CN105101228B - The pre- addressing algorithm of the modified multi-operator of quadruple - Google Patents
The pre- addressing algorithm of the modified multi-operator of quadruple Download PDFInfo
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- CN105101228B CN105101228B CN201510114555.3A CN201510114555A CN105101228B CN 105101228 B CN105101228 B CN 105101228B CN 201510114555 A CN201510114555 A CN 201510114555A CN 105101228 B CN105101228 B CN 105101228B
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Abstract
The invention discloses a kind of pre- addressing algorithms of the modified multi-operator of quadruple, pass through the central point longitude and latitude etc. between the average station spacing of each operator of calculating, two websites, tentatively obtain the website of each operator build, the new selective calling point to central point distance two-by-two in setting range merges to obtain the pre-selection site table of each operator again, then the pre-selection website of all operators is put together, new selective calling point of the central point distance two-by-two in setting range is merged, the pre- addressing website that all operators can be built is obtained;The pre- addressing website that can be built to each operator carries out shared matching with Xian Wangge operators storage website, calculate separately the distance between pre- addressing website and storage website, for the website with storage website distance within setting range, pre-selection site summary table is eliminated;Last artificial verification, eliminates and falls into the site that lake, river etc. can not be built, finally obtain the site of building together within the scope of base station city yet to be built.
Description
Technical field:
The present invention relates to a kind of pre- addressing algorithms of the modified multi-operator of quadruple, belong to npt field.
Background technology:
Existing network planing method is directed to the network of single communication operator, passes through on the basis of single carrier network
The network planning is carried out in the data analyses such as station spacing, emulation, test.Initial stage station location selection based on the manual reconnaissance on map, then
Addressing result is analyzed and adjusted, while program results only consider newly-built site, does not consider that the storage of different operator is shared
With build together.
Invention content:
To overcome the deficiencies of existing technologies, the purpose of the present invention is to provide a kind of pre- addressings of the modified multi-operator of quadruple
Algorithm creates base station location to certain region domestic demand based on station spacing and analyzes, and is modified to addressing result, and obtaining can
Three sites built together.
The present invention solves technical problem and adopts the following technical scheme that:
The pre- addressing algorithm of the modified multi-operator of quadruple comprising following steps:
1), the storage website within the scope of base station city yet to be built is counted, calculates separately telecommunications, unicom, mobile each fortune
The station spacing for seeking quotient's storage website, obtains the average station spacing of each operator;
2), station spacing traversal two-by-two is carried out to the base station of the telecom operators within the scope of city to calculate, set the base of telecommunications
Quantity of standing is 1-N, wherein N is the natural number more than 1;
3) it, according to network structure and covering demand, using first base station of telecommunications as the center of circle, is transported with telecommunications obtained by step 1)
It seeks based on the average station spacing of quotient, an annulus is formed as radius picture circle using 0.2-0.8 times and 1.2-3 times averagely station spacing
Domain, label fall into the base station in the annular region;Again using second base station of telecommunications, until n-th base station as the center of circle, executes phase
Biconditional operation;
4) it, based on step 3), calculates first base station and falls into the central point between each base station in its annular region
Longitude and latitude, then calculate the second base station and fall into the central point longitude and latitude between each base station in its annular region, until n-th base
It stands, executes same operation;
5), the central point longitude and latitude that all steps 4) obtain is the station of the telecom operators tentatively obtained build
Point carries out distance operation two-by-two, to new choosing of the central point distance two-by-two in 50-500 meters to the website built
Website merges to obtain the pre-selection site table of telecommunications, and merging method is the central point taken again between central point two-by-two;
6) unicom and mobile pre-selection site table, are obtained according to the method for step 2) to step 5);
7), the pre-selection website of telecommunications, unicom, mobile three operators is put together, station spacing two-by-two is carried out and calculates, for
New selective calling point of the central point distance in 50-500 meters merges two-by-two, and merging method is between taking central point two-by-two again
Central point obtains the pre- addressing website that three operators can be built;
8) the pre- addressing website and Xian Wangsanjia operators storage website that, can be built to three operators are shared
Matching, the shared matching process is to calculate separately the distance between pre- addressing website and storage website, for storage website
Website of the distance within 200 meters eliminates pre-selection site summary table;
9), pre-selection site summary table is manually verified, eliminates and falls into the station that lake, river etc. can not be built
Location finally obtains the site of building together within the scope of base station city yet to be built.
In step 4), the computational methods of center longitude are, it is assumed that in the range of 2 points of distances of A, B are 5 kilometers, the earth
It can be considered a plane, then the center longitude of A, B point-to-point transmission=(A+B)/2.
In step 3), circle is drawn as radius using 0.2 times and 1.2 times average station spacing and forms an annular region, label falls into this
Base station in annular region;Again using second base station of telecommunications, until n-th base station as the center of circle, executes same operation;
In step 3), circle is drawn as radius using 0.8 times and 3 times average station spacing and forms an annular region, label falls into the ring
Base station in shape region;Again using second base station of telecommunications, until n-th base station as the center of circle, executes same operation;
In step 3), circle is drawn as radius using 0.4 times and 2 times average station spacing and forms an annular region, label falls into the ring
Base station in shape region;Again using second base station of telecommunications, until n-th base station as the center of circle, executes same operation;
In step 7), new selective calling point of the central point distance two-by-two in 50 meters is merged;In step 8), for
Website of the storage website distance within 50 meters eliminates pre-selection site summary table.
In step 7), the new selective calling point for central point distance two-by-two in 500 meter meter Nei merges;It is right in step 8)
In the website with storage website distance within 500 meters, pre-selection site summary table is eliminated.
In step 7), new selective calling point of the central point distance two-by-two in 350 meters is merged;In step 8), for
With website of the storage website distance within 350 meters, pre-selection site summary table is eliminated.
Compared with the prior art, beneficial effects of the present invention are embodied in:
1, preliminary site is obtained by algorithm, it is efficient compared to the mode that original map clicks.
2, the algorithm disclosure satisfy that storage is shared and merge the multi-operator demand built together, and avoid overlapping construction, beneficial to ring
It protects.
Description of the drawings:
Fig. 1 is the operation schematic diagram of step 3) in embodiment 1;Fig. 2 is the operation schematic diagram of step 7);Fig. 3 is final
Operation schematic diagram.
Below by way of specific implementation mode, and in conjunction with attached drawing, the invention will be further described.
Specific implementation mode:
Embodiment 1:The pre- addressing algorithm of the modified multi-operator of quadruple comprising following steps:
1), the storage website within the scope of base station city yet to be built is counted, calculates separately telecommunications, unicom, mobile each fortune
The station spacing for seeking quotient's storage website, obtains the average station spacing of each operator;
2), station spacing traversal two-by-two is carried out to the base station of the telecom operators within the scope of city to calculate, set the base of telecommunications
Quantity of standing is 1-N, wherein N is the natural number more than 1;
3) it, according to network structure and covering demand, using first base station of telecommunications as the center of circle, is transported with telecommunications obtained by step 1)
It seeks based on the average station spacing of quotient, with 0.2 times (value of specific multiple can pass through software set) and 1.2 times of average station spacings
Circle is drawn for radius and forms an annular region, and label falls into the base station in the annular region;Again with second base station of telecommunications, until
N-th base station is the center of circle, executes same operation;
4) it, based on step 3), calculates first base station and falls into the central point between each base station in its annular region
Longitude and latitude, then calculate the second base station and fall into the central point longitude and latitude between each base station in its annular region, until n-th base
It stands, executes same operation;
5), the central point longitude and latitude that all steps 4) obtain is the station of the telecom operators tentatively obtained build
Point carries out distance operation two-by-two to the website built, and to central point distance two-by-two, at 200 meters, (specific value can
Pass through software set) in new selective calling point merge to obtain the pre-selection site table of telecommunications, merging method is in taking two-by-two again
Central point between heart point;
6) unicom and mobile pre-selection site table, are obtained according to the method for step 2) to step 5);
7), the pre-selection website of telecommunications, unicom, mobile three operators is put together, station spacing two-by-two is carried out and calculates, for
New selective calling point of the central point distance in 200 meters (specific value can pass through software set) merges two-by-two, and merging method is
The central point between central point two-by-two is taken again, obtains the pre- addressing website that three operators can be built;
8) the pre- addressing website and Xian Wangsanjia operators storage website that, can be built to three operators are shared
Matching, the shared matching process is to calculate separately the distance between pre- addressing website and storage website, for storage website
Website of the distance within 200 meters eliminates pre-selection site summary table;
9), pre-selection site summary table is manually verified, eliminates and falls into the station that lake, river etc. can not be built
Location finally obtains the site of building together within the scope of base station city yet to be built.
When it is implemented, in step 4), the computational methods of center longitude are, it is assumed that in 2 points of A, B distance be 5 kilometers
In range, the earth can be considered a plane, then the center longitude of A, B point-to-point transmission=(A+B)/2.
Embodiment 2:The operation method of the present embodiment is with embodiment 1, the difference is that in step 3), with 0.8 times and 3 times
Average station spacing is that radius draws circle one annular region of formation, and label falls into the base station in the annular region;Again with the second of telecommunications
A base station, until n-th base station be the center of circle, execute same operation;
In step 7), new selective calling point of the central point distance two-by-two in 50 meters is merged;In step 8), for
Website of the storage website distance within 50 meters eliminates pre-selection site summary table.
Embodiment 3:The operation method of the present embodiment is with embodiment 1, the difference is that in step 3), with 0.8 times and 3 times
Average station spacing is that radius draws circle one annular region of formation, and label falls into the base station in the annular region;Again with the second of telecommunications
A base station, until n-th base station be the center of circle, execute same operation;
In step 7), the new selective calling point for central point distance two-by-two in 500 meter meter Nei merges;It is right in step 8)
In the website with storage website distance within 500 meters, pre-selection site summary table is eliminated.
Embodiment 4:The operation method of the present embodiment is with embodiment 1, the difference is that in step 3), with 0.4 times and 2 times
Average station spacing is that radius draws circle one annular region of formation, and label falls into the base station in the annular region;Again with the second of telecommunications
A base station, until n-th base station be the center of circle, execute same operation;In step 7), for central point distance two-by-two in 350 meters
New selective calling point merge;In step 8), for the website with storage website distance within 350 meters, pre-selection is eliminated
Site summary table.
Embodiment 5:The operation method of the present embodiment is with embodiment 1, the difference is that in step 3), with 0.6 times and 1.5
Averagely station spacing is that radius draws circle one annular region of formation again, and label falls into the base station in the annular region;Again with the of telecommunications
Two base stations, until n-th base station be the center of circle, execute same operation;In step 7), for central point distance two-by-two at 100 meters
Interior new selective calling point merges;In step 8), for the website with storage website distance within 400 meters, eliminate pre-
Selective calling location summary table.
Claims (8)
1. the pre- addressing algorithm of the modified multi-operator of quadruple, it is characterised in that include the following steps:
1), the storage website within the scope of base station city yet to be built is counted, calculates separately telecommunications, unicom, mobile each operator
The station spacing of storage website obtains the average station spacing of each operator;
2), station spacing traversal two-by-two is carried out to the base station of the telecom operators within the scope of city to calculate, set the base station number of telecommunications
Amount is 1-N, wherein N is the natural number more than 1;
3), according to network structure and covering demand, using first base station of telecommunications as the center of circle, with telecom operators obtained by step 1)
Average station spacing based on, be that radius draws circle and forms an annular region using the averagely station spacing of 0.2-0.8 times and 1.2-3 times, mark
Note falls into the base station in the annular region;Again using second base station of telecommunications, until n-th base station as the center of circle, executes identical behaviour
Make;
4) it, based on step 3), calculates first base station and falls into the central point longitude and latitude between each base station in its annular region
Degree, then calculate the second base station and fall into the central point longitude and latitude between each base station in its annular region, until n-th base station,
Execute same operation;
5), the central point longitude and latitude that all steps 4) obtain is the website of the telecom operators tentatively obtained build,
Distance operation two-by-two is carried out to the website built, to new selective calling point of the central point distance two-by-two in 50-500 meters
It merges to obtain the pre-selection site table of telecommunications, merging method is the central point taken again between central point two-by-two;
6) unicom and mobile pre-selection site table, are obtained according to the method for step 2) to step 5);
7), the pre-selection website of telecommunications, unicom, mobile three operators is put together, station spacing two-by-two is carried out and calculates, for two-by-two
New selective calling point of the central point distance in 50-500 meters merges, and merging method is the center taken again between central point two-by-two
Point obtains the pre- addressing website that three operators can be built;
8) the pre- addressing website and Xian Wangsanjia operators storage website that, can be built to three operators carry out shared
Match, the shared matching process is to calculate separately the distance between pre- addressing website and storage website, for storage website away from
From the website within 200 meters, pre-selection site summary table is eliminated;
9), pre-selection site summary table is manually verified, eliminates and falls into the site that lake, river etc. can not be built, most
The site of building together within the scope of base station city yet to be built is obtained eventually.
2. the pre- addressing algorithm of the modified multi-operator of quadruple according to claim 1, which is characterized in that in step 4), in
The computational methods of the heart channel of Hang-Shaoyin latitude are, it is assumed that in the range of 2 points of distances of A, B are 5 kilometers, the earth can be considered a plane, then A,
The center longitude of B point-to-point transmissions=(A+B)/2.
3. the pre- addressing algorithm of the modified multi-operator of quadruple according to claim 1, which is characterized in that in step 3), with
0.2 times and 1.2 times average station spacing is that radius draws circle one annular region of formation, and label falls into the base station in the annular region;Again
Using second base station of telecommunications, until n-th base station as the center of circle, executes same operation.
4. the pre- addressing algorithm of the modified multi-operator of quadruple according to claim 1, which is characterized in that in step 3), with
0.8 times and 3 times average station spacing is that radius draws circle one annular region of formation, and label falls into the base station in the annular region;Again with
Second base station of telecommunications, until n-th base station be the center of circle, execute same operation.
5. the pre- addressing algorithm of the modified multi-operator of quadruple according to claim 1, which is characterized in that in step 3), with
0.4 times and 2 times average station spacing is that radius draws circle one annular region of formation, and label falls into the base station in the annular region;Again with
Second base station of telecommunications, until n-th base station be the center of circle, execute same operation.
6. the pre- addressing algorithm of the modified multi-operator of quadruple according to claim 1, which is characterized in that right in step 7)
It is merged in new selective calling point of the central point distance two-by-two in 50 meters;In step 8), for storage website distance at 50 meters
Within website, eliminate pre-selection site summary table.
7. the pre- addressing algorithm of the modified multi-operator of quadruple according to claim 1, which is characterized in that right in step 7)
It is merged in new selective calling point of the central point distance two-by-two in 500 meters;In step 8), for storage website distance 500
Website within rice eliminates pre-selection site summary table.
8. the pre- addressing algorithm of the modified multi-operator of quadruple according to claim 1, which is characterized in that right in step 7)
It is merged in new selective calling point of the central point distance two-by-two in 350 meters;In step 8), for storage website distance 350
Website within rice eliminates pre-selection site summary table.
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CN108307289A (en) * | 2016-09-30 | 2018-07-20 | 西门子公司 | A kind of method of unmanned communication truck and offer radio communication service |
CN107846688B (en) * | 2017-10-17 | 2021-04-06 | 中国联合网络通信集团有限公司 | Wireless network site planning method and device based on multiple operators |
CN109257753B (en) * | 2018-09-18 | 2021-10-19 | 安徽电信规划设计有限责任公司 | Two-dimensional five-step stock site sharing optimization method |
CN109413661B (en) * | 2018-09-20 | 2022-02-15 | 中国联合网络通信集团有限公司 | Method and device for calculating station distance |
CN112529442A (en) * | 2019-12-17 | 2021-03-19 | 瞿秋昱 | Distribution site construction method based on big data analysis |
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US20090061871A1 (en) * | 2007-08-29 | 2009-03-05 | Motorola, Inc. | Base station neighbor list optimization |
CN102256281A (en) * | 2010-05-19 | 2011-11-23 | 鼎桥通信技术有限公司 | Method, system and device for confirming omitted adjacent cell in mobile communication system |
CN103167511A (en) * | 2011-12-15 | 2013-06-19 | 中国电信股份有限公司 | Processing method and device for acquiring station spacing of base stations in wireless communication network |
US8649791B1 (en) * | 2011-06-23 | 2014-02-11 | Cellco Partnership | Automatic neighbor list generation for long-term evolution (LTE) |
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US20090061871A1 (en) * | 2007-08-29 | 2009-03-05 | Motorola, Inc. | Base station neighbor list optimization |
CN102256281A (en) * | 2010-05-19 | 2011-11-23 | 鼎桥通信技术有限公司 | Method, system and device for confirming omitted adjacent cell in mobile communication system |
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