CN105101228A - Quadruple corrective multi-service-provider pre-addressing algorithm - Google Patents

Abstract

The invention discloses a quadruple corrective multi-service-provider pre-addressing algorithm. A site to be built of each service provider can be obtained preliminarily by calculating the average site spacing and the central point latitude and longitude between two sites of the service providers, newly selected sites with center point distance in a set range are merged to obtain a pre-selected site address table of each service provider, and then the pre-selected sites of all of the service providers are put together, the newly selected sites with center point distance in the set range are merged to obtain the pre-selected sites to be built of all of the service providers. the pre-selected sites to be built of all of the service providers and the stock sites of the service providers of the present network are in shared matching, the distance between the pre-selected sites and the stock sites is calculated, and if the distance of the sites away from the stock sites is within the set range, the sites are removed out of a pre-selected site address general table. The site addresses that are unable to be built because of being in the area of lakes and rivers are removed through artificial checking, and the co-building site addresses in the urban area of a base station to be built can be obtained at the end.

Description

The pre-addressing algorithm of multi-operator of quadruple correction

Technical field:

The present invention relates to a kind of pre-addressing algorithm of multi-operator of quadruple correction, belong to npt field.

Background technology:

Existing network planing method, all for the network of single communication operator, by data analyses such as station spacing, emulation, tests on single carrier network basis, carries out the network planning.Initial stage station location selection based on reconnaissance manual on map, then is analyzed addressing result and is adjusted, and program results only considers newly-built site simultaneously, does not consider that the storage of different operator is shared and builds together.

Summary of the invention:

For overcoming the defect of prior art, the object of the present invention is to provide a kind of pre-addressing algorithm of multi-operator of quadruple correction, analyze the newly-built base station location of certain region domestic demand based on station spacing, and revise addressing result, obtaining can three site of building together.

Technical solution problem of the present invention adopts following technical scheme:

The pre-addressing algorithm of multi-operator of quadruple correction, it comprises the following steps:

1), to the storage website within the scope of city, base station yet to be built add up, calculate the station spacing of telecommunications, UNICOM, mobile each operator storage website respectively, obtain the average station distance of each operator;

2), to the base station of the telecom operators within the scope of city carry out station spacing traversal between two to calculate, the base station number of setting telecommunications is 1-N, wherein, N be greater than 1 natural number;

3), according to network configuration and the demand of covering, with first of telecommunications base station for the center of circle, by step 1) based on the average station distance of gained telecom operators, with 0.2-0.8 doubly and 1.2-3 times of average station distance draw a round-formed annular region, the base station that mark falls in this annular region for radius; Again with second of telecommunications base station until N number of base station is for the center of circle, perform same operation;

4), by step 3) based on, calculate the first base station and fall into the central point longitude and latitude between each base station in its annular region, calculate the second base station again and fall into the central point longitude and latitude between each base station in its annular region, until N number of base station, perform same operation;

5), in steps 4) the central point longitude and latitude that obtains is the website that the carrying out of the telecom operators tentatively obtained is built, distance operation is between two carried out to the described website built, the new selective calling point of central point distance in 50-500 rice is between two merged to the preliminary election site table obtaining telecommunications, merging method is again get the central point between two between central point;

6), according to step 2) to step 5) method obtain UNICOM and show with the preliminary election site of movement;

7), the preliminary election website of telecommunications, UNICOM, mobile three operators is put together, carry out station spacing between two to calculate, the new selective calling point of central point distance in 50-500 rice is between two merged, merging method is again get the central point between two between central point, obtains the pre-addressing website that three operators can carry out building;

8) pre-addressing website and existing network three the operator's storage websites, can built three operators carry out shared coupling, described shared matching process is, calculate the distance between pre-addressing website and storage website respectively, for with the website of storage website distance within 200 meters, eliminate preliminary election site summary table;

9), by described preliminary election site summary table manually verify, eliminate the site falling into lake, river etc. and cannot build, finally obtain the site of building together within the scope of city, base station yet to be built.

Step 4) in, the computational methods of center longitude are, assuming that be in the scope of 5 kilometers in A, B 2 distances, the earth can be considered a plane, then center longitude=(A+B)/2 of A, B point-to-point transmission.

Step 3) in, with 0.2 times and 1.2 times of average station distances for radius draws a round-formed annular region, mark the base station fallen in this annular region; Again with second of telecommunications base station until N number of base station is for the center of circle, perform same operation;

Step 3) in, with 0.8 times and 3 times of average station distances for radius draws a round-formed annular region, mark the base station fallen in this annular region; Again with second of telecommunications base station until N number of base station is for the center of circle, perform same operation;

Step 3) in, with 0.4 times and 2 times of average station distances for radius draws a round-formed annular region, mark the base station fallen in this annular region; Again with second of telecommunications base station until N number of base station is for the center of circle, perform same operation;

Step 7) in, the new selective calling point of central point distance in 50 meters is between two merged; Step 8) in, for the website of storage website distance within 50 meters, eliminate preliminary election site summary table.

Step 7) in, central point distance is between two merged at the new selective calling point of 500 meter meter Nei; Step 8) in, for the website of storage website distance within 500 meters, eliminate preliminary election site summary table.

Step 7) in, the new selective calling point of central point distance in 350 meters is between two merged; Step 8) in, for the website of storage website distance within 350 meters, eliminate preliminary election site summary table.

Compared with the prior art, beneficial effect of the present invention is embodied in:

1, obtain preliminary site by algorithm, compare the mode that original map clicks, efficiency is high.

2, this algorithm can meet storage and shares and merge the multi-operator demand of building together, and avoids overlapping construction, useful environmental protection.

Accompanying drawing illustrates:

Fig. 1 is step 3 in embodiment 1) computing schematic diagram; Fig. 2 is step 7) computing schematic diagram; Fig. 3 is final computing schematic diagram.

Below by way of embodiment, and the invention will be further described by reference to the accompanying drawings.

Embodiment:

Embodiment 1: the pre-addressing algorithm of multi-operator of quadruple correction, it comprises the following steps:

1), to the storage website within the scope of city, base station yet to be built add up, calculate the station spacing of telecommunications, UNICOM, mobile each operator storage website respectively, obtain the average station distance of each operator;

2), to the base station of the telecom operators within the scope of city carry out station spacing traversal between two to calculate, the base station number of setting telecommunications is 1-N, wherein, N be greater than 1 natural number;

3), according to network configuration and the demand of covering, with first of telecommunications base station for the center of circle, by step 1) based on the average station distance of gained telecom operators, be that radius draws a round-formed annular region with 0.2 times (value of concrete multiple is by software set) and 1.2 times of average station distances, mark the base station fallen in this annular region; Again with second of telecommunications base station until N number of base station is for the center of circle, perform same operation;

4), by step 3) based on, calculate the first base station and fall into the central point longitude and latitude between each base station in its annular region, calculate the second base station again and fall into the central point longitude and latitude between each base station in its annular region, until N number of base station, perform same operation;

5), in steps 4) the central point longitude and latitude that obtains is the website that the carrying out of the telecom operators tentatively obtained is built, distance operation is between two carried out to the described website built, the new selective calling point of central point distance in 200 meters (concrete value is by software set) is between two merged to the preliminary election site table obtaining telecommunications, merging method is again get the central point between two between central point;

6), according to step 2) to step 5) method obtain UNICOM and show with the preliminary election site of movement;

7), the preliminary election website of telecommunications, UNICOM, mobile three operators is put together, carry out station spacing between two to calculate, the new selective calling point of central point distance in 200 meters (concrete value is by software set) is between two merged, merging method is again get the central point between two between central point, obtains the pre-addressing website that three operators can carry out building;

8) pre-addressing website and existing network three the operator's storage websites, can built three operators carry out shared coupling, described shared matching process is, calculate the distance between pre-addressing website and storage website respectively, for with the website of storage website distance within 200 meters, eliminate preliminary election site summary table;

9), by described preliminary election site summary table manually verify, eliminate the site falling into lake, river etc. and cannot build, finally obtain the site of building together within the scope of city, base station yet to be built.

During concrete enforcement, step 4) in, the computational methods of center longitude are, assuming that be in the scope of 5 kilometers in A, B 2 distances, the earth can be considered a plane, then center longitude=(A+B)/2 of A, B point-to-point transmission.

Embodiment 2: the operation method of the present embodiment is with embodiment 1, and difference is, step 3) in, with 0.8 times and 3 times of average station distances for radius draws a round-formed annular region, mark the base station fallen in this annular region; Again with second of telecommunications base station until N number of base station is for the center of circle, perform same operation;

Step 7) in, the new selective calling point of central point distance in 50 meters is between two merged; Step 8) in, for the website of storage website distance within 50 meters, eliminate preliminary election site summary table.

Embodiment 3: the operation method of the present embodiment is with embodiment 1, and difference is, step 3) in, with 0.8 times and 3 times of average station distances for radius draws a round-formed annular region, mark the base station fallen in this annular region; Again with second of telecommunications base station until N number of base station is for the center of circle, perform same operation;

Step 7) in, central point distance is between two merged at the new selective calling point of 500 meter meter Nei; Step 8) in, for the website of storage website distance within 500 meters, eliminate preliminary election site summary table.

Embodiment 4: the operation method of the present embodiment is with embodiment 1, and difference is, step 3) in, with 0.4 times and 2 times of average station distances for radius draws a round-formed annular region, mark the base station fallen in this annular region; Again with second of telecommunications base station until N number of base station is for the center of circle, perform same operation; Step 7) in, the new selective calling point of central point distance in 350 meters is between two merged; Step 8) in, for the website of storage website distance within 350 meters, eliminate preliminary election site summary table.

Embodiment 5: the operation method of the present embodiment is with embodiment 1, and difference is, step 3) in, with 0.6 times and 1.5 times of average station distances for radius draws a round-formed annular region, mark the base station fallen in this annular region; Again with second of telecommunications base station until N number of base station is for the center of circle, perform same operation; Step 7) in, the new selective calling point of central point distance in 100 meters is between two merged; Step 8) in, for the website of storage website distance within 400 meters, eliminate preliminary election site summary table.

Claims (8)

1. the pre-addressing algorithm of the multi-operator of quadruple correction, is characterized in that comprising the following steps:

1), to the storage website within the scope of city, base station yet to be built add up, calculate the station spacing of telecommunications, UNICOM, mobile each operator storage website respectively, obtain the average station distance of each operator;

2), to the base station of the telecom operators within the scope of city carry out station spacing traversal between two to calculate, the base station number of setting telecommunications is 1-N, wherein, N be greater than 1 natural number;

3), according to network configuration and the demand of covering, with first of telecommunications base station for the center of circle, by step 1) based on the average station distance of gained telecom operators, with 0.2-0.8 doubly and 1.2-3 times of average station distance draw a round-formed annular region, the base station that mark falls in this annular region for radius; Again with second of telecommunications base station until N number of base station is for the center of circle, perform same operation;

4), by step 3) based on, calculate the first base station and fall into the central point longitude and latitude between each base station in its annular region, calculate the second base station again and fall into the central point longitude and latitude between each base station in its annular region, until N number of base station, perform same operation;

5), in steps 4) the central point longitude and latitude that obtains is the website that the carrying out of the telecom operators tentatively obtained is built, distance operation is between two carried out to the described website built, the new selective calling point of central point distance in 50-500 rice is between two merged to the preliminary election site table obtaining telecommunications, merging method is again get the central point between two between central point;

6), according to step 2) to step 5) method obtain UNICOM and show with the preliminary election site of movement;

7), the preliminary election website of telecommunications, UNICOM, mobile three operators is put together, carry out station spacing between two to calculate, the new selective calling point of central point distance in 50-500 rice is between two merged, merging method is again get the central point between two between central point, obtains the pre-addressing website that three operators can carry out building;

8) pre-addressing website and existing network three the operator's storage websites, can built three operators carry out shared coupling, described shared matching process is, calculate the distance between pre-addressing website and storage website respectively, for with the website of storage website distance within 200 meters, eliminate preliminary election site summary table;

9), by described preliminary election site summary table manually verify, eliminate the site falling into lake, river etc. and cannot build, finally obtain the site of building together within the scope of city, base station yet to be built.

2. the pre-addressing algorithm of multi-operator of quadruple correction according to claim 1, it is characterized in that, step 4) in, the computational methods of center longitude are, assuming that be in the scope of 5 kilometers in A, B 2 distances, the earth can be considered a plane, then center longitude=(A+B)/2 of A, B point-to-point transmission.

3. the pre-addressing algorithm of multi-operator of quadruple correction according to claim 1, is characterized in that, step 3) in, with 0.2 times and 1.2 times of average station distances for radius draws a round-formed annular region, mark the base station fallen in this annular region; Again with second of telecommunications base station until N number of base station is for the center of circle, perform same operation.

4. the pre-addressing algorithm of multi-operator of quadruple correction according to claim 1, is characterized in that, step 3) in, with 0.8 times and 3 times of average station distances for radius draws a round-formed annular region, mark the base station fallen in this annular region; Again with second of telecommunications base station until N number of base station is for the center of circle, perform same operation.

5. the pre-addressing algorithm of multi-operator of quadruple correction according to claim 1, is characterized in that, step 3) in, with 0.4 times and 2 times of average station distances for radius draws a round-formed annular region, mark the base station fallen in this annular region; Again with second of telecommunications base station until N number of base station is for the center of circle, perform same operation.

6. the pre-addressing algorithm of multi-operator of quadruple correction according to claim 1, is characterized in that, step 7) in, the new selective calling point of central point distance in 50 meters is between two merged; Step 8) in, for the website of storage website distance within 50 meters, eliminate preliminary election site summary table.

7. the pre-addressing algorithm of multi-operator of quadruple correction according to claim 1, is characterized in that, step 7) in, the new selective calling point of central point distance in 500 meters is between two merged; Step 8) in, for the website of storage website distance within 500 meters, eliminate preliminary election site summary table.

8. the pre-addressing algorithm of multi-operator of quadruple correction according to claim 1, is characterized in that, step 7) in, the new selective calling point of central point distance in 350 meters is between two merged; Step 8) in, for the website of storage website distance within 350 meters, eliminate preliminary election site summary table.