CN116991964A - Method, system and storage medium for processing green electricity data of regional users - Google Patents
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Abstract
The invention provides a method, a system and a storage medium for processing green electricity data of regional users, comprising the following steps: determining map nodes corresponding to each green electricity user in the map data, and acquiring the green electricity data of each user in the green electricity database and setting corresponding to the corresponding map nodes; generating a corresponding multi-level division interactive interface based on a preset area division strategy; inputting the region positioning information into a user generation model to obtain a corresponding first user green electricity list, and obtaining a first positioning region based on the region positioning information; inputting the user information into a graph generation model to obtain a corresponding second positioning area, and obtaining a second user green electricity list based on the user information; and combining the first positioning area and the second positioning area to obtain a combined positioning area, combining the first user list and the second user list to obtain a combined user list, and outputting the combined positioning area and the combined user list to a target end.
Description
Technical Field
The present invention relates to data processing technologies, and in particular, to a method, a system, and a storage medium for processing green electricity data of a regional user.
Background
With the increasing importance of green energy, more and more users are actively engaged in using and producing green electricity. Green electricity means that its carbon dioxide emission is zero or approaches zero during the production of electricity, because of the lower impact on the environment compared to electricity produced by other means (e.g., thermal power generation). The main sources of green electricity are solar energy, wind power, biomass energy and geothermal energy.
In the prior art, in order to more effectively manage green electricity data in an area, green electricity positions, green electricity data and the like of a plurality of users are often recorded and carded in a form. However, the user can view and analyze the green electricity data only through the form, which cannot quickly obtain a desired analysis result in combination with the map information and the analysis requirement of the user.
Therefore, how to combine the map information and the analysis requirement of the user to assist the user to quickly obtain the required analysis result becomes an urgent problem to be solved.
Disclosure of Invention
The embodiment of the invention provides a method, a system and a storage medium for processing green electricity data of regional users, which can combine map information and analysis requirements of users to assist the users to quickly obtain required analysis results.
In a first aspect of an embodiment of the present invention, a method for processing green electricity data of a regional user is provided, including:
determining map nodes corresponding to each green electricity user in map data, and acquiring green electricity data of each user in a green electricity database and corresponding map nodes, wherein the green electricity data at least comprises green electricity generation information and/or green electricity consumption information;
generating a corresponding multi-level division interactive interface based on a preset region division strategy, wherein the multi-level division interactive interface is used for respectively calling a graph generation model and a user generation model;
if the region division data of the green electricity users obtained based on the multi-stage division interactive interface are judged to comprise region positioning information, inputting the region positioning information into a user generation model to obtain a corresponding first user green electricity list, and obtaining a first positioning region based on the region positioning information;
if the region division data of the green electricity users obtained based on the multi-level division interactive interface are judged to comprise user information, inputting the user information into a graph generation model to be processed to obtain a corresponding second positioning region, and obtaining a second green electricity list of the users based on the user information;
And combining the first positioning area and the second positioning area to obtain a combined positioning area, combining the first user list and the second user list to obtain a combined user list, and outputting the combined positioning area and the combined user list to a target end.
Optionally, in one possible implementation manner of the first aspect, the determining, in the map data, a map node corresponding to each green electricity user, and acquiring green electricity data of each user in the green electricity database and setting the green electricity data corresponding to the corresponding map node, where the green electricity data includes at least green electricity generation information and/or green electricity consumption information includes:
determining corresponding green electricity users in original users in map data according to user configuration data, or establishing new green electricity users in the map data based on the user configuration data;
and obtaining the original coordinates or newly added coordinates of the green electricity users to obtain corresponding map nodes, and setting the green electricity data and the user labels of each user to correspond to the corresponding map nodes.
Optionally, in one possible implementation manner of the first aspect, the generating a corresponding multi-level partitioning interaction interface based on a preset region partitioning policy, where the multi-level partitioning interaction interface is configured to invoke a graphics generation model and a user generation model respectively, includes:
Generating a corresponding multi-level division interactive interface based on a region division strategy by interacting with a management end, wherein the multi-level division interactive interface comprises a green electricity type selection sub-interface which is used for selecting green electricity generation information and/or green electricity users corresponding to green electricity consumption information;
the multi-level division interactive interface comprises a model calling sub-interface, and the model calling sub-interface is used for calling a corresponding graph generation model and/or a user generation model to perform data processing.
Optionally, in one possible implementation manner of the first aspect, if it is determined that the area division data obtained based on the multi-level division interactive interface includes area location information, the area location information is input to a user generation model to obtain a corresponding first user list, and the obtaining a first location area based on the area location information includes:
if the user terminal is judged to select a model calling sub-interface corresponding to the user generated model, acquiring area positioning information and green electricity selection information included in the area division data of the user;
the user generation model generates a corresponding first positioning area in map data based on the area positioning information, and a green electricity user corresponding to map nodes in the first positioning area is obtained to obtain an initial user list;
And reserving corresponding green electricity users in the initial user list based on the green electricity selection information to obtain a first user list.
Optionally, in one possible implementation manner of the first aspect, if it is determined that the area division data obtained based on the multi-level division interactive interface includes user information, the user information is input to a graphics generation model to obtain a corresponding second positioning area, and a second user green electricity list is obtained based on the user information, including:
if the user terminal is judged to select a model calling sub-interface corresponding to the graph generation model, user information and green electricity selection information contained in the regional division data of the user are obtained, wherein the user information comprises green electricity users;
the graph generating model acquires map nodes corresponding to the user information, and performs region division in map data based on coordinates of all the map nodes to obtain corresponding second positioning regions;
and counting all user information and corresponding green electricity type information to obtain a second user green electricity list, wherein the green electricity type information corresponds to the green electricity selection information.
Optionally, in one possible implementation manner of the first aspect, the graphics generating model obtains map nodes corresponding to the user information, and performs area division in map data based on coordinates of all map nodes to obtain a corresponding second positioning area, including:
Obtaining extreme value coordinates in coordinates of the map nodes, wherein the extreme value coordinates comprise longitude maximum values, longitude minimum values, latitude maximum values and latitude minimum values;
generating an extremum line corresponding to the extremum coordinate, wherein the extremum line comprises a longitude maximum line, a longitude minimum line, a latitude maximum line and a latitude minimum line;
taking a closed section formed by the extremum line in the map data as an initial positioning area, and taking the closed section as a second positioning area if the initial positioning area does not reach a shrinking condition;
and if the initial positioning area is judged to reach the shrinking condition, carrying out shrinking treatment on the initial positioning area to obtain the special-shaped second positioning area.
Optionally, in one possible implementation manner of the first aspect, if the initial positioning area is judged to reach the shrinking condition, the shrinking processing is performed on the initial positioning area to obtain a special-shaped second positioning area, including:
segmenting the extremum lines according to preset segmenting distances to enable each extremum line to have a plurality of extremum sub-lines, and determining the relative direction of each extremum line towards the central line corresponding to the central point of the initial positioning area as the moving direction of each extremum sub-line;
Moving the extreme value sub-line according to the moving direction until any map node in the moving direction is equal to a preset distance;
if the extreme value sub-line is judged to move to the longest distance according to the moving direction, stopping moving the extreme value sub-line;
and after judging that all the extreme value sub-lines respectively move, connecting edge points of adjacent extreme value sub-lines through the complementary lines to obtain the special-shaped second positioning area.
Optionally, in one possible implementation manner of the first aspect, the zoom-out condition is reached when it is determined that a distance between any extremum sub-line and a corresponding map node in a moving direction of the extremum sub-line is greater than a preset distance. Optionally, in one possible implementation manner of the first aspect, the combining the first positioning area and the second positioning area to obtain a combined positioning area, combining the first user list and the second user list to obtain a combined user list, and outputting the combined positioning area and the combined user list to a target end includes:
if the first positioning area and the second positioning area are judged to be adjacent areas or partial overlapping areas, deleting adjacent lines or overlapping lines of the adjacent areas or the partial overlapping areas of the first positioning area and the second positioning area;
Determining other extreme value sub-lines or supplementary lines respectively connected with adjacent lines or overlapping lines deleted by the first positioning area and the second positioning area as to-be-connected lines, and connecting all to-be-connected lines to obtain a combined positioning area;
if the first positioning area and the second positioning area are not adjacent areas or partially overlapped areas, the areas occupied by the first positioning area and the second positioning area in the map data are reserved to obtain a combined positioning area.
Optionally, in one possible implementation manner of the first aspect, the combining the first positioning area and the second positioning area to obtain a combined positioning area, combining the first user list and the second user list to obtain a combined user list, and outputting the combined positioning area and the combined user list to a target end includes:
if the first user list and the second user list are judged to have overlapped users, the overlapped users are deleted and then combined to obtain a combined user list, and the combined positioning area and the combined user list are output to a target end.
In a second aspect of an embodiment of the present invention, there is provided a regional user green electricity data processing system, including:
the system comprises an acquisition module, a storage module and a display module, wherein the acquisition module is used for determining map nodes corresponding to each green electricity user in map data, acquiring green electricity data of each user in a green electricity database and corresponding map nodes, and the green electricity data at least comprises green electricity generation information and/or green electricity consumption information;
The model generation module is used for generating a corresponding multi-level division interactive interface based on a preset region division strategy, and the multi-level division interactive interface is used for respectively calling a graph generation model and a user generation model;
the first input module is used for inputting the region positioning information into a user generation model to obtain a corresponding first user green electricity list if the region division data of the green electricity users obtained based on the multi-level division interactive interface are judged to comprise the region positioning information, and obtaining a first positioning region based on the region positioning information;
the second input module is used for inputting the user information into the graph generation model to obtain a corresponding second user green electricity list if judging that the region division data of the green electricity user obtained based on the multi-level division interactive interface comprises the user information, and obtaining a second positioning region based on the region positioning information;
and the combination module is used for combining the first positioning area and the second positioning area to obtain a combined positioning area, combining the first user list and the second user list to obtain a combined user list, and outputting the combined positioning area and the combined user list to a target end.
In a third aspect of an embodiment of the present invention, there is provided an electronic device including: a memory, a processor and a computer program stored in the memory, the processor running the computer program to perform the first aspect of the invention and the methods that the first aspect may relate to.
In a fourth aspect of embodiments of the present invention, there is provided a storage medium having stored therein a computer program for implementing the method of the first aspect and the various possible aspects of the first aspect when executed by a processor.
The beneficial effects are that: 1. the present solution aims to more efficiently process green electricity data. First, it determines a map node corresponding to each green electricity user in map data, and associates the green electricity data of each user with the corresponding map node. Then, a preset area division strategy is adopted to generate multi-level division interactive interfaces which are used for different types of data processing, and a first user list and a first positioning area are generated through a user generation model. If the region division data contains user information, it will generate a second location area and a second user green list via the graphics generation model. Finally, the location areas and the user list are combined into a combined location area and a combined user list, and output to the target end. By the method, the map information and the analysis requirements of the user can be combined, so that the user can be assisted to obtain the required analysis result quickly.
2. In the process of obtaining the first positioning area, whether the area division data comprise area positioning information or not can be judged firstly, if yes, the scheme can combine the area positioning information to conduct primary screening of the user, then combine green electricity selection information to conduct fine screening of the user, a first user list is obtained, and through the mode, the user can combine map information to conduct rapid selection and screening of the green electricity user, and screening requirements of the user are met.
3. In the process of obtaining the second positioning area, the method generates an initial second positioning area by combining the user information in the area division data, then judges whether the second positioning area reaches the reduction condition, and if so, invokes a reduction strategy to reduce the initial positioning area to obtain the special-shaped second positioning area. In the shrinking process, the extremum lines are subjected to segmentation processing according to the preset segmentation distance, so that each extremum line is provided with a plurality of extremum sub-lines, then the moving direction is determined, the extremum sub-lines are guided in the shrinking direction, and meanwhile, the moving parameters are judged by combining the distance.
Drawings
Fig. 1 is a schematic flow chart of a method for processing green electricity data of a regional user according to an embodiment of the present invention;
FIG. 2 is a schematic diagram of a regional user green electricity data processing system according to an embodiment of the present invention.
Detailed Description
For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
The terms "first," "second," "third," "fourth" and the like in the description and in the claims and in the above drawings, if any, are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that the embodiments of the invention described herein may be implemented in sequences other than those illustrated or otherwise described herein.
It should be understood that, in various embodiments of the present invention, the sequence number of each process does not mean that the execution sequence of each process should be determined by its functions and internal logic, and should not constitute any limitation on the implementation process of the embodiments of the present invention.
It should be understood that in the present invention, "comprising" and "having" and any variations thereof are intended to cover 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 that are expressly listed or inherent to such process, method, article, or apparatus.
It should be understood that in the present invention, "plurality" means two or more. "and/or" is merely an association relationship describing an association object, meaning that there may be three relationships, e.g., a and/or B, may represent: a exists alone, A and B exist together, and B exists alone. The character "/" generally indicates that the context-dependent object is an "or" relationship. "comprising A, B and C", "comprising A, B, C" means that all three of A, B, C comprise, "comprising A, B or C" means that one of the three comprises A, B, C, and "comprising A, B and/or C" means that any 1 or any 2 or 3 of the three comprises A, B, C.
It should be understood that in the present invention, "B corresponding to a", "a corresponding to B", or "B corresponding to a" means that B is associated with a, from which B can be determined. Determining B from a does not mean determining B from a alone, but may also determine B from a and/or other information. The matching of A and B is that the similarity of A and B is larger than or equal to a preset threshold value.
As used herein, "if" may be interpreted as "at … …" or "at … …" or "in response to a determination" or "in response to detection" depending on the context.
The technical scheme of the invention is described in detail below by specific examples. The following embodiments may be combined with each other, and some embodiments may not be repeated for the same or similar concepts or processes.
Referring to fig. 1, a flow chart of a method for processing green electricity data of a regional user according to an embodiment of the present invention includes S1-S5:
s1, determining map nodes corresponding to each green electricity user in map data, and acquiring green electricity data of each user in a green electricity database, wherein the green electricity data at least comprises green electricity generation information and/or green electricity consumption information, and the green electricity data are correspondingly arranged with the corresponding map nodes.
First, this scheme requires preparation of map data containing map information. The data may include information such as the location, identifier, geographic coordinates, etc. of each map node in the map. For each green electricity user, the map node corresponding to the user is determined by comparing its geographic coordinates or address information with the point location information in the map data. And associating the green electricity data (comprising green electricity generation information and/or green electricity consumption information) of each green electricity user with the map node corresponding to the green electricity data. This means that the user's data is stored on map nodes associated with their geographical location.
In some embodiments, determining map nodes corresponding to each green electricity user in the map data, and acquiring green electricity data of each user in the green electricity database, where the green electricity data at least includes green electricity generation information and/or green electricity consumption information, and the setting corresponds to the corresponding map nodes, and the steps include S11-S12:
s11, corresponding green electricity users are determined in original users in map data according to user configuration data, or new green electricity users are established in the map data based on the user configuration data.
The scheme can obtain green electricity users in two ways, namely, the users are automatically positioned according to the user configuration data, and the users corresponding to the data configured by each user in the map data are determined by using the user configuration data. Another is that new green electricity users can be actively created in conjunction with map data, and if the user configuration data specifies new green electricity users, new green electricity users are created in the map data based on these configuration data.
And S12, acquiring original coordinates or newly added coordinates of the green electricity users to obtain corresponding map nodes, and setting the green electricity data and the user labels of each user to correspond to the corresponding map nodes.
According to the scheme, the original coordinates of the green electricity users or the newly added coordinates are obtained to obtain the corresponding map nodes, then the green electricity data and the user labels of each user are correspondingly arranged with the corresponding map nodes, and the green electricity data of each user is correspondingly arranged with the corresponding map nodes.
S2, generating corresponding multi-level division interactive interfaces based on a preset region division strategy, wherein the multi-level division interactive interfaces are used for respectively calling a graphic generation model and a user generation model.
The method and the device can generate corresponding multi-level division interactive interfaces by combining a preset region division strategy, wherein the multi-level division interactive interfaces are used for respectively calling a graph generation model and a user generation model. The specific modes are described below.
In some embodiments, generating a corresponding multi-level partitioning interaction interface based on a preset region partitioning strategy, where the multi-level partitioning interaction interface is configured to respectively invoke a graphics generation model and a user generation model, and includes:
generating a corresponding multi-level division interactive interface based on a region division strategy by interacting with a management end, wherein the multi-level division interactive interface comprises a green electricity type selection sub-interface which is used for selecting green electricity generation information and/or green electricity users corresponding to green electricity consumption information;
the multi-level division interactive interface comprises a model calling sub-interface, and the model calling sub-interface is used for calling a corresponding graph generation model and/or a user generation model to perform data processing.
The scheme can interact with the management end, and a corresponding multi-level division interaction interface is generated by combining the regional division strategy.
The multi-level division interactive interface comprises a green electricity type selection sub-interface, and the green electricity type selection sub-interface is used for a user to select green electricity generation information and/or green electricity users corresponding to the green electricity consumption information so as to meet the selection requirement of the user in the green electricity type dimension.
And S3, if the region division data of the green electricity users obtained based on the multi-stage division interactive interface are judged to comprise region positioning information, inputting the region positioning information into a user generation model to process to obtain a corresponding first user green electricity list, and obtaining a first positioning region based on the region positioning information.
If the user is judged to be combined with the multi-level division interactive interface to obtain the region division data of the green electricity user to include region positioning information, the user is required to display the green electricity user in the required region. The regional positioning information is input into a user generation model to be processed to obtain a corresponding first user green electricity list, and a first positioning region is obtained based on the positioning information.
In some embodiments, if it is determined that the area division data obtained based on the multi-level division interactive interface includes area location information, the area location information is input to a user generation model to obtain a corresponding first user list, and a first location area is obtained based on the area location information, including S31-S33:
S31, if the user terminal is judged to select a model calling sub-interface corresponding to the user generated model, the region positioning information and the green electricity selection information included in the region division data of the user are obtained.
If the user terminal selects the model calling sub-interface corresponding to the user generated model, the scheme can acquire the region positioning information and the green electricity selection information included in the region division data of the user.
The green electricity selection information corresponds to the green electricity type which is required to be analyzed by the user.
And S32, the user generation model generates a corresponding first positioning area in the map data based on the area positioning information, and acquires a green electricity user corresponding to the map nodes in the first positioning area to obtain an initial user list.
The user generation model can generate a corresponding first positioning area in the map data by combining the area positioning information, and the green electricity users corresponding to the map nodes in the first positioning area are determined to obtain an initial user list.
It can be understood that, since the map node is bound with the corresponding green electricity users, after determining the area positioning information, the green electricity users in the area positioning information can be determined, and an initial user list can be obtained.
And S33, reserving corresponding green electricity users in the initial user list based on the green electricity selection information to obtain a first user list.
It should be noted that the initial user list is of all kinds, and the scheme also combines green electricity selection information to reserve corresponding green electricity users in the initial user list, so as to obtain a first user list. For example, the green electricity selection information is green electricity generation information, and then the scheme screens users for green electricity generation information in the initial user list to obtain a first user list.
In practical applications, the above-mentioned area positioning information may be input by the user in combination with his own needs, for example, may be a square area formed by latitude and longitude intervals, and then the user located in the square area may be determined to be the user who needs to perform analysis.
And S4, if the region division data of the green electricity users obtained based on the multi-stage division interactive interface are judged to comprise user information, inputting the user information into a graph generation model to process to obtain a corresponding second positioning region, and obtaining a second user green electricity list based on the user information.
If the region division data of the green electricity user obtained by combining the multi-level division interactive interface is judged to comprise user information, the region corresponding to the user is indicated to be obtained by the user.
At this time, the scheme inputs the user information into the graphic generation model to obtain the corresponding second positioning area, and combines the user information to obtain the second user green electricity list.
In some embodiments, if it is determined that the region division data of the green electricity user obtained based on the multi-level division interactive interface includes user information, inputting the user information into the graphic generation model to obtain a corresponding second positioning region, and obtaining a second green electricity list of the user based on the user information, including S41-S43:
s41, if the user terminal is judged to select a model calling sub-interface corresponding to the graph generation model, user information and green electricity selection information contained in the regional division data of the user are obtained, wherein the user information comprises green electricity users.
If the user terminal selects the model calling sub-interface corresponding to the graph generation model, the scheme can acquire user information and green electricity selection information included in the regional division data of the user, wherein the user information comprises green electricity users.
And S42, the graph generation model acquires map nodes corresponding to the user information, and performs region division in the map data based on the coordinates of all the map nodes to obtain corresponding second positioning regions.
The graph generating model can obtain map nodes corresponding to the user information, and then the map nodes are combined with the coordinates of all the map nodes, and region division is carried out in the map data to obtain corresponding second positioning regions.
In some embodiments, the graphic generation model obtains map nodes corresponding to the user information, and performs region division in the map data based on coordinates of all map nodes to obtain corresponding second positioning regions, including S421-S424:
s421, obtaining extreme value coordinates in coordinates of the map node, wherein the extreme value coordinates comprise longitude maximum values, longitude minimum values, latitude maximum values and latitude minimum values.
It can be understood that, because there are a plurality of green electricity users to be analyzed, the scheme can obtain longitude and latitude information of map nodes corresponding to the plurality of green electricity users, and then combine the longitude and latitude information to obtain extreme value coordinates in coordinates of the map nodes, wherein the extreme value coordinates comprise longitude maxima, longitude minima, latitude maxima and latitude minima. I.e. find the extreme values corresponding to a plurality of green electricity users, such as the uppermost, lowermost, leftmost and rightmost green electricity users.
S422, generating extremum lines corresponding to the extremum coordinates, wherein the extremum lines comprise a longitude maximum line, a longitude minimum line, a latitude maximum line and a latitude minimum line.
The method generates extremum lines corresponding to the extremum coordinates, wherein the extremum lines comprise a longitude maximum line, a longitude minimum line, a latitude maximum line and a latitude minimum line.
S423, taking the closed section formed by the extremum line in the map data as an initial positioning area, and taking the initial positioning area as a second positioning area directly if the initial positioning area does not reach the shrinking condition.
After obtaining the maximum longitude line, the minimum longitude line, the maximum latitude line and the minimum latitude line, the method can obtain a closed section formed by the extremum line in the map data as an initial positioning area, and the initial positioning area can be a square area.
In some cases, because the green electricity users are irregularly distributed, no green electricity users are caused in a partial area in the initial positioning area. At this point, the solution further processes it in combination with the shrink condition.
If the initial positioning area does not reach the shrinking condition, the scheme can directly serve as a second positioning area. When it is determined that the distance between any extremum sub-line and the corresponding map node in the moving direction is greater than a preset distance, a shrinking condition is achieved, that is, when the distance between any extremum sub-line and the corresponding map node in the moving direction is greater than the preset distance, the method can shrink the extremum sub-line.
S424, if the initial positioning area is judged to reach the shrinking condition, the initial positioning area is subjected to shrinking treatment to obtain the special-shaped second positioning area.
If the initial positioning area is judged to reach the shrinking condition, the scheme can shrink the initial positioning area to obtain the special-shaped second positioning area.
If the initial positioning area is judged to reach the shrinking condition, the initial positioning area is subjected to shrinking treatment to obtain a special-shaped second positioning area, which comprises the following steps:
and carrying out segmentation processing on the extremum lines according to preset segmentation distances to ensure that each extremum line is provided with a plurality of extremum sub-lines, and determining the relative direction of each extremum line towards the central line corresponding to the central point of the initial positioning area as the moving direction of each extremum sub-line.
Firstly, the method can segment the extremum lines according to a preset segmentation distance, so that each extremum line has a plurality of extremum sub-lines, wherein the preset segmentation distance can be preset by a user.
After segmentation, the present solution obtains the center point of the initial positioning area, for example, the intersection point of the diagonal lines of the square area. And then determining the relative direction of each extremum line towards the central line corresponding to the central point of the initial positioning area as the moving direction of each extremum sub line.
It should be noted that the center line is a line corresponding to the longitude and latitude of the center point. Illustratively, taking a square area as an example, a center line corresponding to a line uppermost in the direction area is a latitudinal line in a lateral direction corresponding to a center point parallel thereto.
And moving the extreme value sub-line according to the moving direction until any map node which is away from the extreme value sub-line in the moving direction is equal to a preset distance.
After the moving direction is determined, the extreme value sub-line is moved according to the moving direction until any map node in the moving direction is equal to the preset distance. It will be appreciated that the extremum sub-line will encounter a map node during movement and the present solution will stop moving at a predetermined distance from the map node.
It should be noted that in some cases, the extremum sub-line may not encounter the map node during the moving process, and in this case, in order to prevent the moving distance from being too large, the scheme may determine that the extremum sub-line stops moving when the extremum sub-line moves to the longest distance according to the moving direction. Wherein the longest distance is preferably one third of the initial positioning area in the transverse direction or in the longitudinal direction.
And after judging that all the extreme value sub-lines respectively move, connecting edge points of adjacent extreme value sub-lines through the complementary lines to obtain the special-shaped second positioning area.
According to the scheme, after all extreme value sub-lines are judged to be moved respectively, edge points of adjacent extreme value sub-lines are connected through the complementary lines, and the special-shaped second positioning area is obtained. It will be appreciated that the profiled second location area is more compliant with the user's analysis needs than the original area, reducing the unused blank area. It should be noted that some extremum sub-lines may not be shifted when the shift condition is not satisfied.
S43, counting all user information and corresponding green electricity type information to obtain a second user green electricity list, wherein the green electricity type information corresponds to the green electricity selection information.
The method comprises the steps of counting all user information and corresponding green electricity type information to obtain a second user green electricity list, wherein the green electricity type information corresponds to green electricity selection information.
S5, combining the first positioning area and the second positioning area to obtain a combined positioning area, combining the first user list and the second user list to obtain a combined user list, and outputting the combined positioning area and the combined user list to a target end.
After the first positioning area and the second positioning area are obtained, the first positioning area and the second positioning area are combined to obtain a combined positioning area, meanwhile, the first user list and the second user list are combined to obtain a combined user list, and the combined positioning area and the combined user list are output to a target end.
In some embodiments, combining the first positioning area and the second positioning area to obtain a combined positioning area, combining the first user list and the second user list to obtain a combined user list, and outputting the combined positioning area and the combined user list to a target end, including S51-S53:
and S51, if the first positioning area and the second positioning area are judged to be adjacent areas or partial overlapping areas, deleting adjacent lines or overlapping lines of the adjacent areas or the partial overlapping areas of the first positioning area and the second positioning area.
When the combination is performed, if the first positioning area and the second positioning area are judged to be adjacent areas or partial overlapping areas, the adjacent lines or overlapping lines of the adjacent areas or the partial overlapping areas of the first positioning area and the second positioning area need to be deleted.
S52, determining other extreme value sub-lines or supplementary lines respectively connected with adjacent lines or overlapping lines deleted by the first positioning area and the second positioning area as to-be-connected lines, and connecting all to-be-connected lines to obtain the combined positioning area.
According to the scheme, other extreme value sub-lines or supplementary lines respectively connected with adjacent lines or overlapping lines deleted by the first positioning area and the second positioning area are determined to serve as the to-be-connected lines, and then all to-be-connected lines are connected to obtain the combined positioning area.
And S53, if the first positioning area and the second positioning area are judged not to be adjacent areas or partial overlapping areas, reserving the areas occupied by the first positioning area and the second positioning area in the map data to obtain a combined positioning area.
It can be understood that if the first positioning area and the second positioning area are not adjacent areas or partially overlapped areas, the combined positioning area can be reserved in the area occupied by the first positioning area and the second positioning area in the map data according to the scheme.
In other embodiments, combining the first positioning area and the second positioning area to obtain a combined positioning area, combining the first user list and the second user list to obtain a combined user list, and outputting the combined positioning area and the combined user list to a target end, where the method includes:
if the first user list and the second user list are judged to have overlapped users, the overlapped users are deleted and then combined to obtain a combined user list, and the combined positioning area and the combined user list are output to a target end.
It will be appreciated that the present solution makes decisions about the combined user. If the first user list and the second user list have overlapping users, the scheme can be combined to obtain a combined user list after deleting the overlapping users, and finally the combined positioning area and the combined user list are output to a target end.
Referring to fig. 2, a schematic structural diagram of an area-user green-electricity data processing system according to an embodiment of the present invention includes:
the system comprises an acquisition module, a storage module and a display module, wherein the acquisition module is used for determining map nodes corresponding to each green electricity user in map data, acquiring green electricity data of each user in a green electricity database and corresponding map nodes, and the green electricity data at least comprises green electricity generation information and/or green electricity consumption information;
the model generation module is used for generating a corresponding multi-level division interactive interface based on a preset region division strategy, and the multi-level division interactive interface is used for respectively calling a graph generation model and a user generation model;
the first input module is used for inputting the region positioning information into a user generation model to obtain a corresponding first user green electricity list if the region division data of the green electricity users obtained based on the multi-level division interactive interface are judged to comprise the region positioning information, and obtaining a first positioning region based on the region positioning information;
the second input module is used for inputting the user information into the graph generation model to obtain a corresponding second user green electricity list if judging that the region division data of the green electricity user obtained based on the multi-level division interactive interface comprises the user information, and obtaining a second positioning region based on the region positioning information;
And the combination module is used for combining the first positioning area and the second positioning area to obtain a combined positioning area, combining the first user list and the second user list to obtain a combined user list, and outputting the combined positioning area and the combined user list to a target end.
The embodiment of the invention provides electronic equipment, which comprises: a processor, a memory and a computer program; wherein the method comprises the steps of
And a memory for storing the computer program, which may also be a flash memory (flash). Such as application programs, functional modules, etc. implementing the methods described above.
And the processor is used for executing the computer program stored in the memory to realize each step executed by the equipment in the method. Reference may be made in particular to the description of the embodiments of the method described above.
In the alternative, the memory may be separate or integrated with the processor.
When the memory is a device separate from the processor, the apparatus may further include:
and the bus is used for connecting the memory and the processor.
The present invention also provides a storage medium having stored therein a computer program for implementing the methods provided by the various embodiments described above when executed by a processor.
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 can 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 the processor can read information from, and write information to, the storage medium. In the alternative, the storage medium may be integral to the processor. The processor and the storage medium may reside in an application specific integrated circuit (Application Specific Integrated Circuits, ASIC for short). In addition, the ASIC may reside in a user device. 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 tape, floppy disk, optical data storage device, etc.
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, the execution instructions being executed by the at least one processor to cause 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 (english: central Processing Unit, abbreviated as CPU), or may be other general purpose processors, digital signal processors (english: digital Signal Processor, abbreviated as DSP), application specific integrated circuits (english: application Specific Integrated Circuit, abbreviated as ASIC), or the like. 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 for execution, or in a combination of hardware and software modules in a processor for execution.
Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the same; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the invention.
Claims (13)
1. The regional user green electricity data processing method is characterized by comprising the following steps of:
determining map nodes corresponding to each green electricity user in map data, and acquiring green electricity data of each user in a green electricity database and corresponding map nodes, wherein the green electricity data at least comprises green electricity generation information and/or green electricity consumption information;
generating a corresponding multi-level division interactive interface based on a preset region division strategy, wherein the multi-level division interactive interface is used for respectively calling a graph generation model and a user generation model;
if the region division data of the green electricity users obtained based on the multi-stage division interactive interface are judged to comprise region positioning information, inputting the region positioning information into a user generation model to obtain a corresponding first user green electricity list, and obtaining a first positioning region based on the region positioning information;
if the region division data of the green electricity users obtained based on the multi-level division interactive interface are judged to comprise user information, inputting the user information into a graph generation model to be processed to obtain a corresponding second positioning region, and obtaining a second green electricity list of the users based on the user information;
and combining the first positioning area and the second positioning area to obtain a combined positioning area, combining the first user list and the second user list to obtain a combined user list, and outputting the combined positioning area and the combined user list to a target end.
2. The method for processing regional subscriber green electricity data as claimed in claim 1, wherein,
the method comprises the steps of determining map nodes corresponding to each green electricity user in map data, acquiring green electricity data of each user in a green electricity database and setting corresponding to the corresponding map nodes, wherein the green electricity data at least comprises green electricity generation information and/or green electricity consumption information, and the method comprises the following steps:
determining corresponding green electricity users in original users in map data according to user configuration data, or establishing new green electricity users in the map data based on the user configuration data;
and obtaining the original coordinates or newly added coordinates of the green electricity users to obtain corresponding map nodes, and setting the green electricity data and the user labels of each user to correspond to the corresponding map nodes.
3. The method for processing regional subscriber green electricity data as claimed in claim 2, wherein,
the generating a corresponding multi-level division interactive interface based on a preset region division strategy, wherein the multi-level division interactive interface is used for respectively calling a graph generating model and a user generating model and comprises the following steps:
generating a corresponding multi-level division interactive interface based on a region division strategy by interacting with a management end, wherein the multi-level division interactive interface comprises a green electricity type selection sub-interface which is used for selecting green electricity generation information and/or green electricity users corresponding to green electricity consumption information;
The multi-level division interactive interface comprises a model calling sub-interface, and the model calling sub-interface is used for calling a corresponding graph generation model and/or a user generation model to perform data processing.
4. A method for processing regional user green electricity data as claimed in claim 3, wherein,
if it is determined that the region division data obtained based on the multi-stage division interactive interface includes region positioning information, the region positioning information is input into a user generation model to obtain a corresponding first user list, and a first positioning region is obtained based on the region positioning information, including:
if the user terminal is judged to select a model calling sub-interface corresponding to the user generated model, acquiring area positioning information and green electricity selection information included in the area division data of the user;
the user generation model generates a corresponding first positioning area in map data based on the area positioning information, and a green electricity user corresponding to map nodes in the first positioning area is obtained to obtain an initial user list;
and reserving corresponding green electricity users in the initial user list based on the green electricity selection information to obtain a first user list.
5. The method for processing regional subscriber green electricity data as claimed in claim 4, wherein,
if the area division data of the green electricity user obtained based on the multi-level division interactive interface is judged to comprise user information, the user information is input into a graph generation model to obtain a corresponding second positioning area, and a second user green electricity list is obtained based on the user information, and the method comprises the following steps:
if the user terminal is judged to select a model calling sub-interface corresponding to the graph generation model, user information and green electricity selection information contained in the regional division data of the user are obtained, wherein the user information comprises green electricity users;
the graph generating model acquires map nodes corresponding to the user information, and performs region division in map data based on coordinates of all the map nodes to obtain corresponding second positioning regions;
and counting all user information and corresponding green electricity type information to obtain a second user green electricity list, wherein the green electricity type information corresponds to the green electricity selection information.
6. The method for processing regional subscriber green electricity data as claimed in claim 5, wherein,
the graphic generation model acquires map nodes corresponding to the user information, and performs region division in map data based on coordinates of all the map nodes to obtain corresponding second positioning regions, and the graphic generation model comprises the following steps:
Obtaining extreme value coordinates in coordinates of the map nodes, wherein the extreme value coordinates comprise longitude maximum values, longitude minimum values, latitude maximum values and latitude minimum values;
generating an extremum line corresponding to the extremum coordinate, wherein the extremum line comprises a longitude maximum line, a longitude minimum line, a latitude maximum line and a latitude minimum line;
taking a closed section formed by the extremum line in the map data as an initial positioning area, and taking the closed section as a second positioning area if the initial positioning area does not reach a shrinking condition;
and if the initial positioning area is judged to reach the shrinking condition, carrying out shrinking treatment on the initial positioning area to obtain the special-shaped second positioning area.
7. The method for processing regional subscriber green electricity data as claimed in claim 6, wherein,
if the initial positioning area is judged to reach the shrinking condition, the initial positioning area is subjected to shrinking treatment to obtain a special-shaped second positioning area, which comprises the following steps:
segmenting the extremum lines according to preset segmenting distances to enable each extremum line to have a plurality of extremum sub-lines, and determining the relative direction of each extremum line towards the central line corresponding to the central point of the initial positioning area as the moving direction of each extremum sub-line;
Moving the extreme value sub-line according to the moving direction until any map node in the moving direction is equal to a preset distance;
if the extreme value sub-line is judged to move to the longest distance according to the moving direction, stopping moving the extreme value sub-line;
and after judging that all the extreme value sub-lines respectively move, connecting edge points of adjacent extreme value sub-lines through the complementary lines to obtain the special-shaped second positioning area.
8. The method for processing regional subscriber green electricity data as claimed in claim 7, wherein,
and when judging that the distance between any extreme value sub-line and the corresponding map node in the moving direction is greater than the preset distance, the shrinking condition is achieved.
9. The method for processing regional subscriber green electricity data as claimed in claim 8, wherein,
combining the first positioning area and the second positioning area to obtain a combined positioning area, combining the first user list and the second user list to obtain a combined user list, and outputting the combined positioning area and the combined user list to a target end, wherein the method comprises the following steps:
if the first positioning area and the second positioning area are judged to be adjacent areas or partial overlapping areas, deleting adjacent lines or overlapping lines of the adjacent areas or the partial overlapping areas of the first positioning area and the second positioning area;
Determining other extreme value sub-lines or supplementary lines respectively connected with adjacent lines or overlapping lines deleted by the first positioning area and the second positioning area as to-be-connected lines, and connecting all to-be-connected lines to obtain a combined positioning area;
if the first positioning area and the second positioning area are not adjacent areas or partially overlapped areas, the areas occupied by the first positioning area and the second positioning area in the map data are reserved to obtain a combined positioning area.
10. The method for processing regional subscriber green electricity data as claimed in claim 9,
combining the first positioning area and the second positioning area to obtain a combined positioning area, combining the first user list and the second user list to obtain a combined user list, and outputting the combined positioning area and the combined user list to a target end, wherein the method comprises the following steps:
if the first user list and the second user list are judged to have overlapped users, the overlapped users are deleted and then combined to obtain a combined user list, and the combined positioning area and the combined user list are output to a target end.
11. An area user green electricity data processing system, comprising:
the system comprises an acquisition module, a storage module and a display module, wherein the acquisition module is used for determining map nodes corresponding to each green electricity user in map data, acquiring green electricity data of each user in a green electricity database and corresponding map nodes, and the green electricity data at least comprises green electricity generation information and/or green electricity consumption information;
The model generation module is used for generating a corresponding multi-level division interactive interface based on a preset region division strategy, and the multi-level division interactive interface is used for respectively calling a graph generation model and a user generation model;
the first input module is used for inputting the region positioning information into a user generation model to obtain a corresponding first user green electricity list if the region division data of the green electricity users obtained based on the multi-level division interactive interface are judged to comprise the region positioning information, and obtaining a first positioning region based on the region positioning information;
the second input module is used for inputting the user information into the graph generation model to obtain a corresponding second user green electricity list if judging that the region division data of the green electricity user obtained based on the multi-level division interactive interface comprises the user information, and obtaining a second positioning region based on the region positioning information;
and the combination module is used for combining the first positioning area and the second positioning area to obtain a combined positioning area, combining the first user list and the second user list to obtain a combined user list, and outputting the combined positioning area and the combined user list to a target end.
12. A storage medium having stored therein a computer program for implementing the method of any of claims 1 to 10 when executed by a processor.
13. An electronic device, comprising: a memory, a processor and a computer program stored in the memory, the processor running the computer program to perform the method of any one of claims 1 to 10.
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