CN111723171B - New infrastructure project investigation system based on public map development - Google Patents

Abstract

The invention discloses a new infrastructure project investigation system based on public map development. The invention comprises a display module, a data module, a labeling module, a positioning module, a base map switching module, a summarizing module, a user management module, a data management module, a tool module and an output module. The invention discloses a new construction project investigation system based on public map data service, which is used for locating and collecting data in real time and classifying, summarizing and sharing the data; the method is based on map data service and user data files, sets labeling object attributes through template definition, collects interest point information by using terminal equipment, stores the information in a database, shares the information in a cloud, performs data analysis, calculation and summarization, outputs results, and then displays collected information; the purposes of reducing repeated labor, saving data arrangement time, improving working efficiency and accelerating informatization process of foundation construction projects are achieved.

Description

New infrastructure project investigation system based on public map development

Technical Field

The invention relates to a system for full life cycle project-containing construction, project management and post operation stage informatization of a new foundation project, in particular to a system for new foundation investigation, management, information analysis and summarization sharing based on public map development.

Background

In the traditional infrastructure project design stage, engineering personnel need to carry paper drawings and tables, and the number, type and relative relation of the stake marks and the routes of interest points such as trees, buildings, power pipelines, bridges and culverts, road diseases and the like in the construction range of the field investigation project are recorded in the tables. And after returning to the residence, carrying out internal finishing, and manually inputting the paper records into the electronic form for a working mode of later work. The processes are carried out by using drawings with large carrying capacity and field tables, so that the defects of incapability of multi-person collaborative operation, heavy internal work arrangement work and the like exist, the recorded tables cannot be automatically updated after engineering line adjustment, sometimes, input information is incomplete due to missing of important tables, the scheme decision process is influenced, the design scheme is missing or missing is caused, and the social benefit of a foundation project is influenced. In the same way, various forms are filled in the project construction and project management stage and used for project construction and management, visual display is needed on a map, various decisions are needed to be made through information analysis and processing, and informationized construction is needed to be quickened in the processes.

The country of 12 months in 2018 is to list new foundation construction into government work report, which is an infrastructure system for providing services such as digital transformation, intelligent upgrading, fusion innovation and the like based on new development concept, technical innovation as drive, information network as base and high quality development requirement. New infrastructure requirements will be in the future to extend through various aspects of the infrastructure on an informative basis. With the blowing of the new basic horn, the traditional operation mode is to go without returning, and is replaced by a new operation mode.

In the prior art, many different types of map positioning, navigation and labeling software, such as Aowei, bigmap and the like, are developed and used for engineering field investigation, and meanwhile, attribute setting is performed on the labeling information and the labeling information is displayed on a map, but the software does not classify, summarize and calculate the labeling information, so that some functions are lost, and the method is not suitable for a new infrastructure project informatization process.

Therefore, in order to meet the requirements of new foundation projects and improve the informatization degree of the foundation projects, the foundation construction field still needs a digital information system capable of classifying, summarizing and calculating the marking information, so that people are separated from paper materials, repeated labor is reduced, the new foundation projects are adapted, and the informatization process of the foundation projects is accelerated.

Disclosure of Invention

In order to make up for the defects of the prior art, the invention provides a new infrastructure project investigation system based on public map data service development.

The technical scheme of the invention is as follows:

a new infrastructure project investigation system based on public map data service development comprises a display module, a data module, a labeling module, a positioning module, a base map switching module, a summarizing module, a user management module, a data management module, a tool module and an output module;

the display module: the system comprises a data management module, a positioning module, a tool module, a map downloading module, a path planning module and a data processing module, wherein the data management module is used for inputting data, the positioning information output by the positioning module, the data output by the tool module, the map downloading and the path planning are displayed;

and a data module: the method comprises the steps of importing data and exporting data after format conversion of the imported data; registering the data to a data management module; the method is also used for designating the catalogue, the layer and the coordinate projection to which the imported data belong, selecting the exported data, the output format and the coordinate projection, and storing the local position;

and the marking module is used for: the method comprises the steps of defining and managing a labeling template, labeling a dot line and a plane, and sharing the labeling, wherein data after labeling is transmitted to a data management module; meanwhile, the marked data can be shared to the user in the user management module;

and a positioning module: the method is used for acquiring the position of the user terminal and transmitting the position to the data management module; the positioning module can update the position of the user terminal in a second level.

A base map switching module: the system is used for switching different maps and transmitting map data to the data management module;

and a summarizing module: the marking object and attribute analyzing module is used for analyzing, calculating and summarizing the marking object and attribute output by the data management module and transmitting the marking object and attribute to the output module;

and a user management module: the system is used for adding and deleting management and user permission distribution to users of the system;

and a data management module: the method comprises the steps of creating named items, layers, designating items to which the layers belong, designating types of the layers, marking templates used by the layers, quickly zooming to the layer data range, deleting the items and the layers; and the map data is used for managing the annotation data imported by the annotation module, the imported data imported by the data module, the map data imported by the base map switching module and the sharing data shared among users.

Tool module: the method comprises the steps of creating a buffer area, calculating the distance of a label along a specified path, measuring the distance, measuring the area, acquiring control points for registering data, downloading a map and planning the path; the data calculated by the tool module are also transmitted to the display module and the output module;

the output module is used for outputting the data transmitted by the data module, the summarizing module and the tool module.

Preferably, the data import flow of the data module is: the user selects a local file, the program judges whether registration setting is needed according to the type of the uploaded file, if no registration setting is needed, the user selects a projection degree zone, names and stores a layer, registers and stores the layer, and the layer is transmitted to a display module for display through a data management module; if registration setting is needed, a user designates a registration file obtained by the tool module, selects a projection degree zone, names a storage layer name, registers and stores the registration file, and transmits the registration file to the display module for display through the data management module, wherein the data storage hierarchical relationship can be displayed in the data management module.

Preferably, the data export workflow of the data module is: the user selects the exported data (layer), sets the exported format, projects coordinates, designates the storage position and storage type, stores and outputs, and realizes the interconversion of different data formats.

Preferably, the annotation template management is used for building, modifying and deleting templates; the created template field contains text, numerical value, drop-down frame, position, date, time, length and area; after the template is defined, the template is stored in a database for standby, and the defined template is listed by a program and can be checked, modified and deleted.

Preferably, the marking module is used for marking the dotted line and the surface and selecting a marking template, the user pops up the attribute of the marking template when marking, so that the user can input or automatically acquire the marking template, the marking dotted line and the surface patterns are defined when marking, the camera of the user terminal is called to shoot a photo, and the file and the video are uploaded; file support contains html, htm, svg and txt file previews and other file downloads to local functions.

Preferably, the annotations share templates for sharing data and definitions among users.

Preferably, the map download procedure of the tool module is as follows: downloading the *** images, the sky map images and the sky map vector map of different levels in the drawing area to a local machine for storage; the user creates a downloading task, selects a map source and draws a downloading range, the drawing area can be rectangular, polygonal or circular, the system displays the coordinate range of the drawing area, the map level and the storage position, after clicking, the downloading task is created, the task name, the map level and the downloading progress (progress bar display) are displayed, after the downloading is completed, the clicking operation is conducted (downloading) and the system spells the downloaded pictures into the whole pictures and stores the whole pictures to the designated positions.

The beneficial effects of the invention are as follows:

the invention discloses a new construction project investigation system based on public map data service, which is used for locating and collecting data in real time and classifying, summarizing and sharing the data; the method is based on map data service and user data files, sets labeling object attributes through template definition, collects interest point information by using terminal equipment, stores the information in a database, shares the information in a cloud, performs data analysis, calculation and summarization, outputs results, and then displays collected information; the purposes of reducing repeated labor, saving data arrangement time, improving working efficiency and accelerating informatization process of foundation construction projects are achieved.

Drawings

FIG. 1 is a schematic diagram of the connection relationship between the modules of the present application;

FIG. 2 is a data import flow for a data module;

FIG. 3 is a data export flow of a data module;

fig. 4 is a summary export flow of the summary module.

101. The system comprises a display module, 102, a data module, 103, a labeling module, 104, a positioning module, 105, a base map switching module, 106, a summarizing module, 107, a user management module, 108, a data management module, 109, a tool module, 110 and an output module.

Detailed Description

As shown in fig. 1, 2, 3 and 4, the new infrastructure project investigation system based on public map development comprises a display module 101, a data module 102, a labeling module 103, a positioning module 104, a base map switching module 105, a summarizing module 106, a user management module 107, a data management module 108, a tool module 109 and an output module 110;

the user management module 107 is used for user rights management; after registering through the user management module 107, the user a logs in the system through the mobile phone end or the computer end, and each module of the system works.

As shown in fig. 1, the data module 102, the labeling module 103, and the base map switching module 105 may transmit data to the data management module 108, and the positioning module 104 and the tool module 109 may transmit data to the display module, where the data module 102, the labeling module 103, the positioning module 104, the base map switching module 105, and the tool module 109 are not in sequential order during operation; the data management module 108 sends the data to the summarizing module 106 for data processing and summarizing, and sends the summarized result to the output module 110 for output after summarizing; the data of the tool module 109 and the imported data converted by the data module 102 are also sent to the output module 110 for output.

Clicking a corresponding menu of the data module 102 to import and export data; importing data, wherein the data comprises the following file formats: 1. vector data: files containing SHP (. Zip), KML, KMZ, GML, geoJson, CSV, excel, DXF, etc. formats; 2. raster data: a file containing tif, jpg, png, gif format; the data in the file format can be selected through a catalog or directly dragged to a designated area to upload files, and the file uploading progress display function is provided; and registers the data to the data management module 108;

the data import flow is shown in fig. 2; the user selects a local file, the program judges whether registration setting is needed according to the type of the uploaded file, if no registration setting is needed, the user selects a projection degree zone, names and stores a layer, registers and stores the layer, and the layer is transmitted to a display module for display through a data management module; if registration setting is required, a user designates a registration file (the registration file is obtained by the tool module 109), the user selects a projection degree band, names a storage layer name, registers and stores the storage layer name, the registration and storage layer name is transmitted to the display module 101 through the data management module for display, and the data storage hierarchical relationship is displayed in the data management module 108.

Taking a file with an imported DXF format as an example, a user clicks the system to import data, selects a local DXF file, designates a data storage directory (project), designates a layer (subitem) (named DXF date) according to the DXF coordinate projection, designates a corresponding coordinate projection, and can also be registered to the system by using a registration file. The user selects the imported data, and the system is displayed on the display module 101.

The data export process is shown in fig. 3, and is a reverse flow of the data import process, and the data export is to register the imported data and the labeled data to the corresponding coordinate system for export and use, and provide the functions of outputting and interconverting files in SHP (. Zip.) and KML, KMZ, GML, geoJson, DXF formats.

The workflow of data export is as follows: the user selects the export data (layer), sets the export format, projects coordinates, designates the storage location, storage type, and stores and outputs.

Taking the export KML as an example, for example, the data export is illustrated, the user clicks the data export of the system, selects the export layer (child item) (DXF date), selects the output format as KML, selects the output coordinate projection, selects the storage to the local position, and outputs the data of the system.

The DXF format file may be converted to KML file format by the above operations. And the method can also be used for mutual conversion and export of files in other formats.

Clicking a corresponding menu of the labeling module 103, and enabling a user to manage the labeling template, label the objects such as a dot line and a plane and share the labeling;

and the template management is used for creating, modifying and deleting templates. The created template fields comprise text, numerical values, drop-down boxes, positions (longitude, latitude, geographic positions where labels are positioned, and the like), dates, times, lengths, areas and other attribute fields; after the template is defined, the template is stored in a database for standby, and the defined template is listed by a program and can be checked, modified and deleted.

The following are illustrated: the user defines attribute templates (Form Plate 1, form Plate 2, form Plate i), and template fields can be added according to requirements, and can comprise text, numerical values, drop-down boxes, positions (longitude, latitude, geographic positions where labels are located, and the like), date, time, length, area and other attribute fields.

The labeling module 103 is used for creating, modifying and deleting label objects such as points, lines and planes, inputting the attributes of the created objects, and editing and querying the created objects. Clicking point, line and surface marking icons, marking the display module 101, selecting the layer to which the program belongs, listing the layer template attribute (Form Plate 1, form Plate 2 and Form Plate i) fields to which the program belongs, and inputting the corresponding attribute or the geographical position (longitude, latitude, geographical position where the marking is positioned, and the like), length, area and date of marking obtained by the program by a user; selecting point, line and surface patterns, and storing the selected point, line and surface patterns in a database.

The method comprises the steps of using point labeling to illustrate labeling, clicking point labeling, designating a catalog to which the labeling belongs in a display module labeling point, using a Form Plate 1 template during labeling, popping up template attributes to be input by a system, and inputting corresponding investigation data according to the attributes;

when selecting the labeling object, the user can delete the point, the line and the surface; the method can edit each side, each vertex and each face, and the faces rotate to modify the shape, the face attribute and the like of the faces;

the user side camera can be called; recording, photographing and uploading files, uploading the files to the local or cloud, and downloading other files to the local function, wherein the files support file previews including html, htm, svg, txt and the like.

The annotation sharing module is used for sharing the annotations and the data among users and devices;

annotation sharing is illustrated with line annotations: clicking the label sharing menu, selecting sharing data (line layer) and a user (B), wherein the data can be shared with the user (B), the user (B) prompts that the user (A) receives sharing information after logging in, and the system lists corresponding information and can be added to a designated layer (sub item).

The mobile phone user selects the layer data in the data management module, and the sharing menu, zooming, renaming and deleting functions appear when the screen is slid rightwards.

The positioning module 104 is configured to obtain a user terminal position and display the user terminal position in the display module 101;

a base map switching module 105, configured to switch different data source maps; the display module 101 displays corresponding map data when a user selects different data sources by integrating common map data sources such as a *** map, a sky map, an opentreetmap and opencyclemap.

The tool module 109 provides functions of pile number calculation, buffer area generation, ranging, surface measurement, control point, map downloading, path planning and the like, the buffer area is stored in a database in a layer form, and a user can name, modify and edit the data.

Wherein, pile number calculates: the labeling layer, the roadmap layer and the buffer zone to be calculated are selected, the pile number of the point, the line start and end pile numbers in the range of the buffer zone are calculated by the system, and the pile number of the intersection point of the surface and the buffer zone is displayed in the display module 101.

Buffer generation: selecting a buffer layer to be generated, setting a buffer distance, defining a buffer layer name by a user, and transmitting related data of the buffer layer to the display module 101, wherein a storage catalog of the buffer layer is displayed in the data management module 108.

Ranging; measuring the distance between two or more points in the display module; measuring the surface: and measuring the area and the side length drawn in the display module, and deleting the area and the side length by a user.

A control point; clicking a mouse on the display module to acquire the coordinate value of the associated point (the coordinate of one or more known points in the imported data and the coordinate of the corresponding point in the system) in the system for registration.

Uploading pictures; displaying the picture, and clicking a mouse can acquire the pixel position coordinates of the picture for registration;

map downloading: downloading the *** images, the sky map images and the sky map vector map with different levels in the drawing area to a local machine for storage; the user creates a downloading task, selects a map source and draws a downloading range, the drawing area can be rectangular, polygonal or circular, the system displays the coordinate range of the drawing area, the map level and the storage position, after clicking, the downloading task is created, the task name, the map level and the downloading progress (progress bar display) are displayed, after the downloading is completed, the clicking operation is conducted (downloading) and the system spells the downloaded pictures into the whole pictures and stores the whole pictures to the designated positions.

Path planning: the user selects a start point and an end point, and the system draws a navigation path from the start point to the end point.

A data management module 108, a data management module: the method comprises the steps of creating named items, layers, designating items to which the layers belong, designating types of the layers, marking templates used by the layers, quickly zooming to the layer data range, deleting the items and the layers; the map data are used for managing the annotation data imported by the annotation module, the imported data imported by the data module, the map data imported by the base map switching module and the sharing data shared among users; the new project and new sub-project (new layer) can be created, and the user can select the data to be displayed in the display window;

illustrating:

a project is newly created and named as project, a layer (sub-item) is newly created under the project catalog, and a dot layer (named as a point layer), a line layer (named as a line layer) and a surface layer (area layer) can be newly created, and a labeling template used by each layer (sub-item) is designated, and the labeling template is provided by the labeling module 103.

Clicking on the corresponding menu of the data management module 108: creating named items, layers, designating items to which the layers belong, designating layer types (points, lines and planes), labeling templates for the layers, quickly scaling to the layer data range, deleting the items and the layers.

The summarizing module 106 is divided into a four-rule operation summarizing module and a classification summarizing module; the summarizing module 106 may summarize the labeled summary layers, specify a buffer area along a specified path (layer), summarize the labeled objects and attributes, and may customize a calculation method (calculation formula), set an output attribute sequence and a calculation result, and store the calculation result locally.

The export flow is summarized as shown in fig. 4. Four arithmetic summaries are illustrated by taking point summary as an example: clicking the corresponding menu of summary module 106 for summary of four operations, selecting summary layer (point layer) by user, clicking addition calculation formula, listing attribute fields for calculation by selecting layer (point layer), defining the relation between calculation result and each attribute (for example, numerical attribute) according to requirement by user, and naming formula name as formula 1; selecting a route pattern layer, setting a buffer distance, selecting output setting, listing default fields, selecting all attribute fields of the pattern layer by a user, defining formula names, and selecting output attributes, fields and names according to requirements. And storing the positions, outputting the electronic documents to the local by the system according to the output setting sequence, and outputting the electronic documents to the local by the system.

The system lists attribute fields for which the selected layers can be used for calculation, and the user defines the relation between the calculation formula and each attribute according to the need (for example, the number=the area×the unit area number); selecting a route pattern layer, setting a buffer distance, calculating the number of points marked in the range of a buffer area, the length of lines and the area of a surface by a system, selecting output settings, listing default fields by the system, selecting and integrating all attribute fields (attribute fields defined in Form Plate 1) of the map layer by a user, defining formula names (formula 1, formula 2 and formula i), storing positions, outputting the positions to the local area by the system according to the output setting sequence, and outputting an electronic Form to the local area by the system.

The output module 110 is configured to receive the data input by the output function module and output the data to a local area.

The method is based on public map data service and user data files, and utilizes terminal equipment to collect interest point information, object annotation and set annotation attributes, the information is stored in a database, shared by cloud, data analysis and calculation classification summarization are carried out, analysis results are output, and collected information is displayed; the purposes of reducing repeated labor, saving data arrangement time, improving working efficiency and accelerating informatization process of foundation construction projects are achieved.

Claims (4)

1. A new infrastructure project investigation system based on public map data service development is characterized in that: the system comprises a display module, a data module, a labeling module, a positioning module, a base map switching module, a summarizing module, a user management module, a data management module, a tool module and an output module;

the display module: the system comprises a data management module, a positioning module, a tool module, a map downloading module, a path planning module and a data processing module, wherein the data management module is used for inputting data, the positioning information output by the positioning module, the data output by the tool module, the map downloading and the path planning are displayed;

and a data module: the method comprises the steps of importing data and exporting data after format conversion of the imported data; registering the data to a data management module; the method is also used for designating the catalogue, the layer and the coordinate projection to which the imported data belong, selecting the exported data, the output format and the coordinate projection, and storing the local position;

and the marking module is used for: the method comprises the steps of defining and managing a labeling template, labeling a dot line and a plane, and sharing the labeling, wherein data after labeling is transmitted to a data management module; meanwhile, the marked data is shared to the user in the user management module;

and a positioning module: the method is used for acquiring the position of the user terminal and transmitting the position to the data management module; the positioning module realizes second-level updating of the position of the user terminal;

a base map switching module: the system is used for switching different maps and transmitting map data to the data management module;

and a summarizing module: the marking object and attribute analyzing module is used for analyzing, calculating and summarizing the marking object and attribute output by the data management module and transmitting the marking object and attribute to the output module;

and a user management module: the system is used for adding and deleting management and user permission distribution to users of the system;

and a data management module: the method comprises the steps of creating named items and layers, designating items affiliated to the layers, designating types of the layers and marking templates used by the layers, quickly zooming to the layer data range, and deleting the items and the layers; the map data are used for managing the annotation data imported by the annotation module, the imported data imported by the data module, the map data imported by the base map switching module and the sharing data shared among users;

tool module: the method comprises the steps of creating a buffer area, calculating the distance of a label along a specified path, measuring the distance, measuring the area, acquiring control points for registering data, downloading a map and planning the path; the data calculated by the tool module are also transmitted to the display module and the output module;

the output module is used for outputting the data transmitted by the data module, the summarizing module and the tool module;

the summarizing module is divided into a four-rule operation summarizing module and a classification summarizing module; the summarizing module summarizes the marked summarizing layers, appoints a buffer area along a designated path, summarizes marked objects and attributes, and a user self-defines a calculation method, sets an output attribute sequence and a calculation result, and stores the calculation result to a local place;

four operations are summarized as follows: clicking the corresponding menu of the summary module for summary operation, selecting a summary layer by a user, clicking an added calculation formula, listing attribute fields for calculating by the selected layer by the system, defining the relation between a calculation result and each attribute according to the requirement by the user, and naming the formula name as formula 1; selecting a route pattern layer, setting a buffer distance, selecting output settings, listing default fields, selecting all attribute fields of the pattern layer by a user, defining formula names, and selecting output attributes, fields and names according to requirements; the storage position is output to the local by the system according to the output setting sequence, and the system outputs the electronic document to the local;

the classifying and summarizing module is as follows: the user selects a summary layer, clicks an adding calculation formula, the system lists attribute fields for calculating the selected layer, and the user defines the relation between the calculation formula and each attribute according to the requirement; selecting a route pattern layer, setting a buffer distance, calculating the number of points marked in the range of a buffer area, the length of lines and the area of a surface by a system, selecting output settings, listing default fields by the system, selecting and integrating all attribute fields of the map layer by a user, defining formula names, storing positions, outputting to the local by the system according to the output settings, and outputting an electronic form to the local by the system.

2. A new construction project survey system developed based on public map data services of claim 1, wherein: the data import flow of the data module is as follows: the user selects a local file, the program judges whether registration setting is needed according to the type of the uploaded file, if no registration setting is needed, the user selects a projection degree zone, names and stores a layer, registers and stores the layer, and the layer is transmitted to a display module for display through a data management module; if registration setting is needed, a user designates a registration file obtained by the tool module, selects a projection degree zone, names a storage layer name, registers and stores the registration file, and transmits the registration file to the display module for display through the data management module, wherein the data storage hierarchical relationship can be displayed in the data management module.

3. A new construction project survey system developed based on public map data services of claim 1, wherein: the data export workflow of the data module is as follows: the user selects the export data, sets the export format, projects coordinates, designates the storage position and storage type, and stores and outputs.

4. A new construction project survey system developed based on public map data services of claim 1, wherein: the annotation template management is used for newly building, modifying and deleting templates; the created template field contains text, numerical value, drop-down frame, position, date, time, length and area; after the template is defined, the template is stored in a database for standby, and the defined template is listed by a program and can be checked, modified and deleted.

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