CN112232688B - Business website layout and scale correction method based on uniformity - Google Patents

Abstract

The invention discloses a business network layout and scale correction method based on equality, which comprises the steps of acquisition of basic data, construction of a database, layout correction of business networks, scale correction of the business networks and intelligent generation of planning reports of the business networks. According to the invention, the data are acquired by the computer, the scene is simulated, the algorithm is realized, and the planning is finally completed, so that a large amount of manpower and material resources are saved, the interference of human factors in the planning process is greatly reduced, and the high efficiency, transparency and stability of the whole planning process are realized; all data used by the method are from real urban planning region data crawled by an open source platform, the formal layout condition of commercial facilities in real life is reflected, and an algorithm model of the method can properly adjust calculation details according to local requirements of different cities on the basis of definite calculation logic so as to adapt to the development requirements of different cities and realize wide applicability.

Description

Business website layout and scale correction method based on uniformity

Technical Field

The invention belongs to the field of commercial network planning in urban planning, and particularly relates to a method for correcting the layout and scale of commercial networks based on uniformity.

Background

In the course of the rapid urbanization of china in the last decades, the differences between the parts inside the city are greatly enlarged due to the resource inclination and local characteristics, which is particularly reflected in the distribution of the service facilities of commercial network points. With the transformation of the basic contradiction of the new era society, the contradiction between the urgent production demand of people and the laggard social production is solved, and the problem of insufficient development imbalance becomes a new main contradiction of the Chinese society and also becomes one of the major research subjects of urban planning.

At present, the planning range of the domestic commercial network is mainly realized by urban overall planning, urban control detailed planning and urban design. The city overall planning and the controlled detailed planning are realized by applying professional knowledge of experts and combining the development requirements of local governments on planning areas to plan the commercial land in the planning areas. In such planning process, the final result is mainly planning the approximate position of the commercial place, and the rigorous scientific demonstration of the state, the layout and the scale of the commercial place is not carried out. Although the urban design is accurate in positioning, the urban design is heavier in space form design and lighter in commercial network organization, and the problems of insufficient scientific achievements and lack of binding force exist.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide a business network layout and scale correction method based on equality, which can solve the problem of the planning of business networks and facilities in the field of urban planning and design, realize the space simulation of the business networks based on an open source database and the layout and scale correction model of the business networks based on a computer algorithm, and finally realize more efficient and scientific planning and decision of the business networks.

The purpose of the invention can be realized by the following technical scheme:

a business network layout and scale correction method based on uniformity comprises the following steps:

s1, acquiring basic data and constructing a database;

s2, correcting the layout of the commercial website;

s3, correcting the scale of the commercial network;

s4, intelligently generating a planning report of a commercial website;

further, the S1 includes steps S1.1, S1.2, S1.3, S1.4 and S1.5:

s1.1, collecting multi-source big data of a certain place in an open source data platform, wherein the multi-source big data comprises land boundary data, land property data, road network data, commercial network point data and population distribution data;

s1.2, spatial correction of multi-source big data, namely importing the multi-source big data collected in the S1.1 into a geographic information platform, matching coordinates and elevations of the multi-source big spatial data by using a spatial correction tool, and unifying data formats;

s1.3, grading the commercial network points, namely converting the data of the commercial network points of a certain place collected in the S1.1 into surface elements containing floor area, facility type and business area information, dividing all the commercial network points of the certain place into three grades of 15-minute commercial network points, 10-minute commercial network points and 5-minute commercial network points, and determining the construction indexes of planning thousands of people of the commercial network points of different grades and different types;

s1.4, residential area space placement, namely, using a space association tool to associate certain population distribution data with a residential area space position element, converting the data into a surface element, obtaining a residential area surface element containing population information and area information, and calculating population density;

s1.5, generating a basic database, namely integrating various data in a geographic information platform, unifying data formats and forming a complete planning database of the commercial network points in a certain place.

Further, the step S2 includes steps S2.1, S2.2, S2.3, S2.4 and S2.5:

s2.1, generating service ranges of all levels of commercial network points, namely, determining the service radius according to the commercial network point classification in the S1.3, respectively carrying out buffer area calculation on a 15-minute commercial network point, a 10-minute commercial network point and a 5-minute commercial network point in a certain place by using a buffer area generating tool, setting the radius of a 15-minute commercial network point buffer area to be 800 meters, the radius of a 10-minute commercial network point buffer area to be 500 meters and the radius of a 5-minute commercial network point buffer area to be 300 meters, and generating a buffer area, namely the total service range of the commercial network points of the level;

s2.2, checking the service coverage rate of each level of commercial network, namely, taking the intersection of the service range and the residential area range of each level of commercial network in the S2.1, and recording the area of the intersection part of the service range and the residential area range of a certain type of commercial network as S_{Making a business}Total residential area of S_{Live in}Then, the service coverage rate of the commercial network can be obtained by dividing the intersection area by the total area of the residential district

Specific calculation formula

Determining that the service coverage rate of each level of commercial network needs to reach 100%, if the service coverage rate of a certain level of commercial network reaches the standard, not correcting, otherwise, performing further layout correction;

s2.3, detecting a business network service coverage blind area, namely using a topological tool to check the business network levels with the service coverage rate not up to the standard, and finding out all residential areas which are not covered by the business network service range of the level;

s2.4, newly adding a commercial network point, namely newly adding a commercial network point land of a certain level to a residential area which is not covered by the commercial network point of the certain level on the residential area inside or around the residential area according to the position and size of a service coverage blind area of the commercial network point and the current land situation, and determining the building area of the newly added commercial network point according to the regional area and population of the non-radiated area and the construction indexes of thousands of people of different types of commercial network points determined in the S1.3;

and S2.5, rechecking the service coverage rate of the commercial network points, namely, continuously repeating the S2.1 and the S2.2 for the land model after the new commercial land is added, and checking the service coverage rate of the commercial network points until the service coverage rate of the commercial network points of the three levels reaches the standard.

Further, the S3 includes steps S3.1, S3.2, S3.3, S3.4, S3.5, and S3.6:

s3.1, generating a single commercial network point service range by using a Thiessen polygon generation tool, and generating Thiessen polygons with the number equal to that of all levels of commercial network points in a planning range according to all levels of commercial network point distribution information generated in the S2.5 to serve as the actual service range of the commercial network points;

s3.2, calculating a single business network service population, namely proportionally distributing the population in a planning range to each Thiessen polygon as the service population of the business network according to the residential area population data generated in the S1.4 and the business network service area data in the S3.1;

s3.3, calculating the service satisfaction of a single commercial network point, namely calculating the thousand-person index of the single commercial network point to the population service in the service range, recording the scale of the commercial network point as N, recording the population in the service range as P, and then calculating the current thousand-person index F of the commercial network point to the population service in the service range_{Now that}Taking the planned thousand-person index determined in the S1.3 as F_GaugeObtaining the service satisfaction degree of the commercial network

S3.4, detecting the commercial network points with the satisfaction degree needing to be corrected, namely recording the commercial network points with the service satisfaction degree lower than 100 percent as 'service unsatisfied network points', recording the commercial network points with the service satisfaction degree between 100 percent and 150 percent as 'service satisfied network points', and recording the commercial network points with the service satisfaction degree higher than 150 percent as 'over-service satisfied network points';

s3.5, correcting the scale of the commercial network points, namely adding new commercial areas to the plan of all the 'service unsatisfied network points' generated in S3.4, determining the numerical value of the added commercial areas according to the planned thousand-people index in S1.3, reducing the commercial areas to the plan of all the 'service over satisfied network points' generated in S3.4, and determining the numerical value of the reduced commercial areas according to the planned thousand-people index in S1.3;

and S3.6, rechecking the service satisfaction of the commercial network points, namely repeating the S3.3 and the S3.4 on the model which is newly added or reduced with the commercial area of part of the network points in the S3.5 until all the service satisfaction of all the commercial network points of the three levels reaches the standard.

Further, the S4 includes steps S4.1 and S4.2:

s4.1, integrating the planning range, the current commercial site layout and scale, the planning commercial site layout and scale and the commercial site layout and scale adjustment information into a commercial network planning report;

and S4.2, connecting the commercial site planning report with a full-color ink-jet printer to print a paper document.

Further, the business types of the 5-minute commercial outlets in the S1.3 comprise convenience stores and community catering, wherein the scale of the convenience stores is 500 square meters per thousand people, and the scale of the community catering is 200 square meters per thousand people.

Further, the commercial types of the commercial outlets in S1.3 for 10 minutes include a vegetable field, a living service, a restaurant, a shopping mall and a bank outlet, the scale of the vegetable field is 100 square meters per thousand people, the scale of the living service is 900 square meters per thousand people, the scale of the restaurant is 850 square meters per thousand people, the scale of the shopping mall is 700 square meters per thousand people, and the scale of the bank outlet is 110 square meters per thousand people.

Further, the business types of the 15-minute business network in the S1.3 comprise postal service, telecommunication and leisure entertainment, wherein the postal service scale is 40 square meters per thousand people, the telecommunication scale is 70 square meters per thousand people, and the leisure entertainment scale is 120 square meters per thousand people.

The invention has the beneficial effects that:

1. according to the invention, the data are acquired by the computer, the scene is simulated, the algorithm is realized, and the planning is finally completed, so that a large amount of manpower and material resources are saved, the interference of human factors in the planning process is greatly reduced, and the high efficiency, transparency and stability of the whole planning process are realized;

2. by arranging and designing the cyclic algorithm, the computer computing power is effectively utilized, the planning vision in the text form is converted into the index in the digital form, the computer is trained to automatically correct the layout and scale of the commercial network points, and the achievement scientificity to the maximum extent is realized;

3. all data used by the method are from real urban planning region data crawled by an open source platform, the formal layout condition of commercial facilities in real life is reflected, and an algorithm model of the method can properly adjust calculation details according to local requirements of different cities on the basis of definite calculation logic so as to adapt to the development requirements of different cities and realize wide applicability.

Drawings

In order to more clearly illustrate the embodiments or technical solutions in the prior art of the present invention, the drawings used in the description of the embodiments or prior art will be briefly described below, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic overall flow diagram of an embodiment of the present invention;

fig. 2 is a schematic diagram of a planning case area of an embodiment of the invention;

FIG. 3 is a layout area multi-source data integration diagram of an embodiment of the present invention;

FIG. 4 is a review diagram of the service coverage of a commercial site in accordance with an embodiment of the present invention;

FIG. 5 is a business site service satisfaction detection diagram of an embodiment of the present invention;

FIG. 6 is a plan area commercial site project scope report diagram of an embodiment of the present invention;

FIG. 7 is a block diagram of a planned business site presence business report, in accordance with an embodiment of the present invention;

FIG. 8 is a report of the layout and scale correction of a block business site according to an embodiment of the present invention;

FIG. 9 is a plan view of a block-out commercial site business plan according to an embodiment of the present invention;

FIG. 10 is a table of planning metrics for a grid-planning commercial site, in accordance with an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "opening," "upper," "lower," "thickness," "top," "middle," "length," "inner," "peripheral," and the like are used in an orientation or positional relationship that is merely for convenience in describing and simplifying the description, and do not indicate or imply that the referenced component or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the present invention.

The technical solution of the present invention is explained in detail below with the planning case and the accompanying drawing of a commercial site in a certain place, as shown in fig. 2.

As shown in fig. 1, a method for correcting the layout and scale of a commercial website based on uniformity comprises the following steps:

s1, acquiring basic data and constructing a database;

s2, correcting the layout of the commercial website;

s3, correcting the scale of the commercial network;

and S4, intelligently generating a planning report of the commercial network.

S1 includes five steps of S1.1, S1.2, S1.3, S1.4 and S1.5:

s1.1, collecting multi-source big data of a certain place in an open source data platform, wherein the multi-source big data comprises land boundary data, land property data, road network data, commercial network point data and population distribution data;

s1.2, spatial correction of multi-source big data, namely importing the multi-source big data collected in the S1.1 to a geographic information platform, matching coordinates and elevations of the multi-source large spatial data by using a spatial adaptation tool (spatial adaptation), and unifying data formats, as shown in FIG. 3;

s1.3, grading business network points, namely converting the collected data of the business network points in the place in the S1.1 into surface elements containing floor area, facility types and business area information, dividing all the business network points in the place according to 15-minute business network points, 10-minute business network points and 5-minute business network points according to the urban residential area planning and design standard GB50180-2018, and determining the planning construction indexes of the business network points in different levels and different types, wherein the specific indexes of the three business network points are shown in the following table:

s1.4, residential area space placement, namely, using a space association tool to associate certain population distribution data with a residential area space position element, converting the data into a surface element, obtaining a residential area surface element containing population information and area information, and calculating population density;

s1.5, generating a basic database, namely integrating various data in a geographic information platform, unifying data formats and forming a complete planning database of the commercial network points in a certain place.

S2 includes five steps of S2.1, S2.2, S2.3, S2.4 and S2.5:

s2.1, generating service ranges of all levels of commercial network points, namely determining according to the commercial network point classification and service radius in S1.3, respectively carrying out buffer area calculation on a 15-minute commercial network point, a 10-minute commercial network point and a 5-minute commercial network point in a certain place by using a buffer area generating tool, setting the radius of a 15-minute commercial network point buffer area to be 800 meters, the radius of a 10-minute commercial network point buffer area to be 500 meters and the radius of a 5-minute commercial network point buffer area to be 300 meters, and generating a buffer area, namely the total service range of the commercial network points of the level;

s2.2, checking the service coverage rate of each level of commercial network, namely, taking the intersection of the service range and the residential area range of each level of commercial network in the S2.1, and recording the area of the intersection part of the service range and the residential area range of a certain type of commercial network as S_{Making a business}Total residential area of S_{Live in}Then, the service coverage rate of the commercial network can be obtained by dividing the intersection area by the total area of the residential district

Specific calculation formula

Determining that the service coverage of each level of commercial network needs to reach 100%, if the service coverage of a certain level of commercial network reaches the standard, not correcting, otherwise, performing further layout correction, and calculating to obtain that the current situation is that the 15-minute commercial network service coverage is 91.3%, the 10-minute commercial network service coverage is 95.8%, and the 5-minute commercial network service coverage is 98.1%, which do not reach the standard, and performing further layout correction;

s2.3, detecting a business network service coverage blind area, namely using a topological tool to check the business network levels with the service coverage rate not reaching the standard, finding out all residential areas which are not covered by the business network service range of the level, finding out 16 residential areas which are not completely covered by the business network service of 15 minutes, 9 residential areas which are not completely covered by the business network service of 10 minutes and 7 residential areas which are not completely covered by the business network service of 5 minutes;

s2.4, newly adding commercial outlets, namely newly adding commercial outlet land of a certain level to residential areas which are not covered by the commercial outlets of the certain level on the residential areas inside or around the residential areas according to the positions and the sizes of the service coverage dead zones of the commercial outlets and the current land conditions, determining the building area of the newly added commercial outlets according to the regional area and the population of the non-radiated areas and the construction indexes of thousands of people of different types of commercial outlets determined by the S1.3, wherein the newly added commercial outlets are 12 in 15 minutes, 8 in 10 minutes and 7 in 15 minutes in the planning;

s2.5, rechecking the service coverage rate of the commercial network points, namely, continuously repeating the S2.1 and the S2.2 for the land model after the new commercial land is added, and checking the service coverage rate of the commercial network points until the coverage rate of the commercial network points of the three levels reaches the standard (the coverage rate is 100 percent), as shown in figure 4.

The above S3 includes six steps of S3.1, S3.2, S3.3, S3.4, S3.5 and S3.6:

s3.1, generating a single business network service range, namely generating Thiessen polygons (Sketchup) with the same number as that of all levels of business networks in a planning range according to all levels of business network distribution information generated in S2.5 by using a Thiessen polygon generation tool (sket), and taking the Thiessen polygons as the actual service range of the business networks;

s3.2, calculating a single business network service population, namely distributing the population in the planning range to each Thiessen polygon in proportion as the service population of the business network according to the residential area population data generated in the S1.4 and the business network service area data in the S3.1;

s3.3, calculating the service satisfaction of a single commercial site, namely calculating the thousand-person index of the single commercial site to the population service in the service range, recording the scale of the commercial site as N (unit: square meter) and the population in the service range as P (unit: person), and then calculating the current thousand-person index F of the commercial site to the population service in the service range_{Now that}(unit: square meter/person) ═ Nx 1000/P, with the planned thousand person index determined in S1.3 as F_Gauge(unit: square meter/person) to obtain the service satisfaction degree of the commercial network

As shown in fig. 5;

s3.4, detecting commercial outlets with the satisfaction degree needing to be corrected, namely, marking the commercial outlets with the service satisfaction degree lower than 100% as 'unsatisfied service outlets', marking the commercial outlets with the service satisfaction degree between 100% and 150% as 'satisfied service outlets', marking the commercial outlets with the service satisfaction degree higher than 150% as 'over-satisfied service outlets', detecting 21 commercial outlets with the service satisfaction degree lower than 100% in 15 minutes, 32 commercial outlets with the service satisfaction degree of 10 minutes and 45 commercial outlets with the service satisfaction degree of 5 minutes as 'unsatisfied service outlets', detecting 6 commercial outlets with the service satisfaction degree higher than 150% in 15 minutes, 11 commercial outlets with the service satisfaction degree of 10 minutes and 32 commercial outlets with the service satisfaction degree of 5 minutes as 'over-satisfied service outlets';

s3.5, correcting the scale of the commercial network points, namely adding new commercial areas to the plan of all the 'service unsatisfied network points' generated in S3.4, determining the numerical value of the added commercial areas according to the planned thousand-people index in S1.3, reducing the commercial areas to the plan of all the 'service over satisfied network points' generated in S3.4, and determining the numerical value of the reduced commercial areas according to the planned thousand-people index in S1.3;

and S3.6, rechecking the service satisfaction of the commercial network points, namely repeating the operation of S3.3 and S3.4 on the model with the newly increased or reduced commercial areas of part of the network points in S3.5 until all the service satisfaction of all the commercial network points of the three levels reaches the standard (between 100 and 150 percent).

The above S4 includes two steps S4.1 and S4.2:

s4.1, integrating the planning range, the current commercial site layout and scale, the planning commercial site layout and scale and the commercial site layout and scale adjustment information into a commercial network planning report, as shown in FIGS. 6-10;

and S4.2, connecting the commercial site planning report with a full-color ink-jet printer to print a paper document.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed.

Claims (6)

1. A business network layout and scale correction method based on uniformity is characterized by comprising the following steps:

s1, acquiring basic data and constructing a database;

s1.1, collecting multi-source big data of a certain place in an open source data platform, wherein the multi-source big data comprises land boundary data, land property data, road network data, commercial network point data and population distribution data;

s1.2, spatial correction of multi-source big data, namely importing the multi-source big data collected in the S1.1 into a geographic information platform, matching coordinates and elevations of the multi-source big spatial data by using a spatial correction tool, and unifying data formats;

s1.3, grading the commercial network points, namely converting the data of the commercial network points of a certain place collected in the S1.1 into surface elements containing floor area, facility type and business area information, dividing all the commercial network points of the certain place into three grades of 15-minute commercial network points, 10-minute commercial network points and 5-minute commercial network points, and determining the construction indexes of planning thousands of people of the commercial network points of different grades and different types;

s1.4, residential area space placement, namely, using a space association tool to associate certain population distribution data with a residential area space position element, converting the data into a surface element, obtaining a residential area surface element containing population information and area information, and calculating population density;

s1.5, generating a basic database, namely integrating various data in a geographic information platform, unifying data formats and forming a complete planning database of a certain place commercial network;

s2, correcting the layout of the commercial website;

s3, correcting the scale of the commercial network;

s4, intelligently generating a planning report of a commercial website;

the step S2 includes steps S2.1, S2.2, S2.3, S2.4 and S2.5:

s2.1, generating service ranges of all levels of commercial network points, namely, determining the service radius according to the commercial network point classification in the S1.3, respectively carrying out buffer area calculation on a 15-minute commercial network point, a 10-minute commercial network point and a 5-minute commercial network point in a certain place by using a buffer area generating tool, setting the radius of a 15-minute commercial network point buffer area to be 800 meters, the radius of a 10-minute commercial network point buffer area to be 500 meters and the radius of a 5-minute commercial network point buffer area to be 300 meters, and generating a buffer area, namely the total service range of the commercial network points of the level;

s2.2, checking the service coverage rate of each level of commercial network, namely, taking the intersection of the service range and the residential area range of each level of commercial network in the S2.1, and recording the area of the intersection part of the service range and the residential area range of a certain type of commercial network as S_{Making a business}Total residential area of S_{Live in}Then, the service coverage rate of the commercial network can be obtained by dividing the intersection area by the total area of the residential district

Specific calculation formula

Determining that the service coverage rate of each level of commercial network needs to reach 100%, if the service coverage rate of a certain level of commercial network reaches the standard, not correcting, otherwise, performing further layout correction;

s2.3, detecting a business network service coverage blind area, namely using a topological tool to check the business network levels with the service coverage rate not up to the standard, and finding out all residential areas which are not covered by the business network service range of the level;

s2.4, newly adding a commercial network point, namely newly adding a commercial network point land of a certain level to a residential area which is not covered by the commercial network point of the certain level on the residential area inside or around the residential area according to the position and size of a service coverage blind area of the commercial network point and the current land situation, and determining the building area of the newly added commercial network point according to the regional area and population of the non-radiated area and the construction indexes of thousands of people of different types of commercial network points determined in the S1.3;

and S2.5, rechecking the service coverage rate of the commercial network points, namely, continuously repeating the S2.1 and the S2.2 for the land model after the new commercial land is added, and checking the service coverage rate of the commercial network points until the service coverage rate of the commercial network points of the three levels reaches the standard.

2. The method for correcting the layout and scale of a business website based on uniformity as claimed in claim 1, wherein said S3 comprises steps S3.1, S3.2, S3.3, S3.4, S3.5 and S3.6:

s3.1, generating a single commercial network point service range by using a Thiessen polygon generation tool, and generating Thiessen polygons with the number equal to that of all levels of commercial network points in a planning range according to all levels of commercial network point distribution information generated in the S2.5 to serve as the actual service range of the commercial network points;

s3.2, calculating a single business network service population, namely proportionally distributing the population in a planning range to each Thiessen polygon as the service population of the business network according to the residential area population data generated in the S1.4 and the business network service area data in the S3.1;

s3.3, calculating the service satisfaction of a single commercial network point, namely calculating the thousand-person index of the single commercial network point to the population service in the service range, recording the scale of the commercial network point as N, recording the population in the service range as P, and then calculating the current thousand-person index F of the commercial network point to the population service in the service range_{Now that}Taking the planned thousand-person index determined in the S1.3 as F_GaugeObtaining the service satisfaction degree of the commercial network

S3.4, detecting the commercial network points with the satisfaction degree needing to be corrected, namely recording the commercial network points with the service satisfaction degree lower than 100 percent as 'service unsatisfied network points', recording the commercial network points with the service satisfaction degree between 100 percent and 150 percent as 'service satisfied network points', and recording the commercial network points with the service satisfaction degree higher than 150 percent as 'over-service satisfied network points';

s3.5, correcting the scale of the commercial network points, namely adding new commercial areas to the plan of all the 'service unsatisfied network points' generated in S3.4, determining the numerical value of the added commercial areas according to the planned thousand-people index in S1.3, reducing the commercial areas to the plan of all the 'service over satisfied network points' generated in S3.4, and determining the numerical value of the reduced commercial areas according to the planned thousand-people index in S1.3;

and S3.6, rechecking the service satisfaction of the commercial network points, namely repeating the S3.3 and the S3.4 on the model which is newly added or reduced with the commercial area of part of the network points in the S3.5 until all the service satisfaction of all the commercial network points of the three levels reaches the standard.

3. The method for correcting the layout and scale of a business website based on the equality as claimed in claim 1, wherein the step S4 comprises steps S4.1 and S4.2:

s4.1, integrating the planning range, the current commercial site layout and scale, the planning commercial site layout and scale and the commercial site layout and scale adjustment information into a commercial network planning report;

and S4.2, connecting the commercial site planning report with a full-color ink-jet printer to print a paper document.

4. The method for correcting the layout and scale of a commercial site based on the equality of good will be described in claim 1, wherein the type of business of a 5 minute commercial site in S1.3 comprises a convenience store and a community restaurant, the scale of the convenience store is 500 square meters per thousand people, and the scale of the community restaurant is 200 square meters per thousand people.

5. The method for correcting the layout and scale of commercial outlets based on the equality of good performance of claim 1, wherein the commercial types of the commercial outlets of 10 minutes in S1.3 comprise a vegetable field, a living service, a restaurant, a shopping mall and a bank outlet, the scale of the vegetable field is 100 square meters per thousand people, the scale of the living service is 900 square meters per thousand people, the scale of the restaurant is 850 square meters per thousand people, the scale of the shopping mall is 700 square meters per thousand people, and the scale of the bank outlet is 110 square meters per thousand people.

6. The method according to claim 1, wherein the business types of 15-minute business sites in S1.3 include postal service, telecommunication and leisure entertainment, the postal scale is 40 square meters per thousand people, the telecommunication scale is 70 square meters per thousand people, and the leisure entertainment scale is 120 square meters per thousand people.

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