CN114638554B - Marketing business health index evaluation joint control method and system - Google Patents

Abstract

The invention provides a marketing business health index evaluation joint control method and a marketing business health index evaluation joint control system, wherein the marketing business health index evaluation joint control method comprises the following steps: decomposing the marketing data corresponding to each distribution area to obtain a plurality of marketing subdata, and generating a marketing service health index corresponding to each distribution area according to the marketing subdata, the geographic attribute data and the distribution area attribute data of each distribution area; determining a checking connection radius according to the evaluation information, the geographic attribute data and the distribution area attribute data of each distribution area; sequencing all the transformer areas according to the evaluation information to obtain a first transformer area sequence, and obtaining the number of the evaluation information in the lowest health index interval in the first transformer area sequence to obtain a first evaluation number value; and if the number of the first group is larger than or equal to the first evaluation number value, generating a plurality of first inspection sub-paths by taking all the station areas with the lowest evaluation information as inspection starting points and combining the inspection connection radii corresponding to each station area, and generating a first total maintenance path according to the first inspection sub-paths.

Description

Marketing business health index evaluation joint control method and system

Technical Field

The invention relates to the technical field of data processing, in particular to a marketing business health index evaluation joint control method and system.

Background

In an electrical power system, a transformer area refers to the supply range or area of a (single) transformer. Different areas may have different power requirements due to the lack of geographic information, and different areas may have different size ranges. The number of the transformer stations in each target area is large, and in the current technical scheme, the governing priorities corresponding to the plurality of transformer stations and the joint control mode of the plurality of transformer stations cannot be automatically determined, so that the efficiency of power inspection in the transformer stations is reduced.

Disclosure of Invention

The embodiment of the invention provides a marketing business health index evaluation joint control method and system, which can automatically determine treatment priorities corresponding to a plurality of districts and joint control modes of the plurality of districts by combining data of a plurality of dimensions, determine a corresponding inspection path according to geographic information of each district, reasonably determine the inspection path of an inspection group while ensuring the preferential inspection of the districts with more problems, and improve the inspection control efficiency of the inspection group.

In a first aspect of the embodiments of the present invention, a marketing service health index evaluation joint control method is provided, in which a plurality of distribution areas are respectively provided with a marketing service acquisition module, and a server performs data processing on marketing data sent by the marketing service acquisition module through the following steps, and specifically includes:

decomposing the marketing data corresponding to each distribution area to obtain a plurality of marketing subdata, and generating a marketing service health index corresponding to each distribution area according to the marketing subdata, the geographic attribute data and the distribution area attribute data of each distribution area;

determining corresponding evaluation information according to a health index interval corresponding to each marketing business health index, wherein each health index interval has evaluation information preset correspondingly, and determining a corresponding inspection connection radius according to the evaluation information, the geographic attribute data and the transformer area attribute data of each transformer area;

sequencing all the transformer areas according to the evaluation information to obtain a first transformer area sequence, and obtaining the number of the evaluation information with the lowest number in the first transformer area sequence to obtain a first evaluation number value;

acquiring the number of a first group of joint control inspection groups, if the number of the first group is greater than or equal to a first evaluation number value, taking all the station areas with the lowest evaluation information as inspection starting points, generating a plurality of first inspection sub-paths by combining inspection connection radiuses corresponding to each station area, and generating a first total overhaul path according to the first inspection sub-paths;

if the number of the first group is smaller than the first evaluation number value, obtaining a marketing business health index of a distribution area corresponding to the lowest evaluation information, and generating a second inspection sub-path related to all the lowest evaluation information according to the marketing business health index;

and generating all the third inspection sub-paths of the station areas with non-lowest evaluation information by taking the inspection starting points and/or the relay connection points of all the second inspection sub-paths as the inspection starting points of the third inspection sub-paths and combining the inspection connection radii corresponding to each station area, and generating a second total inspection path according to the second inspection sub-paths and the third inspection sub-paths.

Optionally, in a possible implementation manner of the first aspect, the decomposing the marketing data corresponding to each distribution room to obtain a plurality of marketing subdata, and generating the marketing service health index corresponding to the distribution room according to the marketing subdata, the geographic attribute data, and the distribution room attribute data of each distribution room specifically includes:

generating a corresponding first sub-coefficient of each distribution area according to a plurality of marketing subdata of each distribution area, wherein the marketing subdata comprises any one or more of electric energy use information, line loss information and electric charge recovery rate information;

carrying out quantization processing on the geographic attribute data of each platform area to obtain an attribute quantization value, comparing the attribute quantization value with a reference quantization value to generate a corresponding second sub-coefficient of the platform area, wherein the geographic attribute data is any one or more of a mountain area, a plain and a hill;

comparing different types of station zone quantization indexes in the station zone attribute data with preset quantization indexes respectively to generate corresponding station zone third sub-coefficients;

and after normalization processing is respectively carried out on the first sub-coefficient, the second sub-coefficient and the third sub-coefficient, fusion calculation is carried out to obtain a marketing business health index corresponding to each distribution area.

Optionally, in a possible implementation manner of the first aspect, the determining, according to the evaluation information, the geographic attribute data, and the station area attribute data of each station area, a corresponding inspection connection radius specifically includes:

acquiring a preset connection radius corresponding to the evaluation information of each station area;

and carrying out offset processing on the preset connection radius according to the second sub-coefficient and the third sub-coefficient to obtain a check connection radius.

Optionally, in a possible implementation manner of the first aspect, in the step of obtaining a first station zone sequence by sorting all station zones according to the evaluation information and obtaining the number of evaluation information with the lowest number in the first station zone sequence to obtain a first evaluation number value, the method specifically includes:

sequencing according to the evaluation information of all the distribution areas and an initial sequencing strategy to obtain an initial distribution area sequence;

acquiring a category quantity value of a station area corresponding to evaluation information of each category in an initial station area sequence, if the category quantity value is larger than the evaluation information corresponding to 1;

acquiring marketing business health indexes of all the distribution areas larger than 1, and performing secondary sorting on the distribution areas with the same evaluation information according to the marketing business health indexes of the distribution areas larger than 1 according to a secondary sorting strategy to obtain a first distribution area sequence;

and determining the number of the evaluation information with the lowest in the first station zone sequence according to the initial sorting strategy and the secondary sorting strategy.

Optionally, in a possible implementation manner of the first aspect, the obtaining a first group number of the joint control inspection groups, and if the first group number is greater than or equal to a first evaluation number value, taking all the station areas with the lowest evaluation information as inspection starting points, generating a plurality of first inspection sub-paths by combining inspection connection radii corresponding to each station area, and generating a first total overhaul path according to the first inspection sub-paths specifically includes:

if the number of the first group is larger than or equal to the first evaluation number value, each station area of the lowest evaluation information is allocated to a joint control check group, and the station area of the lowest evaluation information is used as a check starting point of a first check sub-path;

acquiring a checking connection radius corresponding to a checking starting point of a first checking sub-path as a first checking connection radius, and acquiring checking connection radii of other districts which are not distributed with joint control checking groups around the checking starting point as a second checking connection radius;

acquiring a first unallocated quantity corresponding to a station area where a first check connection radius and a second check connection radius are intersected;

if the first unallocated quantity is equal to 1, connecting the inspection starting point with a distribution area of an unallocated joint control inspection group to obtain a first inspection sub-path;

and if the first unallocated quantity is greater than 1, determining a relay connection point according to the evaluation information and/or the marketing business health index corresponding to the cell of each unallocated joint control inspection group, and connecting the inspection starting point with the relay connection point to obtain a first inspection sub-path.

Optionally, in a possible implementation manner of the first aspect, if the first unallocated number is greater than 1, determining a relay connection point according to evaluation information and/or a marketing service health index corresponding to a cell of each unallocated joint control inspection group, and connecting the inspection start point and the relay connection point to obtain a first inspection sub-path specifically includes:

if the first unallocated quantity is greater than 1, acquiring evaluation information corresponding to the station areas of each unallocated joint control inspection group, and selecting the station area with the lowest evaluation information;

if the number of the selected station areas with the lowest evaluation information is 1, the station area with the lowest evaluation information is used as a relay connection point;

and if the number of the selected station areas with the lowest evaluation information is more than 1, acquiring marketing service health indexes corresponding to all the station areas with the lowest evaluation information respectively, and selecting the station areas with the lowest marketing service health indexes as relay connection points.

Optionally, in a possible implementation manner of the first aspect, if the first group number is smaller than the first evaluation number value, the step of obtaining a marketing business health index of a distribution area corresponding to the lowest evaluation information, and generating a second checking sub-path related to all the lowest evaluation information according to the marketing business health index specifically includes:

determining a plurality of transformer areas corresponding to the first group number as the inspection starting points of a second inspection sub-path according to the marketing business health index of the transformer area corresponding to the lowest evaluation information;

acquiring first coordinate information of a platform area corresponding to the lowest evaluation information which is not taken as an inspection starting point, and acquiring first distance information according to the first coordinate information and overhaul coordinate information of the inspection starting point;

and sequentially acquiring the marketing business health index of the distribution area corresponding to each piece of first coordinate information, sequentially locking the inspection starting point corresponding to each piece of first coordinate information according to the marketing business health index and the first distance information, and connecting to generate a second inspection sub-path.

Optionally, in a possible implementation manner of the first aspect, in the step of sequentially obtaining the marketing business health index of the distribution area corresponding to each piece of first coordinate information, sequentially locking the inspection starting point corresponding to each piece of first coordinate information according to the marketing business health index and the first distance information, and connecting to generate the second inspection sub-path, the method specifically includes:

traversing and sequencing the distribution area with the first coordinate information according to the marketing business health index to obtain a traversing and sequencing result;

sequentially traversing the station areas corresponding to the first coordinate information according to the traversing and sorting result, and selecting an inspection starting point corresponding to the shortest first distance information;

locking the selected inspection starting point, so that the locked inspection starting point cannot be selected again in the station area corresponding to the next piece of first coordinate information;

and connecting the platform area corresponding to each piece of first coordinate information as a relay connection point with the corresponding inspection starting point to generate a second inspection sub-path.

Optionally, in a possible implementation manner of the first aspect, in the step of generating, by using the inspection start points and/or the relay connection points of all the second inspection sub-paths as the inspection start points of the third inspection sub-paths, all the third inspection sub-paths of the station areas with the non-lowest evaluation information in combination with the inspection connection radius corresponding to each station area, and generating the second total inspection path according to the second inspection sub-paths and the third inspection sub-paths, the method specifically includes:

if the second checking sub-path is judged to have the relay connection point, taking the relay connection point of the second checking sub-path as a checking starting point of a third checking sub-path;

if the second checking sub-path is judged to have no relay connection point, taking the checking starting point of the second checking sub-path as the checking starting point of a third checking sub-path;

acquiring a checking connection radius corresponding to a checking starting point of a third checking sub-path as a third checking connection radius, and acquiring checking connection radii of the station areas of other unallocated joint control checking groups around the checking starting point as a fourth checking connection radius;

acquiring a second unallocated quantity corresponding to a station area intersected by the third check connection radius and the fourth check connection radius;

if the second unallocated quantity is equal to 1, connecting the inspection starting point of the third inspection sub-path with the distribution area of the unallocated joint control inspection group to obtain a third inspection sub-path;

if the second unallocated quantity is greater than 1, determining a relay connection point according to evaluation information and/or a marketing service health index corresponding to a distribution area of each unallocated joint control inspection group, and obtaining a third inspection sub-path from an inspection starting point of the third inspection sub-path and the relay connection point;

and splicing the corresponding second checking sub-path and the third checking sub-path to generate a second total checking path.

In a second aspect of the embodiments of the present invention, a marketing business health index evaluation joint control system is provided, where a plurality of distribution areas are respectively provided with a marketing business acquisition module, and a server performs data processing on marketing data sent by the marketing business acquisition module through the following modules, and specifically includes:

the decomposition module is used for decomposing the marketing data corresponding to each distribution area to obtain a plurality of marketing subdata, and generating a marketing business health index corresponding to the distribution area according to the marketing subdata, the geographic attribute data and the distribution area attribute data of each distribution area;

the determining module is used for determining corresponding evaluation information according to a health index interval corresponding to each marketing business health index, each health index interval is provided with evaluation information preset correspondingly, and a corresponding checking connection radius is determined according to the evaluation information, the geographic attribute data and the transformer area attribute data of each transformer area;

the sorting module is used for sorting all the transformer areas according to the evaluation information to obtain a first transformer area sequence, and obtaining the number of the evaluation information with the lowest number in the first transformer area sequence to obtain a first evaluation number value;

the system comprises a first path generation module, a second path generation module and a third path generation module, wherein the first path generation module is used for acquiring the number of a first group of joint control inspection groups, if the number of the first group is larger than or equal to a first evaluation number value, all the areas with the lowest evaluation information are used as inspection starting points, a plurality of first inspection sub paths are generated by combining inspection connection radiuses corresponding to all the areas, and a first total overhaul path is generated according to the first inspection sub paths;

the second path generation module is used for acquiring the marketing business health index of the distribution area corresponding to the lowest evaluation information if the number of the first group is smaller than the first evaluation number value, and generating a second inspection sub-path related to all the lowest evaluation information according to the marketing business health index;

and the third path generating module is used for generating all the third inspection sub paths of the station areas with non-lowest evaluation information by taking the inspection starting points and/or the relay connection points of all the second inspection sub paths as the inspection starting points of the third inspection sub paths and combining the inspection connection radii corresponding to each station area, and generating a second total inspection path according to the second inspection sub paths and the third inspection sub paths.

In a third aspect of the embodiments of the present invention, a storage medium is provided, in which a computer program is stored, which, when being executed by a processor, is adapted to implement the method according to the first aspect of the present invention and various possible designs of the first aspect of the present invention.

According to the marketing business health index evaluation joint control method and system provided by the invention, the marketing data of a plurality of distribution areas can be acquired through the marketing business acquisition module of each distribution area, and are decomposed into a plurality of marketing subdata, and the marketing business health index of each distribution area is obtained by respectively carrying out fusion calculation on the plurality of marketing subdata. The method and the system can determine the corresponding evaluation information according to the marketing business health index, so that a worker does not need to check the corresponding index when checking the business condition of a certain distribution area, can intuitively master the condition of the distribution area through the evaluation information, and is easy for the worker to check and know the conditions of different distribution areas. In addition, the invention can sequence the plurality of areas according to the evaluation information and the marketing business health index of each area, and further obtain the inspection sub-paths of different scenes, so that the technical scheme provided by the invention can determine the optimum inspection path by combining the condition of the marketing data of the areas and the distance between the areas, and the inspection control efficiency is improved.

According to the technical scheme provided by the invention, when the marketing business health index is calculated, the electric energy use information, the line loss information, the electric charge recovery rate information, the terrain information and the attribute information of each distribution area are integrated to further obtain a multi-dimensional marketing business health index, and the corresponding inspection connection radius is obtained by combining the evaluation information, the terrain information and the attribute information of each distribution area, so that the inspection requirement of the area can be reflected according to the size of the inspection connection radius in the inspection process, the marketing business health index of each distribution area can be more accurately determined, and the area with a large inspection requirement is preferentially inspected, so that the area with a marketing risk is rapidly determined and inspected.

According to the technical scheme provided by the invention, when the number of the first group is smaller than the value of the first evaluation number, the generation of the second total inspection path is decomposed, and when the second inspection sub-path is obtained, the station areas corresponding to all the lowest evaluation information are firstly connected, and the distance between the station areas is not considered in the mode, so that the station areas corresponding to all the lowest evaluation information can be preferentially inspected, the inspection control efficiency is not considered at the moment, and the inspection quality is required to be ensured. Then, after all the zones corresponding to the lowest evaluation information are set in the path of the priority inspection, the invention can set the inspection path by combining the distances between the zones again, thereby improving the inspection control efficiency of the inspection group. Through the technical scheme, when the inspection paths are planned in a plurality of scenes, the inspection control efficiency is improved on the premise that the inspection quality is ensured to be necessary.

Drawings

Fig. 1 is a schematic view of an application scenario of the technical solution provided by the present invention;

FIG. 2 is a flow chart of a first embodiment of a marketing business health index evaluation joint control method;

FIG. 3 is a flow chart of a second embodiment of a marketing business health index evaluation joint control method;

fig. 4 is a structural diagram of a first embodiment of a marketing business health index evaluation joint control system.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

The terms "first," "second," "third," "fourth," and the like in the description and in the claims, as well as in the drawings, if any, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in sequences other than those illustrated or described herein.

It should be understood that, in the various embodiments of the present invention, the sequence numbers of the processes do not mean the execution sequence, and the execution sequence of the processes should be determined by the functions and the internal logic, and should not constitute any limitation to the implementation process of the embodiments of the present invention.

It should be understood that in the present application, "comprising" and "having" and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

It should be understood that, in the present invention, "a plurality" means two or more. "and/or" is only an association relationship describing an associated object, and means that there may be three relationships, for example, a and/or B, and may mean: a exists alone, A and B exist simultaneously, and B exists alone. The character "/" generally indicates that the former and latter associated objects are in an "or" relationship. "comprises A, B and C" and "comprises A, B, C" means that A, B, C all comprise, "comprises A, B or C" means that one of A, B, C comprises, "comprises A, B and/or C" means that any 1 or any 2 or 3 of A, B, C comprises.

It should be understood that in the present invention, "B corresponding to a", "a corresponds to B", or "B corresponds to a" means that B is associated with a, and B can be determined from a. Determining B from a does not mean determining B from a alone, but may be determined from a and/or other information. And the matching of A and B means that the similarity of A and B is greater than or equal to a preset threshold value.

As used herein, "if" may be interpreted as "at … …" or "when … …" or "in response to a determination" or "in response to a detection", depending on the context.

The technical means of the present invention will be described in detail with reference to specific examples. The following several specific embodiments may be combined with each other, and details of the same or similar concepts or processes may not be repeated in some embodiments.

As shown in fig. 1, for an application scenario schematic diagram of the technical solution provided by the present invention, a target area may have a plurality of areas, the plurality of areas are respectively provided with a marketing service acquisition module, the marketing service acquisition module may include an electric energy monitoring device, an input terminal, and other devices, and the marketing data of each area can be acquired by the marketing service acquisition module, and the marketing data of each area includes a plurality of marketing subdata. The marketing subdata may be electric energy usage information, line loss information, electric charge recovery rate information, etc., and the type of marketing data may be changed at different time and space. For example, the electric energy use information can be obtained through electric energy monitoring and transmitting equipment such as an ammeter, and the line loss information and the electric charge recovery rate information can be obtained through active input of staff through a marketing service acquisition module. The server is in wireless connection with the marketing business acquisition modules and respectively receives the marketing data sent by each marketing business acquisition module.

As shown in fig. 2, the method for joint control of marketing service health index evaluation provided by the present invention includes the following steps:

and S110, decomposing the marketing data corresponding to each distribution area to obtain a plurality of marketing subdata, and generating a marketing business health index corresponding to the distribution area according to the marketing subdata, the geographic attribute data and the distribution area attribute data of each distribution area. According to the technical scheme provided by the invention, after the server receives the marketing data corresponding to each distribution area, the marketing data is firstly decomposed into a plurality of marketing subdata and obtained. In the actual distribution process of the distribution areas, different marketing situations may exist in different areas, different marketing subdata is generated at this time, and factors influencing the marketing subdata are many, such as local personnel situations, management situations of the distribution areas, and the like. And different distribution areas have differences in spatial distribution, so that marketing subdata in the corresponding distribution area can be considered when the marketing business health index is obtained, corresponding geographic attribute data and distribution area attribute data can also be considered, and the marketing business health index obtained by the method has more referenced dimensions and is more accurate in calculation.

In a possible implementation manner of the technical solution provided by the present invention, as shown in fig. 3, step S110 specifically includes:

step S1101, generating a corresponding sub-zone first sub-coefficient according to a plurality of marketing subdata of each zone, where the marketing subdata includes any one or more of electric energy usage information, line loss information, and electric charge recovery rate information. The method comprises the steps that a corresponding first sub-coefficient of a distribution area is generated according to a plurality of marketing sub-data, the more electric energy use information and the higher electric charge recovery rate information prove that the marketing behavior of the distribution area is better, so that the corresponding marketing business health index is larger at the moment, the larger the line loss information is, the worse the corresponding marketing situation is, and the corresponding marketing business health index is smaller at the moment. And then the first sub-coefficient of the distribution area is determined according to the relationship between the marketing subdata and the marketing business health index, the first sub-coefficient of the distribution area can be calculated through the following formula,

wherein, the first and the second end of the pipe are connected with each other,

is a first sub-coefficient of the first sub-coefficient,

in order to use the weight for the electric energy,

in order to provide the information on the use of electric energy,

the weight of the recovery rate of the electric charge is,

in order to obtain information on the rate of recovery of electricity,

is a weight of the line loss, and,

in order to be the line loss information,

is a first coefficient standard value.

The invention can use the weight through the electric energy

Power charge recovery rate weight

And line loss weight

The electric energy use information, the electric charge recovery rate information and the line loss information are weighted respectively, the magnitude of each weight can be set by a worker according to the magnitude of the corresponding information, all the information is in the same magnitude dimension after being weighted, then a first sub-coefficient is obtained by calculation in combination with a first coefficient standard value, and the first sub-coefficient can reflect the influence trend of a plurality of marketing sub-data on the marketing service health index.

Step S1102, performing quantization processing on the geographic attribute data of each platform area to obtain an attribute quantization value, and comparing the attribute quantization value with a reference quantization value to generate a corresponding second sub-coefficient of the platform area, where the geographic attribute data is any one or more of a mountain area, a plain, and a hill. According to the technical scheme provided by the invention, the quantitative attribute value can be obtained by performing quantitative processing according to the geographic attribute data, in the actual quantitative process, for example, the quantitative value of a mountain area can be 5, the quantitative value of a plain can be 10, the quantitative value of a hill can be 8 and the like, the platform areas of different geographic attribute data can reflect the erection difficulty of the corresponding power grid, the more difficult the erection of the power grid, the lower the corresponding health condition of the power grid is, and the more complicated the power grid erection, the more the problems and potential risks are caused. The second sub-coefficient of the station area can be calculated by the following formula,

wherein, the first and the second end of the pipe are connected with each other,

is the second sub-coefficient of the first sub-coefficient,

in order to be a weight of the geographic attribute,

in order to quantize the value for the attribute,

in order to be the reference quantized value,

is a second coefficient standard value.

According to the invention, the ratio of the attribute quantized value to the reference quantized value after comparison can be weighted through the geographic attribute weight, and the final second sub-coefficient can be obtained by calculation in combination with the second coefficient standard value. The larger the second subsystem number is, the more stable and healthy the corresponding distribution area is.

Step S1103, comparing the different types of transformer area quantization indexes in the transformer area attribute data with preset quantization indexes respectively to generate corresponding transformer area third sub-coefficients. The platform area attribute data at least comprises two categories of quantitative indexes, namely an economic index and a population index, wherein the economic index can be GDP data, and the population index can be resident population quantity. The third sub-coefficient of the station area can be calculated by the following formula,

wherein the content of the first and second substances,

is a third sub-coefficient of the first sub-coefficient,

in order to be the economic weight, the weight of the weight,

in order to quantify the economic indicators,

is a standard economic indicator and is used as a standard,

in order to be a weight of the population,

in order to quantify the indicators of the population,

is the standard population index of the human body,

in order to be the reference quantized value,

is the third coefficient standard value. By passing

The proportion of the quantitative economic index to the standard economic index can be obtained through the economic weight

And performing weighting processing. By passing

The proportion of the quantitative population index to the standard population index can be obtained through population weight

And performing weighting processing. Finally pass through

And calculating to obtain a final third sub-coefficient.

And step S1104, after the first sub-coefficient, the second sub-coefficient and the third sub-coefficient are respectively subjected to normalization processing, fusion calculation is carried out to obtain a marketing business health index corresponding to each distribution area. According to the technical scheme provided by the invention, after the first sub-coefficient, the second sub-coefficient and the third sub-coefficient are obtained, normalization processing is respectively carried out to obtain the final marketing business health index, the marketing business health index is calculated through the following formula,

wherein, the first and the second end of the pipe are connected with each other,

in order to provide an index of health of the marketing service,

is a first normalized value of the first normalized value,

in order to be the second normalized value,

and the third normalization value is obtained by respectively carrying out normalization processing on the sub-coefficients through the normalization values in the above mode, so that the final marketing business health index can be obtained, and the marketing business health index can reflect the marketing business health condition of the corresponding distribution area. The larger the marketing business health index is, the healthier the marketing business is proved, the more stable the local power grid is, and the smaller the marketing business health index is, the healthier the marketing business is proved, and the more unstable the local power grid is.

And S120, determining corresponding evaluation information according to a health index interval corresponding to each marketing business health index, wherein each health index interval has evaluation information preset correspondingly, and determining a corresponding checking connection radius according to the evaluation information, the geographic attribute data and the distribution area attribute data of each distribution area. According to the technical scheme provided by the invention, a plurality of health index intervals can be preset, the calculated marketing business health indexes can be classified through the health index intervals, and the evaluation information corresponding to the marketing business health indexes is obtained, wherein the evaluation information can be the five types of highest, high, middle, low and lowest. The five evaluation information can be displayed in different colors, such as red, orange, yellow, blue and green, which respectively represent the health status of different distribution areas, and the health status of the corresponding distribution area can be easily checked by the user.

And, the invention will confirm the correspondent check and connect the radius according to evaluation information, geographic attribute data and district attribute data of each district, if the evaluation information of each district is lower, geographic attribute data and district attribute data correspondent second coefficient and third sub-number are smaller, check and connect the radius to be greater, make while checking the group to check, the corresponding district is easier to be connected and formed and checked the sub-route.

In a possible implementation manner of the technical solution provided by the present invention, step S120 specifically includes:

and acquiring a preset connection radius corresponding to the evaluation information of each station area. The invention can set corresponding preset connecting radius for each platform area in advance.

And carrying out offset processing on the preset connection radius according to the second sub-coefficient and the third sub-coefficient to obtain a check connection radius. Because the geographic attributes, the economic conditions and the personnel conditions of different transformer areas are different, the invention can calculate the preset connection radius by combining the geographic attributes, the economic conditions and the personnel conditions to obtain the inspection connection radius. The check connection radius is calculated by the following formula,

wherein the content of the first and second substances,

in order to check the radius of the connection,

in order to preset the radius of the connection,

the first preset constant value, the inspection connection radius is inversely proportional to the sum of the second sub-coefficient and the third sub-coefficient, if the second sub-coefficient and the third sub-coefficient of the station area are smaller, the larger the corresponding inspection connection radius is, the easier it is to be selected to form an inspection path, and the probability of being inspected preferentially is improved.

Step S130, all the transformer areas are sequenced according to the evaluation information to obtain a first transformer area sequence according to the evaluation information, and the number of the evaluation information with the lowest number in the first transformer area sequence is obtained to obtain a first evaluation number value. After obtaining the evaluation information of all the areas, the invention sorts all the areas according to the respective corresponding evaluation information, and the area corresponding to the lowest evaluation information is the least healthy area and should be preferentially checked, so that the invention can count the number of the lowest evaluation information to obtain the corresponding first evaluation number value, which may be 1, 2, 5, etc.

Since the evaluation information has corresponding health index sections, the evaluation information is fixed, and thus the present invention may have a plurality of evaluation information with the lowest statistics.

In a possible implementation manner of the technical solution provided by the present invention, step S130 specifically includes:

and sequencing according to the evaluation information of all the distribution areas and an initial sequencing strategy to obtain an initial distribution area sequence. The invention firstly sorts the evaluation information of all the transformer areas according to an initial sorting strategy, for example, 5 transformer areas exist, and the evaluation information and the marketing business health index corresponding to the 5 transformer areas are respectively shown in table 1:

the initial ordering policy may be a descending ordering policy, that is, the initial station zone sequence at this time is station zone 1 → station zone 4 → station zone 3 → station zone 2 → station zone 5, the initial station zone sequence only refers to the numerical values of the evaluation information dimensions of all station zones, and it can be understood that the ordering at this time is the initial ordering.

And acquiring the number value of the types of the station areas corresponding to the evaluation information of each type in the initial station area sequence, if the number value of the types is larger than 1, corresponding evaluation information is obtained. At this time, the invention can obtain the type quantity value of the station area corresponding to all types of evaluation information, and the invention locks the evaluation information corresponding to the type quantity value larger than 1. For example, the lowest evaluation information corresponds to the station zone 1 and the station zone 4, and the number value of the types at this time is 2.

If all the kinds of quantity values are less than or equal to 1, the quantity of the station areas corresponding to the evaluation information of each kind is less than or equal to 1, so that the initial station area sequence can be directly used as the first station area sequence at this time, the station areas with the same evaluation information do not need to be sequenced again, and the generation efficiency of the first station area sequence is improved.

And acquiring the marketing business health indexes of all the districts larger than 1, and performing secondary sorting on the districts with the same evaluation information according to the marketing business health indexes of the districts larger than 1 according to a secondary sorting strategy to obtain a first district sequence. After the station areas 1 and 4 corresponding to the lowest evaluation information are locked, the marketing business health indexes of the station areas larger than 1, namely the marketing business health indexes corresponding to the station areas 1 and 4 respectively, are obtained, at the moment, the station areas with the same evaluation information are sequenced according to a secondary sequencing strategy, namely the sequencing results of the station areas 1 and 4 are the station areas 4 → the station areas 1.

And determining the number of the evaluation information with the lowest in the first station zone sequence according to the initial sorting strategy and the secondary sorting strategy. The secondary ranking policy may be a descending ranking policy. According to the technical scheme provided by the invention, after the initial sorting strategy and the secondary sorting strategy, the descending sorting result of the station area with the lowest evaluation information and the lowest evaluation information can be obtained.

Step S140, obtaining the first group number of the joint control inspection groups, if the first group number is larger than or equal to the first evaluation number value, taking all the areas with the lowest evaluation information as inspection starting points, generating a plurality of first inspection sub-paths by combining the inspection connection radius corresponding to each area, and generating a first total overhaul path according to the first inspection sub-paths. In the actual inspection process, different target areas can have different joint control inspection groups, and each joint control inspection group corresponds to a plurality of workers and is used for performing routine inspection, maintenance and the like on the marketing data of each distribution area. The number of the joint control inspection groups can be configured according to local personnel compilation and actual conditions, and then a plurality of joint control inspection groups are obtained.

If the number of the first groups is larger than or equal to the first evaluation quantity value, the number of the first groups is proved to be large at this moment, all the station areas with the lowest evaluation information can be used as the inspection starting points, and the purpose and the effect of preferentially inspecting the station areas with the lowest evaluation information are achieved.

In a possible implementation manner of the technical solution provided by the present invention, step S140 specifically includes:

and if the number of the first groups is larger than or equal to the first evaluation number value, allocating one joint control check group to each station area with the lowest evaluation information, and taking the station area with the lowest evaluation information as a check starting point of a first check sub-path. In this case, the present invention may use the station areas of all the lowest evaluation information as the inspection start points of the first inspection sub-paths. The joint control check group that is not assigned to the station area to which the lowest evaluation information is assigned may be assigned to a station area to which the non-lowest evaluation information is not assigned at random.

And acquiring a check connection radius corresponding to a check starting point of the first check sub-path as a first check connection radius, and acquiring check connection radii of the station areas of other unallocated joint control check groups around the check starting point as a second check connection radius. After the inspection starting point of each first inspection sub-path is determined, the invention obtains the first inspection connection radius of each inspection starting point and the second inspection connection radius of the platform area which is not distributed with the joint inspection group.

And acquiring a first unallocated number corresponding to a station area intersected by the first check connection radius and the second check connection radius. When two adjacent areas are connected, all areas with the first checking connection radius and the second checking connection radius intersected are determined, the areas within the first checking connection radius and the second checking connection radius prove that the distances between the two places are short, and the first unallocated number corresponding to the intersected areas can be determined because different numbers of areas with different distances are possibly distributed in the east, south, west, north and other directions of one area.

And if the first unallocated number is equal to 1, connecting the inspection starting point with the distribution area of the unallocated joint control inspection group to obtain a first inspection sub-path. If the first unallocated number is equal to 1, it is proved that the number of the zones of the unallocated joint control inspection group is only 1 at the moment, so that the zone corresponding to the inspection starting point and the zone of the unallocated joint control inspection group can be directly connected to obtain a first inspection sub-path at the moment.

And if the first unallocated quantity is greater than 1, determining a relay connection point according to the evaluation information and/or the marketing business health index corresponding to the cell of each unallocated joint control inspection group, and connecting the inspection starting point with the relay connection point to obtain a first inspection sub-path. If the first unallocated number is greater than 1, it is proved that the station area corresponding to the inspection starting point can be connected with the station areas of a plurality of unallocated joint control inspection groups to obtain a first inspection sub-path, so that the relay connection point needs to be determined by combining the evaluation information and/or the marketing service health index to obtain the first inspection sub-path.

In a possible embodiment, in the step of determining a relay connection point according to evaluation information and/or a marketing service health index corresponding to a cell of each unassigned joint control inspection group if the first unassigned number is greater than 1, and connecting the inspection start point with the relay connection point to obtain a first inspection sub-path, the technical solution provided by the present invention specifically includes:

and if the first unallocated quantity is greater than 1, acquiring evaluation information corresponding to the distribution areas of each unallocated joint control checking group, and selecting the distribution area with the lowest evaluation information. When the first unallocated quantity is greater than 1, the station area with the lowest selected evaluation information is obtained first, the station area with the lowest evaluation information is corresponding to the station area with the lowest evaluation information, for example, two station areas exist, the evaluation information corresponding to one station area is medium, the evaluation information corresponding to one station area is high, and the station area with the medium evaluation information is the lowest station area.

And if the number of the selected station areas with the lowest evaluation information is 1, the station area with the lowest evaluation information is used as a relay connection point. When the number of the station areas with the lowest evaluation information is 1, then 1 station area with the lowest evaluation information can be determined at this time, and can be directly used as a relay connection point.

And if the number of the selected station areas with the lowest evaluation information is more than 1, acquiring marketing service health indexes corresponding to all the station areas with the lowest evaluation information respectively, and selecting the station areas with the lowest marketing service health indexes as relay connection points. When the number of the cells of the lowest evaluation information is greater than 1, it is impossible to determine 1 cell as a relay connection point, so that the lowest marketing service health index corresponding to the lowest evaluation information needs to be used at this time, and a less healthy cell is used as a relay connection point at this time. All the first inspection sub-paths constitute a first total overhaul path.

Through the steps, unhealthy areas can be preferentially selected when the relay connection points are determined, and thus, unhealthy and required areas can be preferentially checked by an inspection group during inspection. After the 1 st relay connection point is obtained, the 1 st relay connection point is used as an inspection starting point and the 2 nd relay connection point is used as the 1 st relay connection point according to the method of step S140, the 2 nd relay connection point corresponding to the 1 st relay connection point is determined until all the first inspection sub-paths are connected, and finally, the staff performs validation and supplementary connection to obtain a final first total maintenance path.

And S150, if the first group quantity is smaller than the first evaluation quantity value, obtaining the marketing business health index of the distribution area corresponding to the lowest evaluation information, and generating a second check sub-path related to all the lowest evaluation information according to the marketing business health index. At this time, the number of the inspection sub-groups is small, and the corresponding inspection sub-group cannot be allocated to the station area corresponding to each piece of the lowest evaluation information, so that at this time, a second inspection sub-path needs to be generated in the station area corresponding to the lowest evaluation information first, and it can be understood that the second inspection sub-path is a path formed by all the station areas of the lowest evaluation information.

In a possible implementation manner of the technical solution provided by the present invention, step S150 specifically includes:

and determining a plurality of districts corresponding to the first group number as the inspection starting points of the second inspection sub-path according to the marketing business health index of the district corresponding to the lowest evaluation information. The marketing business health index of the distribution area corresponding to the lowest evaluation information is obtained firstly, the inspection starting point of the second inspection sub-path is obtained according to the marketing business health index, and the lowest evaluation information and the distribution area corresponding to the smaller marketing business health index can be used as the inspection starting point. For example, the number of the first group is 2, the first evaluation quantity value is 4, at this time, 2 zones need to be selected from the zones of the 4 lowest evaluation information as the inspection starting points of the second inspection sub-path, and at this time, the zone corresponding to the 2 smaller marketing business health indexes in the 4 lowest evaluation information is taken as the inspection starting point of the second inspection sub-path.

And acquiring first coordinate information of the station area corresponding to the lowest evaluation information which is not taken as the inspection starting point, and acquiring first distance information according to the first coordinate information and the overhaul coordinate information of the inspection starting point. In this case, the present invention may obtain first coordinate information of a station area corresponding to the lowest evaluation information that is not a starting point for inspection, where the first coordinate information may be longitude information and latitude information, and may obtain first distance information between two inspection starting points and the station area that is not a starting point for inspection, respectively, from the first coordinate information and inspection coordinate information of the inspection starting points, where there are four pieces of first distance information.

And sequentially acquiring the marketing business health index of the distribution area corresponding to each piece of first coordinate information, sequentially locking the inspection starting point corresponding to each piece of first coordinate information according to the marketing business health index and the first distance information, and connecting to generate a second inspection sub-path. The method and the system select the platform area corresponding to the lowest evaluation information with smaller marketing business health index firstly, and then select the inspection starting point corresponding to the first distance information with the reduced two first distance information to obtain the second inspection sub-path, so that when the second inspection sub-path is obtained, the inspection starting point is preferentially connected with the platform area with smaller marketing business health index and closer distance, and the bad and unhealthy platform area is preferentially inspected.

In a possible embodiment, the technical solution provided by the present invention specifically includes, in the step of sequentially obtaining the marketing business health index of the distribution area corresponding to each piece of first coordinate information, sequentially locking the inspection starting point corresponding to each piece of first coordinate information according to the marketing business health index and the first distance information, and connecting to generate the second inspection sub-path:

and traversing and sequencing the distribution room with the first coordinate information according to the marketing business health index to obtain a traversing and sequencing result. According to the invention, the health sorting condition of all the station areas with the first coordinate information can be obtained according to the traversal sorting result, so that the health sorting condition can be obtained in the subsequent process of obtaining the second inspection sub-path.

And traversing the platform area corresponding to each first coordinate information in sequence according to the traversing and sorting result, and selecting the inspection starting point corresponding to the shortest first distance information. The invention compares the station areas according to the traversing sorting result and selects the nearest inspection starting point corresponding to each station area, so that the invention can obtain a second connection path by taking the station area corresponding to the first coordinate information as the center.

And locking the selected inspection starting point, so that the locked inspection starting point cannot be selected again in the platform area corresponding to the next piece of first coordinate information. The invention locks the inspection starting point for forming the second connection path, and avoids the second connection path from being selected by the station areas corresponding to other first coordinate information, and the mode can minimize the number of nodes in all the second connection paths, thereby ensuring that the station areas corresponding to all the lowest evaluation information can be determined quickly.

And connecting the platform area corresponding to each piece of first coordinate information as a relay connection point with the corresponding inspection starting point to generate a second inspection sub-path.

Step S160, generating all the third inspection sub-paths of the station areas with the lowest evaluation information by using the inspection start points and/or the relay connection points of all the second inspection sub-paths as the inspection start points of the third inspection sub-paths and combining the inspection connection radii corresponding to each station area, and generating a second total inspection path according to the second inspection sub-paths and the third inspection sub-paths.

In an actual scenario, there may be some station areas corresponding to the two lowest evaluation information in the second inspection sub-path, and at this time, the relay connection point of the second inspection sub-path is the inspection starting point of the third inspection sub-path. Some second checking sub-paths only have a station area corresponding to the lowest evaluation information, and the checking starting point of the second checking sub-path is the checking starting point of the third checking sub-path.

After the inspection starting point of the third inspection sub-path is determined, the third inspection sub-path of all the station areas with non-lowest evaluation information is generated according to the inspection connection radius corresponding to each station area, and finally the second inspection sub-path and the third inspection sub-path are combined to generate a final second total inspection path.

In a possible implementation manner of the technical solution provided by the present invention, step S160 specifically includes:

and if the second checking sub-path has the relay connection point, taking the relay connection point of the second checking sub-path as a checking starting point of a third checking sub-path.

And if the second checking sub-path is judged to have no relay connection point, taking the checking starting point of the second checking sub-path as the checking starting point of the third checking sub-path.

And acquiring a check connection radius corresponding to the check starting point of the third check sub-path as a third check connection radius, and acquiring the check connection radius of the station areas of other unallocated joint control check groups around the check starting point as a fourth check connection radius. The present invention determines the position of each of the middleboxes in the third inspection sub-path based on the third inspection connection radius and the fourth inspection connection radius.

And acquiring a second unallocated number corresponding to the station area intersected by the third check connection radius and the fourth check connection radius.

And if the second unallocated number is equal to 1, connecting the inspection starting point of the third inspection subpath with the station area of the unallocated joint control inspection group to obtain a third inspection subpath. If the first unallocated number is equal to 1, it is proved that the number of the zones of the unallocated joint control inspection group is only 1 at the moment, so that the zone corresponding to the inspection starting point and the zone of the unallocated joint control inspection group can be directly connected to obtain a third inspection sub-path at the moment.

And if the second unallocated quantity is greater than 1, determining a relay connection point according to the evaluation information and/or the marketing business health index corresponding to the distribution area of each unallocated joint control inspection group, and obtaining a third inspection sub-path from the inspection starting point of the third inspection sub-path and the relay connection point. If the second unallocated number is greater than 1, it is proved that the station area corresponding to the inspection starting point can be connected with the station areas of a plurality of unallocated joint control inspection groups to obtain a third inspection sub-path, so that the relay connection point needs to be determined by combining the evaluation information and/or the marketing service health index to obtain the third inspection sub-path.

And splicing the corresponding second checking sub-path and the third checking sub-path to generate a second total checking path. For example, the second inspection sub-path is station zone 4 (inspection start point of the second inspection sub-path) → station zone 1 (relay connection point of the second inspection sub-path), the third inspection sub-path is station zone 1 (inspection start point of the third inspection sub-path) → station zone 3 (relay connection point of the third inspection sub-path), and at this time, the second inspection sub-path and the third inspection sub-path are spliced to generate a second total inspection path, that is, station zone 4 → station zone 1 → station zone 3.

In order to implement the marketing service health index evaluation joint control method provided by the present invention, the present invention further provides a marketing service health index evaluation joint control system, wherein the marketing service acquisition modules are respectively arranged in a plurality of distribution areas, and the server performs data processing on the marketing data sent by the marketing service acquisition modules through the following modules, as shown in fig. 4, the data processing method specifically includes:

the analysis module is used for analyzing and processing the marketing data corresponding to each distribution area to obtain a plurality of marketing subdata, and generating a marketing business health index corresponding to the distribution area according to the marketing subdata, the geographic attribute data and the distribution area attribute data of each distribution area;

the determining module is used for determining corresponding evaluation information according to a health index interval corresponding to each marketing business health index, each health index interval is provided with the evaluation information which is preset correspondingly, and a corresponding checking connection radius is determined according to the evaluation information, the geographical attribute data and the distribution area attribute data of each distribution area;

the sorting module is used for sorting all the distribution areas according to the evaluation information to obtain a first distribution area sequence and obtaining the number of the evaluation information with the lowest number in the first distribution area sequence to obtain a first evaluation number value;

the system comprises a first path generation module, a second path generation module and a third path generation module, wherein the first path generation module is used for acquiring the number of a first group of joint control inspection groups, if the number of the first group is larger than or equal to a first evaluation number value, all the areas with the lowest evaluation information are used as inspection starting points, a plurality of first inspection sub paths are generated by combining inspection connection radiuses corresponding to all the areas, and a first total overhaul path is generated according to the first inspection sub paths;

the second path generation module is used for acquiring the marketing business health index of the distribution area corresponding to the lowest evaluation information if the number of the first group is smaller than the first evaluation number value, and generating a second inspection sub-path related to all the lowest evaluation information according to the marketing business health index;

and the third path generating module is used for generating all the third inspection sub paths of the station areas with non-lowest evaluation information by taking the inspection starting points and/or the relay connection points of all the second inspection sub paths as the inspection starting points of the third inspection sub paths and combining the inspection connection radii corresponding to each station area, and generating a second total inspection path according to the second inspection sub paths and the third inspection sub paths.

The present invention also provides a storage medium having a computer program stored therein, the computer program being executable by a processor to implement the methods provided by the various embodiments described above.

The storage medium may be a computer storage medium or a communication medium. Communication media includes any medium that facilitates transfer of a computer program from one place to another. Computer storage media may be any available media that can be accessed by a general purpose or special purpose computer. For example, a storage medium is coupled to the processor such that the processor can read information from, and write information to, the storage medium. Of course, the storage medium may also be integral to the processor. The processor and the storage medium may reside in an Application Specific Integrated Circuits (ASIC). Additionally, the ASIC may reside in user equipment. Of course, the processor and the storage medium may reside as discrete components in a communication device. The storage medium may be read-only memory (ROM), random-access memory (RAM), CD-ROMs, magnetic tapes, floppy disks, optical data storage devices, and the like.

The present invention also provides a program product comprising execution instructions stored in a storage medium. The at least one processor of the device may read the execution instructions from the storage medium, and the execution of the execution instructions by the at least one processor causes the device to implement the methods provided by the various embodiments described above.

In the above embodiments of the terminal or the server, it should be understood that the Processor may be a Central Processing Unit (CPU), other general-purpose processors, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), etc. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like. The steps of a method disclosed in connection with the present invention may be embodied directly in a hardware processor, or in a combination of the hardware and software modules within the processor.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (6)

1. The marketing business health index evaluation joint control method is characterized in that marketing business acquisition modules are respectively arranged in a plurality of distribution areas, and a server performs data processing on marketing data sent by the marketing business acquisition modules through the following steps of:

decomposing the marketing data corresponding to each distribution area to obtain a plurality of marketing subdata, and generating a marketing business health index corresponding to each distribution area according to the marketing subdata, the geographic attribute data and the distribution area attribute data of each distribution area;

generating a corresponding first sub-coefficient of each distribution area according to a plurality of marketing subdata of each distribution area, wherein the marketing subdata comprises any one or more of electric energy use information, line loss information and electric charge recovery rate information;

carrying out quantization processing on the geographic attribute data of each platform area to obtain an attribute quantization value, comparing the attribute quantization value with a reference quantization value to generate a corresponding second sub-coefficient of the platform area, wherein the geographic attribute data is any one or more of a mountain area, a plain and a hill;

comparing different types of station zone quantization indexes in the station zone attribute data with preset quantization indexes respectively to generate corresponding station zone third sub-coefficients;

after normalization processing is respectively carried out on the first sub-coefficient, the second sub-coefficient and the third sub-coefficient, fusion calculation is carried out to obtain a marketing business health index corresponding to each distribution area;

determining corresponding evaluation information according to a health index interval corresponding to each marketing business health index, wherein each health index interval has evaluation information preset correspondingly, and determining a corresponding inspection connection radius according to the evaluation information, the geographic attribute data and the transformer area attribute data of each transformer area;

acquiring a preset connection radius corresponding to the evaluation information of each station area;

carrying out migration processing on the preset connection radius according to the second sub-coefficient and the third sub-coefficient to obtain a check connection radius;

the check connection radius is calculated by the following formula,

wherein the content of the first and second substances,

in order to check the radius of the connection,

in order to preset the radius of the connection,

a first predetermined constant value is set to a first value,

is the second sub-coefficient of the first sub-coefficient,

the inspection connection radius is inversely proportional to the sum of the second sub-coefficient and the third sub-coefficient, if the second sub-coefficient and the third sub-coefficient of the station area are smaller, the corresponding inspection connection radius is larger, the inspection connection radius is easier to select to form an inspection path, and the probability of preferential inspection is improved;

sequencing all the transformer areas according to the evaluation information to obtain a first transformer area sequence, and obtaining the number of the evaluation information with the lowest number in the first transformer area sequence to obtain a first evaluation number value;

acquiring the number of first groups of joint control inspection groups, if the number of the first groups is greater than or equal to a first evaluation number value, taking all the areas with the lowest evaluation information as inspection starting points, generating a plurality of first inspection sub-paths by combining inspection connection radiuses corresponding to each area, and generating a first total overhaul path according to the first inspection sub-paths;

if the first group quantity is smaller than the first evaluation quantity value, acquiring the marketing business health index of the distribution area corresponding to the lowest evaluation information, and generating a second inspection sub-path related to all the lowest evaluation information according to the marketing business health index;

determining a plurality of transformer areas corresponding to the first group number as the inspection starting points of a second inspection sub-path according to the marketing business health index of the transformer area corresponding to the lowest evaluation information;

acquiring first coordinate information of a platform area corresponding to the lowest evaluation information which is not taken as an inspection starting point, and acquiring first distance information according to the first coordinate information and overhaul coordinate information of the inspection starting point;

sequentially acquiring a marketing business health index of a distribution room corresponding to each piece of first coordinate information, sequentially locking an inspection starting point corresponding to each piece of first coordinate information according to the marketing business health index and the first distance information, and connecting to generate a second inspection sub-path;

traversing and sequencing the distribution area with the first coordinate information according to the marketing business health index to obtain a traversing and sequencing result;

sequentially traversing the station areas corresponding to the first coordinate information according to the traversing and sorting result, and selecting an inspection starting point corresponding to the shortest first distance information;

locking the selected inspection starting point, so that the locked inspection starting point cannot be selected again in the station area corresponding to the next piece of first coordinate information;

connecting the station area corresponding to each piece of first coordinate information as a relay connecting point with the corresponding inspection starting point to generate a second inspection sub-path;

and generating all the third inspection sub-paths of the station areas with non-lowest evaluation information by taking the inspection starting points and/or the relay connection points of all the second inspection sub-paths as the inspection starting points of the third inspection sub-paths and combining the inspection connection radius corresponding to each station area, and generating a second total inspection path according to the second inspection sub-paths and the third inspection sub-paths.

2. The marketing business health index evaluation joint control method of claim 1,

in the step of obtaining a first station sequence by sorting all the station areas according to the evaluation information and obtaining the number of the evaluation information with the lowest number in the first station sequence to obtain a first evaluation number value, the method includes:

sequencing according to the evaluation information of all the distribution areas and an initial sequencing strategy to obtain an initial distribution area sequence;

acquiring a category quantity value of a station area corresponding to evaluation information of each category in an initial station area sequence, if the category quantity value is larger than the evaluation information corresponding to 1;

acquiring marketing business health indexes of all the distribution areas larger than 1, and performing secondary sorting on the distribution areas with the same evaluation information according to the marketing business health indexes of the distribution areas larger than 1 according to a secondary sorting strategy to obtain a first distribution area sequence;

and determining the number of the evaluation information with the lowest in the first station zone sequence according to the initial sorting strategy and the secondary sorting strategy.

3. The marketing business health index evaluation joint control method of claim 1,

the acquiring a first group number of the joint control inspection groups, if the first group number is greater than or equal to a first evaluation number value, generating a plurality of first inspection sub-paths by taking all the station areas with the lowest evaluation information as inspection starting points and combining inspection connection radii corresponding to each station area, and generating a first total overhaul path according to the first inspection sub-paths includes:

if the number of the first group is larger than or equal to the first evaluation number value, each station area of the lowest evaluation information is allocated to a joint control check group, and the station area of the lowest evaluation information is used as a check starting point of a first check sub-path;

acquiring a checking connection radius corresponding to a checking starting point of a first checking sub-path as a first checking connection radius, and acquiring checking connection radii of other districts which are not distributed with joint control checking groups around the checking starting point as a second checking connection radius;

acquiring a first unallocated quantity corresponding to a station area where a first check connection radius and a second check connection radius are intersected;

if the first unallocated quantity is equal to 1, connecting the inspection starting point with a distribution area of an unallocated joint control inspection group to obtain a first inspection sub-path;

and if the first unallocated quantity is greater than 1, determining a relay connection point according to the evaluation information and/or the marketing business health index corresponding to the cell of each unallocated joint control inspection group, and connecting the inspection starting point with the relay connection point to obtain a first inspection sub-path.

4. The marketing business health index evaluation joint control method of claim 3,

if the first unallocated quantity is greater than 1, determining a relay connection point according to evaluation information and/or a marketing service health index corresponding to a cell of each unallocated joint control inspection group, and connecting the inspection starting point with the relay connection point to obtain a first inspection sub-path, wherein the steps comprise:

if the first unallocated quantity is greater than 1, acquiring evaluation information corresponding to the station areas of each unallocated joint control inspection group, and selecting the station area with the lowest evaluation information;

if the number of the selected station areas with the lowest evaluation information is 1, the station area with the lowest evaluation information is used as a relay connection point;

and if the number of the selected station areas with the lowest evaluation information is more than 1, acquiring marketing service health indexes corresponding to all the station areas with the lowest evaluation information respectively, and selecting the station areas with the lowest marketing service health indexes as relay connection points.

5. The marketing business health index evaluation joint control method of claim 1,

the step of generating a second total check path according to the second check sub-path and the third check sub-path, wherein the check start point and/or the relay connection point of all the second check sub-paths are used as the check start point of the third check sub-path, and all the third check sub-paths of the station areas with non-lowest evaluation information are generated according to the check connection radius corresponding to each station area, comprises the following steps:

if the second checking sub-path is judged to have the relay connection point, taking the relay connection point of the second checking sub-path as a checking starting point of a third checking sub-path;

if the second checking sub-path is judged to have no relay connection point, taking the checking starting point of the second checking sub-path as the checking starting point of a third checking sub-path;

acquiring a checking connection radius corresponding to a checking starting point of a third checking sub-path as a third checking connection radius, and acquiring checking connection radii of the station areas of other unallocated joint control checking groups around the checking starting point as a fourth checking connection radius;

acquiring a second unallocated quantity corresponding to a station area intersected by the third check connection radius and the fourth check connection radius;

if the second unallocated quantity is equal to 1, connecting the inspection starting point of the third inspection sub-path with the distribution area of the unallocated joint control inspection group to obtain a third inspection sub-path;

if the second unallocated quantity is greater than 1, determining a relay connection point according to the evaluation information and/or the marketing service health index corresponding to the cell of each unallocated joint control inspection group, and obtaining a third inspection sub-path from the inspection starting point of the third inspection sub-path and the relay connection point;

and splicing the corresponding second checking sub-path and the third checking sub-path to generate a second total checking path.

6. Marketing business health index evaluation joint control system, its characterized in that sets up marketing business collection module respectively in a plurality of districts, and the server carries out data processing to the marketing data that marketing business collection module sent through following module, specifically includes:

the analysis module is used for analyzing and processing the marketing data corresponding to each distribution area to obtain a plurality of marketing subdata, and generating a marketing business health index corresponding to the distribution area according to the marketing subdata, the geographic attribute data and the distribution area attribute data of each distribution area;

generating a corresponding first sub-coefficient of each distribution area according to a plurality of marketing subdata of each distribution area, wherein the marketing subdata comprises any one or more of electric energy use information, line loss information and electric charge recovery rate information;

carrying out quantization processing on the geographic attribute data of each platform area to obtain an attribute quantization value, comparing the attribute quantization value with a reference quantization value to generate a corresponding second sub-coefficient of the platform area, wherein the geographic attribute data is any one or more of a mountain area, a plain and a hill;

comparing different types of station zone quantization indexes in the station zone attribute data with preset quantization indexes respectively to generate corresponding station zone third sub-coefficients;

after normalization processing is respectively carried out on the first sub-coefficient, the second sub-coefficient and the third sub-coefficient, fusion calculation is carried out to obtain a marketing business health index corresponding to each distribution area;

the determining module is used for determining corresponding evaluation information according to a health index interval corresponding to each marketing business health index, each health index interval is provided with the evaluation information which is preset correspondingly, and a corresponding checking connection radius is determined according to the evaluation information, the geographical attribute data and the distribution area attribute data of each distribution area;

acquiring a preset connection radius corresponding to the evaluation information of each station area;

carrying out migration processing on the preset connection radius according to the second sub-coefficient and the third sub-coefficient to obtain a check connection radius;

the check connection radius is calculated by the following formula,

wherein, the first and the second end of the pipe are connected with each other,

in order to check the radius of the connection,

in order to preset the radius of the connection,

a first predetermined constant value is set to a first value,

is a second sub-coefficient of the first sub-coefficient,

the inspection connection radius is inversely proportional to the sum of the second sub-coefficient and the third sub-coefficient, if the second sub-coefficient and the third sub-coefficient of the station area are smaller, the corresponding inspection connection radius is larger, the inspection connection radius is easier to select to form an inspection path, and the probability of preferential inspection is improved;

the sorting module is used for sorting all the distribution areas according to the evaluation information to obtain a first distribution area sequence and obtaining the number of the evaluation information with the lowest number in the first distribution area sequence to obtain a first evaluation number value;

the system comprises a first path generation module, a second path generation module and a third path generation module, wherein the first path generation module is used for acquiring the number of a first group of joint control inspection groups, if the number of the first group is larger than or equal to a first evaluation number value, all the areas with the lowest evaluation information are used as inspection starting points, a plurality of first inspection sub paths are generated by combining inspection connection radiuses corresponding to all the areas, and a first total overhaul path is generated according to the first inspection sub paths;

the second path generation module is used for acquiring the marketing business health index of the distribution area corresponding to the lowest evaluation information if the number of the first group is smaller than the first evaluation number value, and generating a second inspection sub-path related to all the lowest evaluation information according to the marketing business health index;

determining a plurality of transformer areas corresponding to the first group number as the inspection starting points of a second inspection sub-path according to the marketing business health index of the transformer area corresponding to the lowest evaluation information;

acquiring first coordinate information of a platform area corresponding to the lowest evaluation information which is not taken as an inspection starting point, and acquiring first distance information according to the first coordinate information and overhaul coordinate information of the inspection starting point;

sequentially acquiring a marketing business health index of a distribution room corresponding to each piece of first coordinate information, sequentially locking an inspection starting point corresponding to each piece of first coordinate information according to the marketing business health index and the first distance information, and connecting to generate a second inspection sub-path;

traversing and sequencing the distribution area with the first coordinate information according to the marketing business health index to obtain a traversing and sequencing result;

sequentially traversing the platform area corresponding to each piece of first coordinate information according to the traversing and sorting result, and selecting an inspection starting point corresponding to the shortest first distance information;

locking the selected inspection starting point, so that the locked inspection starting point cannot be selected again in the station area corresponding to the next piece of first coordinate information;

connecting the station area corresponding to each piece of first coordinate information as a relay connecting point with the corresponding inspection starting point to generate a second inspection sub-path;

and the third path generating module is used for generating all the third inspection sub paths of the station areas with non-lowest evaluation information by taking the inspection starting points and/or the relay connection points of all the second inspection sub paths as the inspection starting points of the third inspection sub paths and combining the inspection connection radius corresponding to each station area, and generating a second total inspection path according to the second inspection sub paths and the third inspection sub paths.

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