obtains the first deletion suggestion table;If the first deletion suggests that 2G traffic is 0 and LTE and GSM distance greater than 2 in table
× every station LTE-GSM average stop spacing or LTE and GSM distance are greater than pre-determined distance, then obtain the second deletion suggestion table;Or
If obtaining the first addition suggestion without addition adjacent area is suggested in adjacent area and the adjacent area MRO suggestion table in OMC measurement frequency point allocation list
Table;If LTE and GSM distance less than 2 × every station LTE-GSM average stop spacing and 2 × every station LTE-GSM average stop spacing distance is less than
Pre-determined distance or sampled point ranking then obtain the second addition suggestion table in preceding default ranking.
(3) the total allocation list in the adjacent area OMC is counted, obtains the adjacent area the 2G number of every cell;It is raw according to the adjacent area 2G number
At the different system adjacent cell allocation list of LTE.
It can be, if the adjacent area 2G number is 0, to be deleted according to second and suggest table, 1 nearest adjacent area of selection distance adds again
Add, exports final delete and suggest table;If the adjacent area 2G number is greater than default adjacent area quantity, table, circulation choosing are suggested according to the second addition
It selects the smallest adjacent area of sampled point accounting to be deleted, until meeting the adjacent area 2G number is less than or equal to default adjacent area quantity, output
Table is suggested in final addition.
In addition, the configuration method in conjunction with the different system adjacent cell of LTE of Fig. 1 embodiment of the present invention described can be set by computer
It is standby to realize.Fig. 4 shows the hardware structural diagram of computer equipment provided in an embodiment of the present invention.
Computer equipment may include processor 401 and the memory 402 for being stored with computer program instructions.
Specifically, above-mentioned processor 401 may include central processing unit (CPU) or specific integrated circuit
(Application Specific Integrated Circuit, ASIC), or may be configured to implement implementation of the present invention
One or more integrated circuits of example.
Memory 402 may include the mass storage for data or instruction.For example it rather than limits, memory
402 may include hard disk drive (Hard Disk Drive, HDD), floppy disk drive, flash memory, CD, magneto-optic disk, tape or logical
With the combination of universal serial bus (Universal Serial Bus, USB) driver or two or more the above.It is closing
In the case where suitable, memory 402 may include the medium of removable or non-removable (or fixed).In a suitable case, it stores
Device 402 can be inside or outside data processing equipment.In a particular embodiment, memory 402 is nonvolatile solid state storage
Device.In a particular embodiment, memory 402 includes read-only memory (ROM).In a suitable case, which can be mask
ROM, programming ROM (PROM), erasable PROM (EPROM), the electric erasable PROM (EEPROM), electrically-alterable ROM of programming
(EAROM) or the combination of flash memory or two or more the above.
Processor 401 is by reading and executing the computer program instructions stored in memory 402, to realize above-mentioned implementation
The configuration method of the different system adjacent cell of any one LTE in example.
In one example, computer equipment may also include communication interface 403 and bus 410.Wherein, as shown in figure 4, place
Reason device 401, memory 402, communication interface 403 connect by bus 410 and complete mutual communication.
Communication interface 403 is mainly used for realizing in the embodiment of the present invention between each module, device, unit and/or equipment
Communication.
Bus 410 includes hardware, software or both, and the component of computer equipment is coupled to each other together.For example
Rather than limit, bus may include accelerated graphics port (AGP) or other graphics bus, enhance Industry Standard Architecture (EISA) always
Line, front side bus (FSB), super transmission (HT) interconnection, the interconnection of Industry Standard Architecture (ISA) bus, infinite bandwidth, low pin count
(LPC) bus, memory bus, micro- channel architecture (MCA) bus, peripheral component interconnection (PCI) bus, PCI-Express
(PCI-X) bus, Serial Advanced Technology Attachment (SATA) bus, Video Electronics Standards Association part (VLB) bus or other conjunctions
The combination of suitable bus or two or more the above.In a suitable case, bus 410 may include one or more
Bus.Although specific bus has been described and illustrated in the embodiment of the present invention, the present invention considers any suitable bus or interconnection.
In addition, in conjunction with the configuration method of the different system adjacent cell of LTE in above-described embodiment, the embodiment of the present invention can provide one kind
Computer readable storage medium is realized.Computer program instructions are stored on the computer readable storage medium;The computer
The configuration method of the different system adjacent cell of any one LTE in above-described embodiment is realized when program instruction is executed by processor.
It should be clear that the invention is not limited to specific configuration described above and shown in figure and processing.
For brevity, it is omitted here the detailed description to known method.In the above-described embodiments, several tools have been described and illustrated
The step of body, is as example.But method process of the invention is not limited to described and illustrated specific steps, this field
Technical staff can be variously modified, modification and addition after understanding spirit of the invention, or suitable between changing the step
Sequence.
Functional block shown in structures described above block diagram can be implemented as hardware, software, firmware or their group
It closes.When realizing in hardware, it may, for example, be electronic circuit, specific integrated circuit (ASIC), firmware appropriate, insert
Part, function card etc..When being realized with software mode, element of the invention is used to execute program or the generation of required task
Code section.Perhaps code segment can store in machine readable media program or the data-signal by carrying in carrier wave is passing
Defeated medium or communication links are sent." machine readable media " may include any medium for capableing of storage or transmission information.
The example of machine readable media includes electronic circuit, semiconductor memory devices, ROM, flash memory, erasable ROM (EROM), soft
Disk, CD-ROM, CD, hard disk, fiber medium, radio frequency (RF) link, etc..Code segment can be via such as internet, inline
The computer network of net etc. is downloaded.
It should also be noted that, the exemplary embodiment referred in the present invention, is retouched based on a series of step or device
State certain methods or system.But the present invention is not limited to the sequence of above-mentioned steps, that is to say, that can be according in embodiment
The sequence referred to executes step, may also be distinct from that the sequence in embodiment or several steps are performed simultaneously.
The above description is merely a specific embodiment, it is apparent to those skilled in the art that,
For convenience of description and succinctly, the system, module of foregoing description and the specific work process of unit can refer to preceding method
Corresponding process in embodiment, details are not described herein.It should be understood that scope of protection of the present invention is not limited thereto, it is any to be familiar with
Those skilled in the art in the technical scope disclosed by the present invention, can readily occur in various equivalent modifications or substitutions,
These modifications or substitutions should be covered by the protection scope of the present invention.
Claims (13)
1. a kind of configuration method of the different system adjacent cell of LTE, which is characterized in that the described method includes:
By default wildcard rule, the Broadcasting Control letter within the scope of long term evolution Cell Global Identification LTE-CGI rule is obtained
Road BCCH frequency point;
According to the BCCH frequency point, operation and maintenance center OMC measurement frequency point allocation list is generated;
It acquires and counts global system for mobile communications sample data MRO-GSM relevant field information;
According to the OMC measurement frequency point allocation list and the MRO-GSM relevant field information, the different system of long term evolution LTE is generated
System neighbor cell configuration table;
The configuration of the different system adjacent cell of LTE is carried out according to the different system adjacent cell allocation list of the LTE.
2. the configuration method of the different system adjacent cell of LTE according to claim 1, which is characterized in that according to the BCCH frequency point,
Generate OMC measurement frequency point allocation list, comprising:
According to the configuration feelings of the global system for mobile communications GSM measurement frequency point of the BCCH frequency point and existing net measurement report MR
Condition obtains the frequency point for needing to reconfigure;
It needs the default batch of the frequency point reconfigured point to configure to preset quantity for described, generates OMC measurement frequency point allocation list;
Wherein, the data of the GSM measurement frequency point for now netting MR include Network Color Code NCC, it is base station color code BCC, BCCH, received
Signal strength indicates RSSI.
3. the configuration method of the different system adjacent cell of LTE according to claim 1 or 2, which is characterized in that acquire and count the whole world
Mobile communication system sample data MRO-GSM relevant field information, comprising:
Acquire the MRO-GSM relevant field information;
In the MRO-GSM relevant field information, exception GSM measurement frequency point is removed;
Using LTE-ECI as critical field, counts and preset sampled data and output formats in every cell.
4. the configuration method of the different system adjacent cell of LTE according to claim 3, which is characterized in that
The MRO-GSM relevant field information includes LTE field and GSM field;
The default sampled data includes following at least one: on long term evolution cell identifier LTE-ECI, broadcast control channel
Base station identity code BCCH_BSIC, average ReLev, sampling number, total sampling number, sampled point accounting, sampled point ranking.
5. the configuration method of the different system adjacent cell of LTE according to claim 4, which is characterized in that measure frequency according to the OMC
Point allocation list and the MRO-GSM relevant field information generate the different system adjacent cell allocation list of long term evolution LTE, comprising:
According to the MRO-GSM relevant field information according to removal rule, fractional-sample point is removed;
According to remaining sampled point, adjacent area global system for mobile communications Cell Global Identification GSM-CGI is obtained;
According to the OMC measurement frequency point allocation list, the different system adjacent cell allocation list of the LTE is generated;
Wherein, the removal rule is described average less than the invalid sample of preset number of days, removal to remove total sampling number
ReLEV is less than the sampled point of preset value, the sampled point accounting is less than the sample for presetting accounting.
6. the configuration method of the different system adjacent cell of LTE according to claim 5, which is characterized in that according to remaining sampled point, obtain
Take adjacent area GSM-CGI, comprising:
Obtain in the sample data MRO of the remaining sampled point LTE cell, BCCH_BSIC, LTE longitude and latitude and described
Cell Global Identification CGI, BCCH_BSIC, GSM longitude and latitude of the GSM base station database of remaining sampled point;
BCCH_BSIC using the BCCH-BSIC and the GSM base station database of the MRO matches, and obtains two sampled points
Longitude and latitude;
According to the longitude and latitude of described two sampled points, CGI is iterated to calculate out, and as the adjacent area GSM-CGI.
7. the configuration method of the different system adjacent cell of LTE according to claim 6, which is characterized in that measure frequency according to the OMC
Point allocation list, generates the different system adjacent cell allocation list of the LTE, comprising:
The whole network cell measurement data are acquired, and are divided into first the whole network cell measurement data and second batch the whole network cell measurement number
According to;
According to first described the whole network cell measurement data and second batch the whole network cell measurement data, it is different that LTE is generated respectively
The first allocation list and the second allocation list of system adjacent cell;
It is compared with second batch the whole network cell measurement data with first described the whole network cell measurement data, by what is had more
Data are added to first allocation list and generate the adjacent area MRO suggestion table;
If the OMC measurement frequency point allocation list is polygamy situation, the OMC measurement frequency point allocation list delete and is suggested
To the total allocation list in the adjacent area OMC;If the OMC measurement frequency point allocation list is leakage situation, is matched to the OMC measurement frequency point
It sets table and is added suggestion and obtain the total allocation list in the adjacent area OMC;
The total allocation list in the adjacent area OMC is counted, the adjacent area the 2G number of every cell is obtained;
According to the adjacent area 2G number, the different system adjacent cell allocation list of the LTE is generated.
8. the configuration method of the different system adjacent cell of LTE according to claim 7, which is characterized in that if the OMC measurement frequency point
Allocation list is polygamy situation, then delete to the OMC measurement frequency point allocation list and suggest obtaining the total allocation list in the adjacent area OMC;Or
If person's OMC measurement frequency point allocation list is leakage situation, suggestion is added to the OMC measurement frequency point allocation list and is obtained
The total allocation list in the adjacent area OMC, comprising:
If having adjacent area corresponding with the adjacent area GSM-CGI and the adjacent area the MRO suggestion table in the OMC measurement frequency point allocation list
It is middle without the adjacent area, then obtain the first deletion suggestion table;
If described first deletes and suggests that 2G traffic is that 0 and LTE and GSM distance is greater than 2 × every station LTE-GSM average stop spacing in table,
Or LTE and GSM distance is greater than pre-determined distance, then obtains the second deletion suggestion table;Or
If adding the adjacent area without suggestion in the adjacent area and the adjacent area MRO suggestion table in the OMC measurement frequency point allocation list,
Then obtain the first addition suggestion table;
If LTE and GSM distance less than 2 × every station LTE-GSM average stop spacing and 2 × every station LTE-GSM average stop spacing
Distance be less than the pre-determined distance or sampled point ranking in preceding default ranking, then obtain the second addition suggestion table.
9. the configuration method of the different system adjacent cell of LTE according to claim 8, which is characterized in that according to the adjacent area 2G number,
Generate the different system adjacent cell allocation list of the LTE, comprising:
If the adjacent area 2G number is 0, to be deleted according to described second and suggest table, 1 nearest adjacent area of selection distance is added again,
Final delete of output suggests table;
If the adjacent area 2G number is greater than default adjacent area quantity, suggest that table, circulation selection sampled point account for according to second addition
It is deleted than the smallest adjacent area, until meeting the adjacent area 2G number less than or equal to the default adjacent area quantity, output is most
Table is suggested in addition eventually.
10. the configuration method of the different system adjacent cell of LTE according to claim 8, which is characterized in that the default wildcard rule
It include: LTE and GSM station spacing less than every station LTE-GSM average stop spacing, current area angle is less than 180 degree, adjacent cell is pressed from both sides
Angle is less than 180 degree;And LTE and GSM station spacing less than 2 × every station LTE-GSM average stop spacing, the current area angle
It is less than 180 degree less than 90 degree, the adjacent cell angle.
11. a kind of configuration device of the different system adjacent cell of LTE, which is characterized in that described device includes:
Frequency point acquiring unit, for obtaining long term evolution Cell Global Identification LTE-CGI rule model by default wildcard rule
Enclose interior BCCH channel of broadcast control frequency point;
Generation unit, for generating operation and maintenance center OMC measurement frequency point allocation list according to the BCCH frequency point;
Statistic unit is acquired, for acquiring and counting global system for mobile communications sample data MRO-GSM relevant field information;
The generation unit is also used to according to the OMC measurement frequency point allocation list and the MRO-GSM relevant field information,
Generate the different system adjacent cell allocation list of long term evolution LTE;
Configuration unit, for carrying out the configuration of the different system adjacent cell of LTE according to the different system adjacent cell allocation list of the LTE.
12. a kind of computer equipment characterized by comprising at least one processor, at least one processor and be stored in
Computer program instructions in the memory realize such as right when the computer program instructions are executed by the processor
It is required that the configuration method of the different system adjacent cell of LTE described in any one of 1 to 10.
13. a kind of computer readable storage medium, is stored thereon with computer program instructions, which is characterized in that when the calculating
The configuration of the different system adjacent cell of LTE as described in any one of claims 1 to 10 is realized when machine program instruction is executed by processor
Method.
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