CN111950974A - Progress information processing method and device, computer equipment and storage medium - Google Patents

Abstract

The application relates to a progress information processing method and device, computer equipment and a storage medium. The method comprises the following steps: determining progress voter information of a regional transformation project progress of a target region; acquiring object identification data corresponding to progress voter information and used for identifying the right modification object information based on a preset right modification object corresponding relation; reading space graphic data corresponding to the object identification data from a pre-constructed project database; the project database stores a plurality of spatial graphic data, and the plurality of spatial graphic data correspond to the plurality of object identification data; the spatial graphic data comprise map data of a target area and a project progress mark corresponding to the regional transformation project progress; and displaying the map data of the target area corresponding to the electronic map, and displaying a project progress mark aiming at the target area on the electronic map. By adopting the method, the project progress information can be managed in an image-text interaction mode, and the processing efficiency of the project progress information is improved.

Description

Progress information processing method and device, computer equipment and storage medium

Technical Field

The present application relates to the technical field of city update informatization, and in particular, to a progress information processing method, apparatus, computer device, and storage medium.

Background

For a construction project of city updating and reconstruction, strict, standard, timely and visual control needs to be performed on the progress conditions of all stages of the project, the current project work is generally performed in a mode of performing grouping operation on the basis of multi-person partitioning, slicing or partitioning slicing, finally, all terminal groups gather all group progress information to a project department, and the project department assigns a specially-assigned person to combine all group report data and two-dimensional list progress information to finally obtain progress data of character data, and manages the progress data through a document (WORD, PPT) or two-dimensional list (EXCEL) mode.

However, the above management method for project schedule information can only update and maintain the schedule of the project through the EXCEL document list, and only the schedule attribute value based on the text can be seen, and the current schedule of which section, which group, which society, and individual (e.g., which house) cannot be intuitively seen, which lacks the text interaction, and the processing efficiency of the project schedule information is low.

Disclosure of Invention

In view of the foregoing, it is desirable to provide a progress information processing method, apparatus, computer device, and storage medium for addressing the above technical problems.

A method of processing progress information, the method comprising:

determining progress voter information of a regional transformation project progress of a target region;

acquiring object identification data which is corresponding to the progress voter information and is used for identifying the right modification object information based on a preset right modification object corresponding relation; the corresponding relation of the right modified object comprises corresponding relations of different progress voter information and different right modified object information; the right modification object is a modification object belonging to a progress voter;

reading space graphic data corresponding to the object identification data from a pre-constructed project database; the project database stores a plurality of spatial graphic data, and the plurality of spatial graphic data correspond to a plurality of object identification data; the spatial graphic data comprise map data of the target area and a project progress mark corresponding to the area transformation project progress;

and displaying an electronic map corresponding to the map data of the target area, and displaying the project progress mark on the electronic map aiming at the target area.

In one embodiment, the object identification data comprises first object address data; the reading of the spatial graphic data corresponding to the object identification data from the pre-constructed project database includes: extracting a first address keyword from the first object address data; selecting a second address keyword matched with the first address keyword from the project database; and reading space graphic data corresponding to the second object address data based on the second object address data corresponding to the second address keyword.

In one embodiment, the object identification data comprises first parcel number data; the reading of the spatial graphic data corresponding to the object identification data from the pre-constructed project database includes: selecting parcel number data which is the same as the first parcel number data from the project database as second parcel number data; and reading the spatial graphic data corresponding to the second parcel number data based on the second parcel number data.

In one embodiment, the method further comprises: acquiring a plurality of ownership transformation object information aiming at the target area and a plurality of spatial graphic data of the target area; determining a plurality of object identification data belonging to a preset data classification field in the ownership transformation object information; if the object identification data and the space graphic data have mutually matched data, at least one group of corresponding relation data group is obtained; the corresponding relation data set comprises object identification data and space graphic data which are matched with each other; and establishing a corresponding relation between the plurality of ownership transformation object information and the plurality of space graphic data based on the at least one corresponding relation data group, and storing the corresponding relation into the project database.

In one embodiment, the data classification field comprises an object address field; the plurality of object identification data attributed to the preset data classification field comprises third object address data attributed to the object address field; if the object identification data and the space graphic data have data matched with each other, at least one corresponding relationship data group is obtained, and the method comprises the following steps: extracting corresponding fourth object address data from each space graphic data; acquiring a third keyword in the third object address data and a fourth keyword in the fourth object address data; and if the third keyword is matched with the fourth keyword, establishing the corresponding relation data group based on the third object address data and the fourth object address data.

In one embodiment, the data classification field comprises a parcel number field; the plurality of object identification data belonging to the preset data classification field comprise third parcel number data belonging to the parcel number field; if the object identification data and the space graphic data have data matched with each other, at least one corresponding relationship data group is obtained, and the method comprises the following steps: extracting corresponding fourth parcel number data from each space graphic data; and if the third parcel number data and the fourth parcel number data have the same data, establishing the corresponding relation data group based on the third parcel number data and the fourth parcel number data.

In one embodiment, the method further comprises: acquiring updated progress voter information and target object identification data corresponding to the updated progress voter information; reading target space graphic data corresponding to the target object identification data from the project database; and updating the project progress identification in the target space graphic data.

A schedule information processing apparatus, the apparatus comprising:

the voter information determining module is used for determining progress voter information aiming at the regional transformation project progress of the target region;

the identification data acquisition module is used for acquiring object identification data which is corresponding to the progress voter information and is used for identifying the right modification object information based on a preset right modification object corresponding relation; the corresponding relation of the right modified object comprises corresponding relations of different progress voter information and different right modified object information; the right modification object is a modification object belonging to a progress voter;

the space graph reading module is used for reading space graph data corresponding to the object identification data from a pre-constructed project database; the project database stores a plurality of spatial graphic data, and the plurality of spatial graphic data correspond to a plurality of object identification data; the spatial graphic data comprise map data of the target area and a project progress mark corresponding to the area transformation project progress;

and the project progress display module is used for displaying an electronic map corresponding to the map data of the target area and displaying the project progress mark on the electronic map aiming at the target area.

A computer device comprising a memory storing a computer program and a processor implementing the steps of the above method when executing the computer program.

A computer-readable storage medium, on which a computer program is stored which, when being executed by a processor, carries out the steps of the above-mentioned method.

The progress voter information of the progress of the regional transformation project of the target region is determined by the progress information processing method, the progress information processing device, the computer equipment and the storage medium; acquiring object identification data corresponding to progress voter information and used for identifying the right modification object information based on a preset right modification object corresponding relation; the corresponding relation of the right modified object comprises corresponding relations of different progress voter information and different right modified object information; the right modification object is a modification object belonging to a progress voter; reading space graphic data corresponding to the object identification data from a pre-constructed project database; the project database stores a plurality of spatial graphic data, and the plurality of spatial graphic data correspond to the plurality of object identification data; the spatial graphic data comprise map data of a target area and a project progress mark corresponding to the regional transformation project progress; and displaying the map data of the target area corresponding to the electronic map, and displaying a project progress mark aiming at the target area on the electronic map. According to the method and the system, the corresponding relation between the object identification data and the space graphic data is established through the project database which is constructed in advance, the space graphic data also carry map data of a target area and project progress identifications corresponding to the regional transformation project progress, and the project progress information is displayed in an electronic map mode, so that the project progress information is managed in an image-text interaction mode, and the processing efficiency of the project progress information is improved.

Drawings

FIG. 1 is a flow chart illustrating a method for processing progress information according to an embodiment;

FIG. 2 is a schematic diagram illustrating an embodiment of a process for reading spatial graphic data corresponding to object identification data from a pre-constructed project database;

FIG. 3 is a schematic diagram of a process for building a project database in one embodiment;

FIG. 4 is a flowchart illustrating a method for processing progress information according to another embodiment;

FIG. 5 is a flowchart illustrating a method for processing project progress information in an application example;

FIG. 6 is a block diagram showing the configuration of a progress information processing apparatus according to an embodiment;

FIG. 7 is a diagram illustrating an internal structure of a computer device according to an embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

In an embodiment, as shown in fig. 1, a progress information processing method is provided, and this embodiment is illustrated by applying the method to a terminal, and it is to be understood that the method may also be applied to a server, and may also be applied to a system including a terminal and a server, and is implemented by interaction between the terminal and the server. In this embodiment, the method includes the steps of:

step S101, the terminal determines progress voter information of the regional transformation project progress of the target region.

The terminal may be, but is not limited to, various personal computers, notebook computers, smart phones, tablet computers, and portable wearable devices. The progress voter information refers to voters aiming at the progress of the regional transformation project, and can be divided into voters agreeing to the project and voters disagreeing with the project, the regional transformation project can be the relocation transformation project, and the progress voters can include the voters agreeing with the relocation transformation project and the voters refusing the relocation transformation project. The progress voter information can be stored in a document mode, and the terminal can determine the progress voter information aiming at the progress of the regional transformation project of the target region from the stored progress voter information.

Step S102, the terminal acquires object identification data which is corresponding to progress voter information and is used for identifying the right modification object information based on a preset right modification object corresponding relation; the corresponding relation of the right modified object comprises corresponding relations of different progress voter information and different right modified object information; and the right modification object is a modification object belonging to the progress voter.

For example, for relocation modification, the right modification object may be a house owned by the progress voter, the right modification object information may be information of the house, which may include, for example, an area size of the house, a geographic location of the house, and the like, and the object identification data is identification information for identifying the right modification object information, which may be, for example, address information of the right house. Specifically, after the terminal obtains the voter information, it may query to obtain ownership transformation object information corresponding to the voter information, for example, it may query to obtain a house owned by a certain owner by querying a house ownership relationship table, where the house ownership relationship table may store a correspondence between multiple groups of owners, that is, the progress voter, and the house owned by the progress voter, that is, the ownership transformation object, and then the terminal may also obtain address information of the house, which is used as object identification data for identifying the house owned by the owner.

Step S103, the terminal reads the space graphic data corresponding to the object identification data from a pre-constructed project database; the project database stores a plurality of spatial graphic data, and the plurality of spatial graphic data correspond to the plurality of object identification data; the spatial graphic data includes map data of the target area and a project progress mark corresponding to the area transformation project progress.

After the terminal obtains the object identification data in step S102, the terminal may obtain the spatial graphic data corresponding to the object identification data by querying the object identification data from a project database in which a plurality of spatial graphic data are pre-stored, where the spatial graphic data may be map data such as red lines and outlines of land parcel, and project progress marks corresponding to project progress of area transformation, and may represent different project progresses by different colors, and the spatial graphic data is stored in a spatial graphic file (such as a CAD file). For example: after the terminal obtains the house address information for identifying the owner, the terminal can query the project database by using the house address information to find out the space graphic data corresponding to the house address information, including the outline map of the house and the like.

And step S104, displaying the electronic map corresponding to the map data of the target area by the terminal, and displaying a project progress mark aiming at the target area on the electronic map.

Specifically, after obtaining the spatial graphic data, the terminal may display the map data in the spatial graphic data in the form of an electronic map through the display device, and may further display a project progress identifier of the target area on the electronic map to indicate the project progress, for example, different project progresses may be identified by different colors, green may represent that a voter has voted through, and red may be used to represent that the voter has not voted through, and so on, so that the manager may directly determine the project progress condition of the area modification project through the colors of different areas in the electronic map.

In the progress information processing method, the terminal determines progress voter information of the progress of the regional transformation project of the target region; acquiring object identification data corresponding to progress voter information and used for identifying the right modification object information based on a preset right modification object corresponding relation; the corresponding relation of the right modified object comprises corresponding relations of different progress voter information and different right modified object information; the right modification object is a modification object belonging to a progress voter; reading space graphic data corresponding to the object identification data from a pre-constructed project database; the project database stores a plurality of spatial graphic data, and the plurality of spatial graphic data correspond to the plurality of object identification data; the spatial graphic data comprise map data of a target area and a project progress mark corresponding to the regional transformation project progress; and displaying the map data of the target area corresponding to the electronic map, and displaying a project progress mark aiming at the target area on the electronic map. According to the method and the system, the corresponding relation between the object identification data and the space graphic data is established through the project database which is constructed in advance, the space graphic data also carry map data of a target area and project progress identifications corresponding to the regional transformation project progress, and the project progress information is displayed in an electronic map mode, so that the project progress information is managed in an image-text interaction mode, and the processing efficiency of the project progress information is improved.

In one embodiment, the object identification data includes first object address data, as shown in fig. 2, step S103 may include:

in step S201, the terminal extracts a first address keyword from the first object address data.

The object identification data may be first object address data describing an address of the right modification object, the first object address data is generally stored in a character string form composed of a plurality of characters, for example, the first object address data may be stored in a form of a D-way E-house number in a district, B city, C city, a province, city information, or street information, and the first address keyword is a keyword extracted from the first object address data, and may be province information, city information, or street information such as a province, B city, and C district. Specifically, after the terminal obtains the first object address data of the right modification object, a word segmentation algorithm may be applied to extract at least one address keyword included in the address data from the first object address data, and the address keyword is used as the first address keyword.

Step S202, the terminal selects a second address keyword matched with the first address keyword from the project database;

in step S203, the terminal reads the space graphic data corresponding to the second object address data based on the second object address data corresponding to the second address keyword.

Specifically, after the terminal extracts the first address keyword from the first object address data, the second address keyword matched with the first address keyword can be selected from the project database, corresponding second object address data is obtained based on the second address keyword, and space graphic data corresponding to the second object address data is obtained by querying from the project database.

For example: the first object address data of the right modification object is address a, and the corresponding first address keywords respectively include keyword a, keyword B, and keyword C, and the address data stored in the project database may include: the method comprises the steps that an address A, an address B and an address C are provided, keywords corresponding to the address A comprise a keyword A, a keyword B and a keyword C, keywords corresponding to the address B comprise a keyword A, a keyword B and a keyword D, and keywords corresponding to the address C comprise a keyword A, a keyword B and a keyword E, so that a terminal can select a second address keyword matched with the keyword A, the keyword B and the keyword C from the keywords, and accordingly corresponding second object address data, namely address data of the address A stored in a project database, can be determined, and finally space graphic data corresponding to the address A in the project database, such as a map of the address A and the like, can be read according to the address A.

However, the address data may change due to a change of the address name, and therefore in order to further improve the accuracy of the object identification data and further improve the accuracy of the obtained spatial graphic data, in an embodiment, the object identification data includes first parcel number data, and step S103 further includes: the terminal selects parcel number data which is the same as the first parcel number data from the project database as second parcel number data; and reading the spatial graphic data corresponding to the second parcel number data based on the second parcel number data.

The land parcel refers to a land parcel in the range of the ownership address of the land use authorized person, namely a land parcel enclosed by the ownership address line, land parcel number data is an identification number used for identifying land parcels and has uniqueness, each land parcel has corresponding land parcel number data, the first land parcel number data is land parcel number data of the ownership reconstruction object, and the second land parcel number data is land parcel number data which is stored in the item database and is the same as the first land parcel number data.

Specifically, the terminal may use first parcel number data of the ownership transformation object as object identification data, compare parcel number data stored in the project database one by one based on the first parcel number data, select parcel number data identical to the first parcel number data from the comparison result as second parcel number data, and finally obtain spatial graphic data corresponding to the second parcel number data by querying the project database through the second parcel number data.

In the above embodiment, the terminal may find the second object address data matched with the first object address data keyword by extracting the first address keyword from the first object address data and using a keyword matching method, and obtain the space graphic data by using the second object address data, and may complete reading of the space graphic data by using unique object identification data, which is parcel number data, so that a determination deviation of the space graphic data due to a transmission change of an address name may be avoided, and accuracy of determining the space graphic data may be further improved.

In one embodiment, as shown in fig. 3, the progress information processing method may further include the steps of:

in step S301, the terminal obtains a plurality of ownership transformation object information for the target area and a plurality of spatial graphic data of the target area.

Specifically, the terminal may read a plurality of ownership transformation object information for the target area, for example, house belonging information of the area, from a document in which the ownership transformation object information is stored, and read the spatial graphic data of the target area from a spatial graphic file in which a plurality of spatial graphic data are stored.

Step S302, the terminal determines a plurality of object identification data belonging to a preset data classification field in the ownership transformation object information.

The preset data classification field is used for constructing a data field for establishing a corresponding relation between the ownership transformation object information and the spatial graphic data, and can be selected by project progress management personnel according to actual needs. Specifically, the terminal may select a preset classification field to be input according to the project schedule manager, and extract a plurality of right modification object information under the classification field from the right modification object information as object identification data for identifying the right modification object.

Step S303, if the plurality of object identification data and the plurality of spatial pattern data have data matched with each other, the terminal obtains at least one group of corresponding relation data set; the corresponding relation data set comprises an object identification data and a space graphic data which are matched with each other.

The corresponding relation data group is a data group obtained by the terminal under the condition that the object identification data in the preset classification field ownership transformation object information is matched with the space graphic data. For example: the input preset classification field may be an address a of a certain house, and then in the ownership transformation object information, under the classification field of the house address, a house address a, a house address B, and a house address C may be stored as object identification data, and in the space graphic data, a plurality of fields may also exist, and under the classification field of the house address, a house address a, a house address B, and a house address D may be stored, and at this time, the house address a and the house address B having the object identification data may be matched with the house address a and the house address B in the space graphic data, so that the terminal may respectively establish a corresponding relationship data group based on the house address a and the house address B.

And step S304, the terminal stores the plurality of ownership transformation object information and the plurality of spatial graphic data into the project database by establishing corresponding relations based on at least one corresponding relation data set.

Specifically, after the terminal obtains the correspondence data group between the ownership transformation object information and the spatial graphic data in step S303, the terminal may establish a mutual correspondence between the ownership transformation object information and the spatial graphic data based on the correspondence data group, and store the ownership transformation object information and the spatial graphic data in the project database for the target area according to the correspondence. For example, if a correspondence relationship data group between the house address a in the ownership transformation target information and the house address a in the spatial graphic data is already established, the ownership transformation target information related to the house address a and the spatial graphic data related to the house address a can be established by the correspondence relationship data group and stored in the project database.

In one embodiment, the data classification field includes an object address field; the plurality of object identification data attributed to the preset data classification field includes third object address data attributed to the object address field, and step S303 may further include: the terminal extracts corresponding fourth object address data from each space graphic data; acquiring a third keyword in the third object address data and acquiring a fourth keyword in the fourth object address data; and if the third keyword is matched with the fourth keyword, establishing a corresponding relation data group based on the third object address data and the fourth object address data.

The third object address data refers to data stored in the object address field of the right modification object information, and the fourth object address data refers to address data stored in each area of the spatial graphic data. Specifically, the terminal may extract a plurality of third object address data from an object address field in the attribute modification object information, determine a plurality of fourth object address data included in the spatial pattern data, extract a third keyword and a fourth keyword from the third object address data and the fourth object address data, obtain data matched with the fourth keyword from the third keyword in a keyword matching manner, and establish a corresponding relationship data set between the third object address data corresponding to the third keyword under the keyword matching and the fourth object address data corresponding to the fourth keyword.

In addition, in order to further improve the accuracy of the ownership transformation object information and the spatial graphic data stored in the project database, in one embodiment, the data classification field includes a parcel number field; the plurality of object identification data belonging to the preset data classification field comprise third parcel number data belonging to the parcel number field; step S303 may further include: the terminal extracts corresponding fourth parcel number data from each space graphic data; and if the third parcel number data and the fourth parcel number data have the same data, establishing a corresponding relation data group based on the third parcel number data and the fourth parcel number data.

The third parcel number data refers to data stored in a parcel number field in the ownership transformation object information, and the fourth parcel number data refers to parcel number data stored in each area in the spatial graphic data. Specifically, the terminal may extract a plurality of third parcel number data from parcel number fields in the attribute modification object information, and may further extract a plurality of corresponding fourth parcel number data from the spatial graphic data, compare each of the third parcel number data with all of the fourth parcel number data, and if a third parcel number data identical to the fourth parcel number data appears, establish a corresponding relationship data group using the identical parcel number data.

In this embodiment, the terminal may establish the corresponding relationship data group through the parcel address information, and may form the corresponding relationship data group by the multiple ownership transformation object information and the multiple spatial graphic data, thereby constructing the project database. In addition, the establishment of the corresponding relation data group can be completed through the unique parcel identification of parcel number data, the establishment failure of the associated data group caused by the change of the address name can be avoided, and the accuracy of mapping information processing can be further improved.

In one embodiment, the progress information processing method may further include: acquiring updated progress voter information and target object identification data corresponding to the updated progress voter information; reading target space graphic data corresponding to the target object identification data from the project database; and updating the project progress identification in the target space graphic data.

The updated progress voter information refers to the progress voter information that needs to be updated, for example, a voter never agrees to a modification project, and changes to agree to the modification project after negotiation, so that at this time, corresponding progress information needs to be updated according to the updated progress voter information. Specifically, after the updated information of the progress voter is obtained by the terminal, the corresponding object identification data is obtained in the step S102 according to the information of the progress voter, the obtained object identification data is used as the target object identification data, the spatial graphic data corresponding to the target object identification data is queried through the project database, the spatial graphic data is used as the target spatial graphic data, and the project progress identification stored in the target spatial graphic data is correspondingly updated, for example, a red mark originally used for indicating that the voter fails to vote may be modified into a green mark representing that the voter passes vote.

In the above embodiment, when the progress voter information is updated, the terminal may update the project progress mark of the spatial graphic data in the project database according to the updated progress voter information, so as to implement the unified update processing of the city update project progress information.

In an embodiment, as shown in fig. 4, a progress information processing method is provided, and this embodiment is illustrated by applying the method to a terminal, and it is to be understood that the method may also be applied to a server, and may also be applied to a system including a terminal and a server, and is implemented by interaction between the terminal and the server. In this embodiment, the method includes the steps of:

step S401, a terminal acquires a plurality of ownership transformation object information aiming at a target area and a plurality of spatial graphic data of the target area;

step S402, the terminal determines a plurality of third parcel number data belonging to parcel number fields in the ownership transformation object information;

step S403, the terminal extracts corresponding fourth parcel number data from each space graphic data; if the third parcel number data and the fourth parcel number data have the same data, establishing a corresponding relation data group based on the third parcel number data and the fourth parcel number data;

s404, the terminal stores the information of the plurality of ownership transformation objects and the plurality of spatial graphic data into a project database by establishing a corresponding relation based on at least one corresponding relation data set;

step S405, the terminal determines progress voter information of the regional transformation project progress of the target region;

step S406, the terminal acquires first parcel number data which corresponds to the progress voter information and is used for identifying the right modification object information based on a preset right modification object corresponding relation;

step S407, the terminal selects parcel number data which is the same as the first parcel number data from the project database as second parcel number data; reading spatial graphic data corresponding to the second parcel number data based on the second parcel number data;

step S408, the terminal displays the electronic map corresponding to the map data of the target area, and displays the project progress identification aiming at the target area on the electronic map.

In the embodiment, the establishment of the corresponding relation data group is completed through the unique parcel identification of parcel number data, and then the project database is established, so that the establishment failure of the associated data group caused by the change of the address name can be avoided, and the accuracy of mapping information processing can be further improved. And the reading of the spatial graphic data can be completed through the unique object identification data of the parcel number data, the determination deviation of the spatial graphic data caused by the sending change of the address name can be avoided, the spatial graphic data also carries the map data of the target area and the project progress identification corresponding to the area transformation project progress and is displayed in an electronic map mode, the project progress information is managed in an image-text interaction mode, and the processing efficiency of the project progress information is improved.

In an application example, a project progress information processing method is also provided, which is mainly divided into: three parts of project and group information management, real-time dynamic progress updating and charting data analysis and processing are shown in figure 5:

(one) establishing project progress information

Performing project progress information initialization on the element information of the project, the partition area or each grouping progress through a single newly-added or batch warehousing mode, wherein the initialized project progress information content comprises: standing item basic information, project related personal attribute information, house related voter information, house related user information, house sign and tear implementation attachment information, project space element information and the like.

The project progress information can be associated with house and ownership information in the city updating information according to numbering rules by taking personnel as a unit, and finally, the project progress information is established based on one project graph. The established project progress information can be used for subsequent management and analysis application, wherein the established project progress information can comprise: voter information, house basic information, house-related voter information, house-related title information, house-related user information, and house sign-and-tear implementation accessory information.

(II) real-time progress updates

And initiating progress updating according to the field work progress, wherein the progress updating can be carried out on a single person or related element information can be imported in batches for updating, the program can dynamically display the current progress in real time, and the updating modes comprise single item updating and batch updating. After updating, the project progress state based on the house one-sheet map is synchronized according to the progress information of each house and personnel of each parcel implementing personnel, project progress management personnel can master the progress situation in real time, and the progress situation can be visually expressed in different symbol display modes based on the map.

(III) Charizing project progress

1. The system automatically calculates the progress of the whole project according to the progress of each project, each group, each member and the house, and displays the progress in a charting visual mode;

2. the progress of the whole project is visually displayed by combining the graphic data which are put in storage;

3. performing diagrammatization analysis on various classification conditions affecting project progress, analyzing according to set screening conditions, and obtaining attribute table records and graphic element records after analysis;

4. and performing charting thematic rendering on the statistical result data, and displaying the statistical analysis result by using a visualized chart style.

The application example directly solves the key problem that project progress information is standard and standard non-uniform based on the space elements, a unified updating processing management mode is carried out on the progress information of all groups, and in the application process, each group can also carry out project progress analysis and calculation according to the analysis focus of each type of progress. The progress analysis processing is not only based on a single dimension, but also can be based on multiple dimensions such as geographic space element data, associated attribute data and accessory data and perform progress data processing in a combined pairing mode, so that a progress processing result which has image-text interaction, accurate geographic position coordinates, different association logics and text association analysis is formed, and the progress processing result can be displayed in a visual image in different expression modes such as multiple symbols, multiple colors, multiple levels, multiple diagrams and the like. And finally, a configurable progress analysis result can be formed according to the application requirements.

It should be understood that although the various steps in the flow charts of fig. 1-5 are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least some of the steps in fig. 1-5 may include multiple steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, which are not necessarily performed in sequence, but may be performed in turn or alternately with other steps or at least some of the other steps.

In one embodiment, as shown in fig. 6, there is provided a progress information processing apparatus including: a voter information determination module 601, an identification data acquisition module 602, a spatial graph reading module 603, and a project progress presentation module 604, wherein:

a voter information determination module 601, configured to determine progress voter information of a regional transformation project progress for a target region;

an identification data obtaining module 602, configured to obtain, based on a preset right modification object correspondence, object identification data corresponding to the progress voter information and used for identifying the right modification object information; the corresponding relation of the right modified object comprises corresponding relations of different progress voter information and different right modified object information; the right modification object is a modification object belonging to a progress voter;

a spatial graph reading module 603, configured to read spatial graph data corresponding to the object identifier data from a pre-constructed project database; the project database stores a plurality of spatial graphic data, and the plurality of spatial graphic data correspond to the plurality of object identification data; the spatial graphic data comprise map data of a target area and a project progress mark corresponding to the regional transformation project progress;

and the project progress display module 604 is configured to display an electronic map corresponding to the map data of the target area, and display a project progress identifier for the target area on the electronic map.

In one embodiment, the object identification data includes first object address data; the space graph reading module 603 is further configured to extract a first address keyword from the first object address data; selecting a second address keyword matched with the first address keyword from the project database; and reading the space graphic data corresponding to the second object address data based on the second object address data corresponding to the second address keyword.

In one embodiment, the object identification data includes first parcel number data; the spatial pattern reading module 603 is further configured to select parcel number data that is the same as the first parcel number data from the project database as second parcel number data; and reading the spatial graphic data corresponding to the second parcel number data based on the second parcel number data.

In one embodiment, the progress information processing apparatus further includes: the project database construction module is used for acquiring a plurality of ownership transformation object information aiming at the target area and a plurality of spatial graphic data of the target area; determining a plurality of object identification data belonging to a preset data classification field in ownership transformation object information; if the plurality of object identification data and the plurality of spatial pattern data have data matched with each other, at least one group of corresponding relation data group is obtained; the corresponding relation data set comprises object identification data and space graphic data which are matched with each other; and establishing a corresponding relation based on at least one corresponding relation data group by using the plurality of ownership transformation object information and the plurality of spatial graphic data, and storing the corresponding relation into a project database.

In one embodiment, the data classification field includes an object address field; the plurality of object identification data attributed to the preset data classification field includes third object address data attributed to the object address field; the project database construction module is further used for extracting corresponding fourth object address data from each space graphic data; acquiring a third keyword in the third object address data and acquiring a fourth keyword in the fourth object address data; and if the third keyword is matched with the fourth keyword, establishing a corresponding relation data group based on the third object address data and the fourth object address data.

In one embodiment, the data classification field includes a parcel number field; the plurality of object identification data belonging to the preset data classification field comprise third parcel number data belonging to the parcel number field; the project database construction module is further used for extracting corresponding fourth parcel number data from each space graphic data; and if the third parcel number data and the fourth parcel number data have the same data, establishing a corresponding relation data group based on the third parcel number data and the fourth parcel number data.

In one embodiment, the progress information processing apparatus further includes: the project progress updating module is used for acquiring updated progress voter information and target object identification data corresponding to the updated progress voter information; reading target space graphic data corresponding to the target object identification data from the project database; and updating the project progress identification in the target space graphic data.

For specific limitations of the progress information processing device, reference may be made to the above limitations of the progress information processing method, which are not described herein again. Each module in the above-described schedule information processing apparatus may be wholly or partially implemented by software, hardware, and a combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

In one embodiment, a computer device is provided, which may be a terminal, and its internal structure diagram may be as shown in fig. 7. The computer device includes a processor, a memory, a communication interface, a display screen, and an input device connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system and a computer program. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The communication interface of the computer device is used for carrying out wired or wireless communication with an external terminal, and the wireless communication can be realized through WIFI, an operator network, NFC (near field communication) or other technologies. The computer program is executed by a processor to implement a schedule information processing method. The display screen of the computer equipment can be a liquid crystal display screen or an electronic ink display screen, and the input device of the computer equipment can be a touch layer covered on the display screen, a key, a track ball or a touch pad arranged on the shell of the computer equipment, an external keyboard, a touch pad or a mouse and the like.

Those skilled in the art will appreciate that the architecture shown in fig. 7 is merely a block diagram of some of the structures associated with the disclosed aspects and is not intended to limit the computing devices to which the disclosed aspects apply, as particular computing devices may include more or less components than those shown, or may combine certain components, or have a different arrangement of components.

In one embodiment, a computer device is further provided, which includes a memory and a processor, the memory stores a computer program, and the processor implements the steps of the above method embodiments when executing the computer program.

In an embodiment, a computer-readable storage medium is provided, on which a computer program is stored which, when being executed by a processor, carries out the steps of the above-mentioned method embodiments.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. Any reference to memory, storage, database or other medium used in the embodiments provided herein can include at least one of non-volatile and volatile memory. Non-volatile Memory may include Read-Only Memory (ROM), magnetic tape, floppy disk, flash Memory, optical storage, or the like. Volatile Memory can include Random Access Memory (RAM) or external cache Memory. By way of illustration and not limitation, RAM can take many forms, such as Static Random Access Memory (SRAM) or Dynamic Random Access Memory (DRAM), among others.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A progress information processing method, characterized by comprising:

determining progress voter information of a regional transformation project progress of a target region;

acquiring object identification data which is corresponding to the progress voter information and is used for identifying the right modification object information based on a preset right modification object corresponding relation; the corresponding relation of the right modified object comprises corresponding relations of different progress voter information and different right modified object information; the right modification object is a modification object belonging to a progress voter;

reading space graphic data corresponding to the object identification data from a pre-constructed project database; the project database stores a plurality of spatial graphic data, and the plurality of spatial graphic data correspond to a plurality of object identification data; the spatial graphic data comprise map data of the target area and a project progress mark corresponding to the area transformation project progress;

and displaying an electronic map corresponding to the map data of the target area, and displaying the project progress mark on the electronic map aiming at the target area.

2. The method of claim 1, wherein the object identification data comprises first object address data;

the reading of the spatial graphic data corresponding to the object identification data from the pre-constructed project database includes:

extracting a first address keyword from the first object address data;

selecting a second address keyword matched with the first address keyword from the project database;

and reading space graphic data corresponding to the second object address data based on the second object address data corresponding to the second address keyword.

3. The method of claim 1, wherein the object identification data comprises first parcel number data;

the reading of the spatial graphic data corresponding to the object identification data from the pre-constructed project database includes:

selecting parcel number data which is the same as the first parcel number data from the project database as second parcel number data;

and reading the spatial graphic data corresponding to the second parcel number data based on the second parcel number data.

4. The method of claim 1, further comprising:

acquiring a plurality of ownership transformation object information aiming at the target area and a plurality of spatial graphic data of the target area;

determining a plurality of object identification data belonging to a preset data classification field in the ownership transformation object information;

if the object identification data and the space graphic data have mutually matched data, at least one group of corresponding relation data group is obtained; the corresponding relation data set comprises object identification data and space graphic data which are matched with each other;

and establishing a corresponding relation between the plurality of ownership transformation object information and the plurality of space graphic data based on the at least one corresponding relation data group, and storing the corresponding relation into the project database.

5. The method of claim 4, wherein the data classification field comprises an object address field; the plurality of object identification data attributed to the preset data classification field comprises third object address data attributed to the object address field;

if the object identification data and the space graphic data have data matched with each other, at least one corresponding relationship data group is obtained, and the method comprises the following steps:

extracting corresponding fourth object address data from each space graphic data;

acquiring a third keyword in the third object address data and a fourth keyword in the fourth object address data;

and if the third keyword is matched with the fourth keyword, establishing the corresponding relation data group based on the third object address data and the fourth object address data.

6. The method of claim 4, wherein the data classification field comprises a parcel number field; the plurality of object identification data belonging to the preset data classification field comprise third parcel number data belonging to the parcel number field;

if the object identification data and the space graphic data have data matched with each other, at least one corresponding relationship data group is obtained, and the method comprises the following steps:

extracting corresponding fourth parcel number data from each space graphic data;

and if the third parcel number data and the fourth parcel number data have the same data, establishing the corresponding relation data group based on the third parcel number data and the fourth parcel number data.

7. The method according to any one of claims 1 to 6, further comprising:

acquiring updated progress voter information and target object identification data corresponding to the updated progress voter information;

reading target space graphic data corresponding to the target object identification data from the project database;

and updating the project progress identification in the target space graphic data.

8. A schedule information processing apparatus, characterized in that the apparatus comprises:

the voter information determining module is used for determining progress voter information aiming at the regional transformation project progress of the target region;

the identification data acquisition module is used for acquiring object identification data which is corresponding to the progress voter information and is used for identifying the right modification object information based on a preset right modification object corresponding relation; the corresponding relation of the right modified object comprises corresponding relations of different progress voter information and different right modified object information; the right modification object is a modification object belonging to a progress voter;

the space graph reading module is used for reading space graph data corresponding to the object identification data from a pre-constructed project database; the project database stores a plurality of spatial graphic data, and the plurality of spatial graphic data correspond to a plurality of object identification data; the spatial graphic data comprise map data of the target area and a project progress mark corresponding to the area transformation project progress;

and the project progress display module is used for displaying an electronic map corresponding to the map data of the target area and displaying the project progress mark on the electronic map aiming at the target area.

9. A computer device comprising a memory and a processor, the memory storing a computer program, wherein the processor implements the steps of the method of any one of claims 1 to 7 when executing the computer program.

10. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method of any one of claims 1 to 7.

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