CN116578564A - All-in-one production quality control integrated application service system - Google Patents

Abstract

The application relates to the technical field of mapping systems, in particular to a multi-measurement-in-one production quality inspection integrated application service system, which comprises: the database module is used for storing mapping databases of different project types which are mutually related and are configured in advance; the application software module generates a corresponding project type interface based on the mapping project type, obtains a corresponding operation instruction based on user operation, and performs corresponding mapping action in the project type interface; the comprehensive quality inspection module selects a corresponding quality inspection scheme according to the type of the mapping project, selects a mapping database of the same type, acquires mapping results corresponding to the quality inspection object information, and compares and calculates the mapping results with corresponding original results in the mapping database; the foundation support module is used for providing a foundation support environment for the platform to operate; the application module is used for providing a user interface for a user to interact with the system. The application has the effect of realizing the integrated operation of data arrangement, mapping, quality inspection, database construction and the like.

Description

All-in-one production quality control integrated application service system

Technical Field

The application relates to the technical field of mapping systems, in particular to a multi-measurement-in-one production quality control integrated application service system.

Background

The mapping is based on computer technology, photoelectric technology, network communication technology and space science, and is based on a full navigation satellite system, remote sensing and geographic information system as technical cores, existing characteristic points and boundary lines of the ground are selected, and graph and position information reflecting the ground current situation are obtained through measurement means, so that the mapping is a technology for engineering construction, planning design and administrative management.

In the survey and drawing process, not only need to carry out survey and drawing work, still need to arrange in order survey and drawing data, survey and drawing result carries out quality inspection, carry out database for survey and drawing and build storehouse etc. survey and drawing platform in the correlation technique only supports going on of survey and drawing work, when entering other work steps, needs to change different platforms and continue to carry out work, this results in survey and drawing business to go on in platform operation effect comparatively decentralize, the data standard is difficult to unify, survey more and unify work efficiency relatively poor.

Disclosure of Invention

The application provides a production and quality inspection integrated application service system with multiple measurements for realizing the integrated operation of data arrangement, mapping, quality inspection, warehouse construction and the like.

The application provides a multi-measurement-in-one production quality inspection integrated application service system, which adopts the following technical scheme:

an all-in-one production quality control integrated application service system, comprising:

the database module is used for storing mapping databases of different pre-configured project types, wherein the mapping databases comprise table names, table descriptions, table types and original achievements corresponding to a plurality of mapping data, and the table names, the table descriptions and the table types are in one-to-one correlation;

the application software module is used for acquiring uploaded mapping project types and mapping data, generating a corresponding project type interface based on the mapping project types, acquiring corresponding operation instructions based on user operation, selecting a mapping database of the same type from the database module according to the mapping project types, acquiring table names matched with the operation instructions from the mapping database, acquiring corresponding table descriptions based on the table names, performing corresponding mapping actions in the project type interface according to the table names and the mapping data, and generating corresponding mapping achievements after mapping is completed;

the comprehensive quality inspection module is used for selecting a corresponding quality inspection scheme according to the type of the mapping project, selecting a mapping database of the same type from the database module, acquiring corresponding quality inspection object information according to the corresponding quality inspection scheme, acquiring a mapping result corresponding to the quality inspection object information, comparing and calculating the mapping result with an original result corresponding to the mapping database to obtain a calculation result, and generating a corresponding quality inspection result and a quality inspection report according to the calculation result;

the basic supporting module is used for realizing data and service transfer guarantee between the database module and the application software module and providing a basic supporting environment for platform operation;

the application module is used for providing a user interface for interaction between a user and the system and realizing mapping result display, function module expansion, database result expansion and the like.

Preferably, the database module comprises a basic topography database, a planning mapping database, a real estate mapping database, a land mapping database and a real estate database, wherein a plurality of mapping databases are correspondingly provided with mapping project type labels, and a plurality of mapping databases are independently operated and organically integrated.

Preferably, the application software module includes:

the planning and mapping unit comprises planning and positioning, positive and negative zero detection and planning completion measurement, and when the uploaded mapping project type is planning and mapping, a corresponding template file is obtained from a planning and mapping database in the database module, and the template file defines a corresponding layer, color, linearity and character style in the planning and mapping service;

the real estate mapping unit is used for providing real estate processing, calculating and generating real estate mapping report forms of real estate mapping data;

the land mapping unit is used for mapping positions, areas, rights limits, boundary points, buildings, structures and land utilization types according to the table description and the mapping data so as to obtain corresponding mapping results, wherein the mapping results comprise land map, boundary point addresses and area data;

the green land mapping unit is used for carrying out surface construction, labeling and green land area statistics summarization on the green land mapping range line so as to obtain mapping results; and the civil air defense mapping module is used for obtaining corresponding mapping results based on the table description and mapping data corresponding to the civil air defense mapping business, and carrying out area calculation and mapping result output on the mapping results.

Preferably, the comprehensive quality inspection module is further used for setting quality inspection project information, including a result name, a project number, a production unit, a commission unit, a quality inspector name and a inspector name.

Preferably, the comprehensive quality inspection module comprises a terrain quality inspection unit, a planning mapping data quality inspection unit, a real estate mapping data quality inspection unit, a green space mapping data quality inspection unit, a civil air defense mapping data quality inspection unit and a pipeline achievement quality inspection unit.

Preferably, the quality inspection scheme comprises a detection coordinate file and a corresponding detection layer, and the quality inspection object information comprises coordinates of each detection point, a building height value, an indoor and outdoor floor elevation value, an area value and a pipeline burial depth value in a quality inspection area selected according to the detection coordinate file and the corresponding detection layer.

Preferably, the base support module comprises a base software platform including a DotNetFramework and ObjectArx.

Preferably, the basic supporting module is further used for defining interface specifications of the function plug-in, application program interface specifications and a function module registration and uninstallation mechanism, so as to provide an integrated environment of each external function module.

In summary, the present application includes at least one of the following beneficial technical effects:

1. by applying modern information technology and according to the principles of overall planning and step-by-step implementation, a unified standard is established on the basis of the existing resources, a set of operation platform which can be compatible with the mainstream data format and centralize various mapping services on a system is established by integrating the operation flow of the existing operation software in the current market and the corresponding data format with the computer and geographic information technology as support; 2. establishing a multi-test-in-one database to solve the problem of disordered storage of the multi-test-in-one data

3. A series of technical rules such as multi-test-in-one data arrangement, quality inspection, database construction and the like are compiled and perfected, and all links of multi-test-in-one operation, quality inspection, warehousing, management, distribution and application are standardized.

Drawings

FIG. 1 is a schematic diagram of the overall module of an embodiment of the present application.

Detailed Description

The present application will be described in further detail with reference to fig. 1.

The embodiment of the application discloses a production quality control integrated application service system integrating multiple tests.

All-in-one production quality inspection integrated application service system overall technical route:

(1) Secondary development technology based on AutoCAD ObjectArx library

ObjectARX is a development software package developed by AutoDesk corporation for secondary development on an AutoCAD platform.

The ObjectARX application program has the characteristics of data encapsulation, inheritance, polymorphism and the like of an object-oriented programming mode. The engineering AutoCAD software developed by the method has the advantages of good modularity, strong independence, simple connection, convenient use, high-efficiency and practical internal functions, strong code reusability and the like, and can realize a plurality of complex functions simply and efficiently.

1. The system design is implemented all the time based on the open ideas of 'componentization design' and 'plug-in architecture', and the componentization design and the plug-in architecture enable the system to have good expansibility and integration in the aspect of application architecture and technology combination, and can meet new application requirements derived in the future along with the application expansion of basic geographic information.

The method comprises the steps of defining interface specifications of function plugins and interface specifications of application program frameworks, registering and unloading functional modules, developing various function plugins meeting the interface specifications based on AutoCAD, and constructing an application system through the registering and unloading functional plugins, so that the application system can be expanded more conveniently and rapidly. The system introduces a plug-in architecture to integrate functional modules, and the plug-in architecture adopts the ideas of dynamic registration and dynamic loading. The system provides a unified plug-in platform, and each functional module is integrated on the platform in a plug-in mode, and the plug-in complies with the structural specification, so that the expansibility of the system is greatly improved. The system comprehensively implements the assembly and plug-in design ideas, so that the system has strong adaptability, expansion capability and application integration capability.

The multi-test-in-one production quality inspection integrated application service system is subjected to secondary development based on AutoCAD, a C# programming language is used under a Microsoft Visual Studio 2017 development environment, an AutoCAD dwg file is operated by an ObjectArx for.Net component of an Autodesk company, word and excel files are read and written by an NPOI library, and database data is read and written by an ADO.NET. The AutoCAD version supported by the system is more than AutoCAD2014 version and more than DotnetFramework version 4.0.

As shown in FIG. 1, the integrated application service system for the production quality control with multiple tests comprises a database module, an application software module, a comprehensive quality control module, a basic supporting module and an application module.

The database module corresponds to a data layer and is used for storing mapping databases corresponding to different pre-configured project types, wherein the mapping databases comprise table names, table descriptions corresponding to a plurality of mapping data, and the table database module stores a mode of selecting a Postgre database and Postgis plugins.

postgreSQL is a very powerful, source-code open client/server relational database management system (RDBMS) that has many of the features that are found in large commercial RDBMS, including transaction, sub-select, trigger, view, foreign key reference integrity, and complex locking functions. PostGIS is an extension of PostgreSQL, which provides spatial information service functions of spatial objects, spatial indexes, spatial operation functions, and spatial operators. Meanwhile, postGIS complies with the specifications of OpenGIS.

The database module comprises a basic topography database, a planning mapping database, a real estate mapping database, a land mapping database and a real estate database, wherein a plurality of mapping databases are correspondingly provided with mapping project type labels, and a plurality of mapping databases are independently operated and organically integrated.

Planning mapping database:

before the integrated application service system of the production quality inspection with multiple tests is established, planning and mapping results are stored in an AutoCAD dwg format. In general, a mapping project generates a plurality of dwg result files, and the files are stored on a computer of an operator and cannot be centrally and uniformly managed, so that file versions are disordered. The integrity and the behavior of the data are effectively ensured by uniformly managing the mapping data through the database.

The planning and mapping data database is to objectify, symbolize and attribute the planning and mapping elements before warehousing, and simultaneously meets the bidirectional requirements of drawing warehouse entry and library drawing warehouse entry. Planning mapping data includes anchor points, control lines, building contours, etc. The complete table of the planning mapping database is as follows:

TABLE 1-1 planning mapping database data table

Real estate mapping database:

the property mapping database stores project information of property mapping, apportionment calculation process and property mapping result data. The complete table of the property mapping database is as follows:

table 1-2 real estate mapping database data table

Table name	Table description	Table type
			ST_Line	House structure line	Linear element table
ST_Region	Fang Wumian	Planar element table
			ST_Anno	House label	Labeling element table
ST_AnnoLine	House marking lead wire	Linear element table
			SvMetadata	House mapping metadata	Attribute table
SvDict	House mapping data dictionary	Attribute table
			T_Door	Rights and interests table	Attribute table
T_BasicDoor	Basic household	Attribute table
			T_Layer	Floor system	Attribute table
T_FTRegion	Apportioning areas	Attribute table
			T_Component	Apportioning elements	Attribute table
T_Region	Split spreading surface	Attribute table

Land mapping database:

the land mapping database is used for storing land, land boundary address information, natural building, house information in natural building and the like. The complete table of the land mapping database is as follows:

tables 1-3 land survey database data sheets

Base terrain database:

the basic topography database stores 1: DLG data at 500 scale, detailed base topography data are presented below:

tables 1-4 basic topography database data table

Table name	Table description	Table type
			SCP_PT_K	Measurement control point (dot)	Point element list
SCP_LN_K	Measurement control point (line)	Linear element table
			HYD_PT_K	Water system (dot)	Dot-like elementWatch (watch)
HYD_LN_K	Water system (line)	Linear element table
			HYD_PY_K	Water system (noodle)	Planar element table
RES_PT_K	Residential and facility (Point)	Point element list
			RES_LN_K	Residential and facility (line)	Linear element table
RES_PY_K	Residential land and facilities (face)	Planar element table
			TRA_PT_K	Traffic (dot)	Point element list
TRA_LN_K	Traffic (line)	Linear element table
			TRA_PY_K	Traffic (flour)	Planar element table
PIP_PT_K	Pipeline (dot)	Point element list
			PIP_LN_K	Pipeline (line)	Linear element table
BOU_PT_K	Boundary and political region (Point)	Point element list
			BOU_LN_K	Boundary and political region (line)	Linear element table
BOU_PY_K	Boundary and political region (face)	Planar element table
			TER_PT_K	Landform (Point)	Point element list
TER_LN_K	Landform (line)	Linear element table
			TER_PY_K	Landform (noodle)	Planar element table
VEG_PT_K	Vegetation and soil (dot)	Point element list
			VEG_LN_K	Vegetation and soil (line)	Linear element table
VEG_PY_K	Vegetation and soil (face)	Planar element table
			ANNO_K	Annotation mark	Annotation element list

By monitoring various mapping data achievements, data resources related to construction of a multi-measurement and integrated production quality inspection integrated application service system of other professional departments are built and incorporated, data exchange among distributed databases and high integration of multi-source massive spatial data are realized, data maintenance cost is reduced, data management efficiency is improved, and the problem of confusion of integrated data storage in the past is solved.

Meanwhile, in the traditional GIS software, the graph and the attribute are fields of geographic entities and are integrally stored in a file or a table of a spatial database. The graphic storage in AutoCAD is special and has no function of defining attribute fields and storing attribute tables. In the all-in-one production quality control integrated application service system, the attribute information of the geographic entity, such as element codes, names, areas and the like, is stored by defining the extension data (xdata) of the graphic entity, the attribute table information is stored by a named object dictionary (Named Object Dictionary) of the AutoCAD, and the geographic entity is efficiently searched by attribute keywords.

The application software module is used for acquiring the uploaded mapping project types and mapping data, generating a corresponding project type interface based on the mapping project types, obtaining corresponding operation instructions based on user operation, selecting the same type of mapping databases from the database module according to the operation instructions, acquiring table names matched with the operation instructions from the mapping databases, acquiring corresponding table descriptions based on the table names, performing corresponding mapping actions in the project type interface according to the table descriptions and the mapping data, and generating corresponding mapping results after mapping is completed.

Specifically, the application software module includes:

and the planning and mapping unit comprises planning and positioning, positive and negative zero detection and planning completion measurement, and when the uploaded mapping project type is planning and mapping, a corresponding template file is obtained from a planning and mapping database in the database module, and the template file defines corresponding layers, colors, linearity and character patterns in the planning and mapping service. Specifically, the planning mapping unit includes the following functions:

(one), loading module: and acquiring a configured template file (dwt file) from a planning and mapping database in the database according to the uploaded mapping project type, wherein the template file is provided with a layer, color, line type, character pattern and the like required in the planning and mapping service.

(II), display points: the coordinates and elevations in the field mapping coordinate file (dat, txt format) are plotted to the graph surface in the form of point images.

(III), connecting wires: the coordinates and elevations in the field mapping coordinate file (dat and txt formats) are displayed on a graph surface in the form of point images, and adjacent points are connected into lines according to numbers.

Fourth, taking points: and acquiring coordinates of a mouse click position on the drawing, generating a point image and a point number, and labeling the point number and the values of the coordinates X, Y.

Fifth, updating the point: after taking the point, if the position of the point changes, the coordinate marking value changes correspondingly.

(VI), deriving coordinates: the coordinates (x, y, z) of the dot pattern layer on the map are exported to a coordinate file (. Dat,. Txt format).

(seventh), coordinate achievement table: the coordinates (x, y, z) of the dot pattern layer on the graph are exported to a coordinate result table file (Excel file format).

Eighth, control point achievement table: and generating a control point result table file (Excel file format) according to the control point coordinate file, the input control point grade, engineering information and the like.

And (nine), planning a comparison table: according to the planning and mapping type (positioning, zero and zero completion), inputting project information, selecting an actual measurement point diagram layer and a theoretical point diagram layer, and generating an actual measurement point and theoretical point comparison result table.

(ten), drawing profile: selecting a graph profile range or automatically calculating a range on the graph generates a total flat graph profile, a green map profile, a four-to-one graph profile, and the like.

(eleven), positive and negative zero detection: and generating a coordinate comparison table according to the selected actual coordinate point file and the theoretical coordinate point file.

(twelve), automatic detection: in another mode of positive and negative zero detection, the coordinate comparison is automatically carried out according to the selected actual measurement coordinate point diagram layer and the theoretical coordinate point diagram layer, and a coordinate comparison table is generated.

Thirteenth, label: and selecting a single layer, and automatically marking the single size.

Fourteen, blue brushing of the total flat graph: a red line range is selected on the overall plan view, the figure color in the red line range is set to blue, and the figure outside the range is set to gray.

The real estate mapping unit is used for providing real estate mapping data for the internal industry processing, calculation and real estate mapping report forms, and specifically comprises the following functions:

1. setting mapping information: the real estate mapping result is usually in units of a building, and setting mapping information sets basic information and mapping project information of the building.

2. Pretreatment: and performing operations such as unified graph type conversion, arc turning lines and the like on the drawn house structure line. The types of line patterns in AutoCAD software are more, such as broken lines, three-dimensional broken lines, straight lines, spline curves, circular arcs and the like, the patterns are uniformly converted into broken lines in a system, and then the broken lines participate in face constructing operation.

3. And (3) constructing: and forming a surface for the pretreated house structure line. The platform carries out topology processing on the selected house structure line, an R tree index is constructed, and then a closed area surrounded by folding lines on the graph is formed into a surface object according to a two-dimensional graph closed area automatic recognition algorithm. The planar geographic entity is expressed by utilizing the Region graph type of AutoCAD and generating and filling (latch) of the Region graph;

by building R tree indexes on the AutoCAD graph data (points, lines and planes), pruning of different granularity ranges of the space data is realized, and the execution efficiency of query under the AutoCAD running environment is improved.

4. Type of apportionment: setting the allocation type of the selected surface on the graph, wherein eighteen kinds of allocation types are defined in a platform, namely a household room, a household room membership, a household room attachment, a balcony, a closed balcony, a small balcony, a bay window, an equipment platform, a building share, an overground share, a district share, a layer share, an average allocation, a custom allocation, a self-selection allocation, a non-allocation household room and an area.

5. Layer-returning and positioning: the floor and the functional area of the selected surface are set.

6. Area coefficient: its area calculation coefficient is set for the selected face on the map.

7. Room number: setting the unit number and the household number of the household.

8. Setting names: setting names of the separate planes, and marking the names on the graph.

9. Setting planning purposes: setting a planning purpose of a house or a separate booth.

10. And (5) apportioning the model: and (5) establishing a model.

11. And (5) apportioning and calculating: and carrying out allocation calculation according to the established allocation model.

12. Generating a report: various reports are generated, including real estate mapping and prediction drawing reports, record tables, area checking tables and the like.

13. Editing the surface: editing the surface graph, including adding, deleting, moving of surface nodes, merging and dividing of surfaces, and the like.

14. Data exchange: the platform is compatible with results generated by other real estate mapping software, and other real estate mapping result formats can be imported and exported.

15. And (3) checking data: data inspection is performed on the property mapping formation, including graphic inspection, attribute inspection, and apportionment model inspection.

16. Labeling: the marking of the house number, the name of the apportioned face, the area, the side length, the floor information and the like has two modes of automatic marking and manual marking.

17. And (3) printing: and outputting a layered drawing, a household drawing and a real estate measurement sketch by real estate mapping results.

18. Rights table: and generating a property mapping rights list.

Meanwhile, the real estate sharing calculation is a core part of the real estate mapping unit, an intelligent sharing model of the real estate sharing part area is defined, and sharing elements of the real estate sharing, the functional area sharing, the layer sharing and the house sharing are defined in the model to abstract and summarize real estate mapping entities. The model follows the allocation principle of from top to bottom, from whole to local and step by step, and realizes the allocation of the shared area to the user. The model is convenient to calculate the property mapping result, and the quality inspection and the verification of the property mapping result provide a solving path, so that the trouble that the property mapping result is difficult to inspect for a long time is solved.

Land mapping unit: mapping the contents of position, area, weight boundary line, boundary point, building and structure, land utilization type and the like according to table description and mapping data by taking land as a basic unit to obtain corresponding mapping results, wherein the data and data comprise land map, boundary point coordinates, area and the like. The method specifically comprises the following functions:

1. import mdb. Import the original religious mapping effort mdb downloaded from the natural resources department into the graph.

2. Terrain classification: providing a classification list of the terrain elements, and configuring a layer, a line type, a symbol and a classification code corresponding to the terrain elements. The specific classification is selected and the topographical elements may be plotted on a map.

3. And (3) constructing: after the current layer is set, the line of the construction surface is selected on the graph, and a closed area surrounded by the line of the construction surface is formed into a surface object and is placed on the current layer. Land, natural building and terrain layer elements are generally structured.

4. Land information: modifying the land information of the existing land; the religion information is entered for the religion of the new construction surface.

5. Extracting boundary point lines: selecting a land area, generating a boundary line graph of the land area according to the boundary line of the land area, and generating a boundary point graph of the land area according to the boundary line node.

6. Natural building information: modifying natural building information for the existing natural building; and inputting natural building information for natural building of the new construction surface.

7. Boundary line information: attributes of the boundary line object are entered or modified, including boundary line category, boundary line nature, boundary line location, etc.

8. Boundary point information: attributes of the boundary point object, including boundary point number, landmark type, boundary point type, etc., are entered or modified.

9. A world address validation table: selecting a land, and inputting the land and neighbor address confirmation information.

10. And (5) land investigation and audit: and inputting or modifying investigation and audit information of the land, and entering investigation persons, investigation notes, investigation dates, auditors, audit notes, audit dates and the like.

11. Zong Dequan benefit: right of use person information of the land, such as right person name, right person type, legal person information, etc., is input or modified.

12. House information: and selecting a natural building, and editing all house information of the building, wherein the house information comprises a house number, a real estate unit number, floors, a house structure, a building area, an allocation area and the like. The basic information of the house of natural building is generated when the building is connected with the real estate mapping result.

13. Layered household chart: and (3) carrying out layered household map management of natural building, namely, hanging natural building and real estate mapping achievements.

14. And (5) outputting results: the map output of the religion comprises a religion map, a religion sketch, a religion right-determining map and a religion building area map; and report output including a boundary address confirmation table, a land area calculation table and the like.

Green land mapping unit: the module unit is used for carrying out surface construction, labeling and green land statistics summarization on the green land mapping range line to obtain mapping results, and specifically comprises the following functions:

(I), green construction surface: and selecting a closed green land range line to generate a green land, and filling corresponding colors into the green land according to the designated green land type.

(II), green land marking: and selecting a green land, and marking the information such as green land numbers, green land areas, earth covering thickness, green land elevation and the like.

(III), green area statistics: and inputting project information, and carrying out classified area statistics and summarization on all greenbelts of the greenbelt mapping project according to the types of greenbelts and the thickness of the covered soil.

Civil air defense mapping module: corresponding mapping results are obtained based on mapping data corresponding to the table description and the civil air defense mapping business, and area calculation and mapping result output are carried out on the mapping results, and the method specifically comprises the following functions:

(one), people's air defense area table: and generating a civil air defense boundary point and an area achievement table according to the civil air defense mapping range line.

And the comprehensive quality inspection module is used for selecting a corresponding quality inspection scheme according to the type of the mapping project, selecting the same type of mapping database from the database module, acquiring corresponding quality inspection object information according to the corresponding quality inspection scheme, acquiring a mapping result corresponding to the quality inspection object information, comparing and calculating the mapping result with an original result corresponding to the mapping database to obtain a calculation result, and generating a corresponding quality inspection result and a quality inspection report according to the calculation result.

The comprehensive quality inspection module fully analyzes the requirements of all-in-one field inspection, and integrates the functions of automatic statistics of the mathematical precision of inspection results, standard inspection of data quality, electronization of field inspection, searching of error and leakage of results, automatic generation of original records, man-machine interaction generation of inspection reports and the like. The field inspection is based on an android operating system, an Excel output interface in a standard format is realized, and manual recording, photographing annotation quality inspection opinion and error marking can be adopted for multiple measurements such as pipeline measurement, greening measurement and the like.

First, quality inspection item information including a result name, an item number, a production unit, a commission unit, inspector information, and the like needs to be set before quality inspection. And then finding out corresponding mapping projects according to corresponding quality inspection project information and performing quality inspection work, wherein the mapping projects of different project types are corresponding to different types of comprehensive quality inspection modules, and meanwhile, the quality inspection schemes comprise detection coordinate files and corresponding detection layers, and the quality inspection object information comprises detection point coordinates, building height values, building layer height values, building indoor and outdoor floor elevation values, area values, pipeline burial depth values and the like in a quality inspection area selected according to the detection coordinate files and the corresponding detection layers.

The comprehensive quality inspection module comprises a terrain quality inspection unit, a planning mapping data quality inspection unit, a real estate mapping data quality inspection unit, a green space mapping data quality inspection unit, a civil air defense mapping data quality inspection unit and a pipeline achievement quality inspection unit, and is specific:

the topographic data quality inspection unit includes the following functions:

1. and (3) detecting plane precision: and selecting a detection coordinate file and a detection layer, searching the nearest building corner by the system according to the detection point coordinates in the coordinate file, and calculating an x coordinate difference value, a y coordinate difference value and a distance difference value of the detection point and the point matched with the detection point.

2. And (3) detecting the elevation precision: selecting a detection coordinate file and a detection layer, searching the nearest elevation point by the system according to each point coordinate in the coordinate file, and calculating the elevation difference value of the planning point and the point matched with the planning point.

3. Mapping result quality inspection opinion table: and calculating the total deduction according to the inspection opinion and the corresponding deduction.

4. Comprehensive table for mapping result quality inspection: and calculating respective scores according to the plane precision detection and the elevation precision detection results, and calculating total scores according to the geographic precision scores.

The planning and mapping data quality inspection module comprises the following functions:

(I), building detail point precision detection: and selecting a detection coordinate file and a detection layer, searching nearest building and enclosure corner points by the system according to the coordinates of each detection point in the coordinate file, and calculating the distance difference between the detection point and the point matched with the detection point. And judging whether the distance difference value is within an allowable difference limit range.

(II) building height precision detection: and calculating the difference according to the original height and the detection height of the building, and judging whether the difference is within the allowable difference limit range.

(III), high-precision detection of building layers: and (3) calculating the difference according to the original floor height and the detected height value of the building, and judging whether the difference is within the allowable difference range.

Fourth, the elevation precision of the indoor and outdoor floors of the building is detected: and calculating the difference according to the original measured floor elevation and the detected floor elevation value of the building, and judging whether the difference is within the allowable difference range.

Fifthly, detecting the area precision of the building base: and calculating the difference according to the original measured base area value and the detected base area value of the building, and judging whether the difference is within the allowable difference range.

The real estate mapping data quality inspection module comprises the following functions:

1. accuracy of area measurement (area inside the sleeve): the platform automatically reads an original property mapping result file and a detected property mapping result file, and calculates poor and limited difference according to indoor areas in the original result file and the detected property file.

2. And automatically reading an original property mapping result file and a detected property mapping result file by an area measurement precision (building area) platform, and calculating poor and limited difference according to the house building areas in the original result file and the detected result file.

The green land mapping data quality inspection unit comprises the following functions:

1. and (3) detecting plane precision: and selecting a detection coordinate file and a detection layer, searching the nearest building corner by the system according to the detection point coordinates in the coordinate file, and calculating an x coordinate difference value, a y coordinate difference value and a distance difference value of the detection point and the point matched with the detection point.

2. And (3) detecting the elevation precision: selecting a detection coordinate file and a detection layer, searching the nearest elevation point by the system according to each point coordinate in the coordinate file, and calculating the elevation difference value of the planning point and the point matched with the planning point.

3. And (3) green area precision detection: and calculating the poor and limited difference according to the calculated detected green area and the original green map pattern area on the map.

The civil air defense mapping data quality inspection unit comprises the following functions:

firstly, measuring and calculating the area precision of the civil air defense: the platform automatically reads the original civil air defense mapping result file and the detected civil air defense mapping result file, and calculates poor and limited difference according to the civil air defense areas in the original result file and the detected result file.

The pipeline achievement quality inspection unit specifically comprises the following functions:

1. and calculating an x coordinate difference value, a y coordinate difference value and a distance difference value according to the pipeline point detection coordinate value and the original result coordinate value by pipeline point measurement plane difference value precision statistics.

2. High Cheng Chazhi precision statistics of pipeline point measurement: and calculating an elevation difference value according to the pipeline point detection elevation value and the original result elevation value.

3. Obvious pipeline point field investigation and measurement inspection: and calculating a pipeline point burial depth difference value according to the pipeline point detection burial depth value and the original result burial depth value.

After each comprehensive quality inspection module performs quality inspection on the mapping project, a word-format all-in-one quality inspection report is generated according to data quality inspection results such as topographic mapping, real estate mapping, planning mapping, green land mapping, civil air defense mapping, pipeline mapping, land mapping and the like.

The basic supporting module is used for realizing data and service transfer guarantee between the module and the application software module and providing a basic supporting environment for platform operation, and the basic supporting environment specifically comprises supporting facilities, standard specifications, safety guarantee, organization and the like, wherein the basic facilities refer to hardware platforms and software platforms of the system, and the software platforms specifically comprise DotNetFrameworks and ObjectArx.

The application module is used for providing a user interface for interaction between a user and the system, realizing mapping result display, function module expansion, database result expansion and the like, and establishing industry demonstration application based on the all-in-one database.

In other embodiments, the application module is further configured to define an interface specification of the function plug-in, an application program interface specification, and a function module registration and uninstallation mechanism, thereby providing an integrated environment for each external function module.

The system construction fully considers future function demand change, adopts a flexible and convenient development platform, and provides customizable service based on components so as to ensure that the system is not required to be greatly changed by adding functional modules or expanding database structures and the like in the system, and even the normal operation of the system is influenced. The reserved expansion interface is considered in design to adapt to the changing requirement of the future all-in-one service.

At present, the operation software in the mapping and geographic information industry is various, and each software generally defines own data format. Since software companies generally do not disclose their own data formats, data interconnection and interworking between different software has been a problem in the industry. The data produced by such software needs to be read and written, and the software or the API provided by the software needs to be installed, which adds great use cost and inconvenience to the customer. The multi-measurement-in-one production quality inspection integrated application service system increases analysis of software data formats of mainstream mapping industry, and can import and export mdb and shape data formats such as ArcGIS software, sdb data formats of SuperMap software, walk software mdb data formats, pipeline data formats and the like on the premise of not installing third-party software or API. The analysis of other software data formats comprises analysis of graphic fields and attribute fields of a table, and the reading and writing key points of the graphic fields are reading and writing coordinate values and spatial indexes; the attribute field is read and written by establishing a corresponding relation with the data format of the platform to realize the conversion of the attribute field and the data format of the platform.

In other embodiments, the multiple-measurement-in-one production quality inspection integrated application service system is further configured to generate a real estate mapping result library.

The traditional real estate mapping and cadastral mapping modes are produced separately, and the two operation data are finally integrated into real estate mapping results through extraction and conversion operations. The integrated application service system for the production and quality control of multiple tests realizes production on a platform, and a final result package is generated after one-time data quality control. Data anomalies caused by service engagement are avoided, and data redundancy is reduced. The cadastral mapping module of the platform realizes drawing, importing, editing of graphics and attributes of land, boundary point lines, natural building and the like. The natural building entity associates with the real estate mapping result taking the building as the mapping unit through the identification code, generates a real estate unit number for each user of the real estate mapping result, and finally generates a real estate mapping result library.

The implementation principle is as follows:

providing an automatic CAD development-based mapping quality inspection integrated system, on which operators can finish business production such as planning mapping, real estate mapping, land mapping, civil air defense mapping, green land mapping and the like, quality inspection of the mapping business data and generate a quality inspection report;

integrating the existing operation software operation flow and corresponding data format in the current market, establishing a set of operation platform which can be compatible with the mainstream data format and centralize various mapping services on one system, without converting different mapping software works when processing different mapping service types and mapping steps, and improving the integrated implementation effect and efficiency of the mapping work.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (8)

1. All-in-one production quality control integration application service system is characterized by comprising:

the database module is used for storing mapping databases of different pre-configured project types, wherein the mapping databases comprise table names, table descriptions, table types and original achievements corresponding to a plurality of mapping data, and the table names, the table descriptions and the table types are in one-to-one correlation;

the application software module is used for acquiring uploaded mapping project types and mapping data, generating a corresponding project type interface based on the mapping project types, acquiring corresponding operation instructions based on user operation, selecting a mapping database of the same type from the database module according to the mapping project types, acquiring table names matched with the operation instructions from the mapping database, acquiring corresponding table descriptions based on the table names, performing corresponding mapping actions in the project type interface according to the table descriptions and the mapping data, and generating corresponding mapping achievements after mapping is completed;

the comprehensive quality inspection module is used for selecting a corresponding quality inspection scheme according to the type of the mapping project, selecting a mapping database of the same type from the database module, acquiring corresponding quality inspection object information according to the corresponding quality inspection scheme, acquiring a mapping result corresponding to the quality inspection object information, comparing and calculating the mapping result with an original result corresponding to the mapping database to obtain a calculation result, and generating a corresponding quality inspection result and a quality inspection report according to the calculation result;

the basic supporting module is used for realizing data and service transfer guarantee between the database module and the application software module and providing a basic supporting environment for platform operation;

and the application module is used for providing a user interface for interaction between a user and the system and realizing mapping result display, function module expansion, database result expansion and the like.

2. The all-in-one production quality control integrated application service system according to claim 1, wherein: the database module comprises a basic topography database, a planning mapping database, a real estate mapping database, a land mapping database and a real estate database, wherein a plurality of mapping databases are correspondingly provided with mapping project type labels, and a plurality of mapping databases are independently operated and organically integrated.

3. The integrated all-in-one production quality control application service system of claim 2, wherein the application software module comprises:

the planning and mapping unit comprises planning and positioning, positive and negative zero detection and planning completion measurement, and when the uploaded mapping project type is planning and mapping, a corresponding template file is obtained from a planning and mapping database in the database module, and the template file defines a corresponding layer, color, linearity and character style in the planning and mapping service;

the real estate mapping unit is used for providing real estate processing, calculating and generating real estate mapping report forms of real estate mapping data;

the land mapping unit is used for mapping positions, areas, rights limits, boundary points, buildings, structures and land utilization types according to the table description and the mapping data so as to obtain corresponding mapping results, wherein the mapping results comprise land map, boundary point addresses and area data;

the green land mapping unit is used for carrying out surface construction, labeling and green land area statistics summarization on the green land mapping range line so as to obtain mapping results;

and the civil air defense mapping module is used for obtaining corresponding mapping results based on the table description and mapping data corresponding to the civil air defense mapping business, and carrying out area calculation and mapping result output on the mapping results.

4. The all-in-one production quality control integrated application service system according to claim 1, wherein: the comprehensive quality inspection module is also used for setting quality inspection project information, including result names, project numbers, production units, consignment units, quality inspector names and inspector names.

5. The integrated all-in-one production quality control application service system according to claim 4, wherein: the comprehensive quality inspection module comprises a topographic data quality inspection unit, a planning mapping data quality inspection unit, a real estate mapping data quality inspection unit, a green space mapping data quality inspection unit, a civil air defense mapping data quality inspection unit and a pipeline achievement quality inspection unit.

6. The integrated all-in-one production quality control application service system according to claim 5, wherein: the quality inspection scheme comprises a detection coordinate file and a detection layer corresponding to the detection coordinate file, and the quality inspection object information comprises coordinates of each detection point, a building height value, a building layer height value, an elevation value, an area value and a pipeline burial depth value of a quality inspection area selected according to the detection coordinate file and the detection layer corresponding to the detection coordinate file.

7. The all-in-one production quality control integrated application service system according to claim 1, wherein: the base support module includes a base software platform including a DotNetFramework and ObjectArx.

8. The all-in-one production quality control integrated application service system according to claim 1, wherein: the application module is also used for defining interface specifications of the function plug-in, application program interface specifications and a function module registration and uninstallation mechanism so as to provide an integration environment of each external function module.