CN111382165B - Mobile homeland management system - Google Patents

Abstract

The invention discloses a mobile homeland management system, which comprises the following steps: step S1: collecting domestic resource data information; step S2: integrating and processing homeland resource data information; step S3: a framework of a core database; step S4: updating the domestic resource data information; step S5: operation and application of the system; in step S2, data information is integrated and processed on the spatial data and the non-spatial data, and in step S3, the spatial data and the non-spatial data are used to construct the core database.

Description

Mobile homeland management system

Technical Field

The invention relates to the technical field of homeland resource data, in particular to a mobile homeland management system.

Background

Along with the rapid development of information technology, under the form of new concepts and new technologies such as current digital cities, smart cities and the like, the information technology is developed in the forward diversification, specialization and service-oriented directions, and in the process of converting traditional economy into modern new normal economy, the application of the modern information technology enables the informatization construction to reach the climax stage and is highly valued.

The latest development of the information technology of the geography is very rapid, the national development level is obviously increased from the technical level difference of the international advanced country, the foreign geography information system and technology are in the harvest and breakthrough stage, the new geography information technology monopoly is very likely to be formed, and the construction of the foreign geography information system for a long time should be worth referring to our.

In recent decades, the homeland resource informatization work has obvious progress and effect, and a homeland resource informatization system is basically established, but the current informatization mode of China and the current new mode of homeland resource management have different degrees of problems, such as weak management perfection capability of data; the accuracy and the behavior of the data are poor; the updating and acquiring modes of the data are not unified; the problems are all affecting the rapid development of the national resource decision management, especially the current real estate management related measures are out of the counter, and the novel requirements are further provided for the national resource informatization management by combining the integrated data of related departments such as agriculture, forestry, construction and the like.

At present, the acquisition and updating modes of the domestic resource data information are relatively backward, particularly the quality and the real-time updating degree of basic data from basic departments are low, the reality is not strong, the data mastered by government departments are difficult to comprehensively, truly and objectively reflect the resource conditions, meanwhile, a part of the existing data management modes are mainly paper media, the problems of non-uniform standards and irregular management exist in the partially formed electronic data and the established database, the effective use and sharing of the data are affected to a great extent, the objectivity of the acquired data is greatly affected by the influence of local protection and human factors, and the content and index system of the existing land and mineral resource utilization data are difficult to meet the macroscopic regulation and control requirement.

In addition, most county-level homeland resource management departments do not establish a mobile homeland system, basic data are stored in a chaotic manner, a mobile homeland system database is not integrated, the concept of the mobile homeland system is not established, each business department of the homeland resource bureau manages the respectively established database, the data formats are diversified, various mapping format data, graphic data and various data formats are independent of each other, the comprehensive application of the databases is poor, the comprehensive decision capability is not strong, the data updating mechanism is the most important, the data updating lag is caused by the independent database of each department, the information is not timely and accurate, the space superposition analysis and the high-efficiency application of the data information among the databases are not thorough, the maximum effect of each basic data is not reflected, and the application flexibility of the data of the current homeland resource management is not high.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention aims to provide a mobile homeland management system which is used for solving the problems that the content and index system of homeland resource utilization data in the prior art are difficult to meet the requirement of macroscopic regulation and control, and also is used for solving the problems that the comprehensive application of a database in the prior art is poor, the comprehensive decision making capability is not strong, an updating mechanism is behind, the data information is inaccurate and the flexibility of the data application is not high.

In order to achieve the above purpose, the present invention provides the following technical solutions:

a mobile homeland management system comprising the steps of:

step S1: collecting domestic resource data information;

step S2: integrating and processing homeland resource data information;

step S3: a framework of a core database;

step S4: updating the domestic resource data information;

step S5: operation and application of the system;

in step S2, data information is integrated and processed on the spatial data and the non-spatial data, and in step S3, the spatial data and the non-spatial data are used to construct the core database.

Through the technical scheme, a set of mobile homeland management system is made, so that the acquisition and updating modes of homeland resource data information are advanced, the acquisition quality and the real-time updating degree of the homeland data information are high, the electronic data and the established database standard are unified and the management standard are standardized, the requirements of macroscopic regulation are met, meanwhile, space data and non-space data are stored in the database of the mobile homeland resource system, the traditional file form data management mode taking a drawing and a table as units is changed, the problems of complex data management work and poor data security in the past are solved, meanwhile, the space data are continuously spliced in a seamless mode, and the integrity, the continuity and the consistency of ground objects are maintained.

The invention is further provided with: in step S1, a field collection module is used to collect homeland resource data information, the field collection module includes a GPS positioning module and a GPS plotting module, the GPS positioning module is used to provide support for current coordinate acquisition for field collected mobile equipment, and the GPS plotting module is used to automatically generate points according to current position change after the positioning function of the GPS positioning module is triggered, and automatically plot graphics according to sequence after the position change is finished.

Through the technical scheme, the domestic soil resource data information can be acquired through the field acquisition module, the GPS positioning module is used for providing support for the acquisition of the current coordinates, and the GPS adjustment and drawing module is used for automatically drawing the graph according to the sequence of the generated points, so that the operation is simple and convenient.

The invention is further provided with: in step S2, the data of each department required by the mobile homeland management system is deeply analyzed, and coordinated, collected and summarized from each department.

Through the technical scheme, the types of the spatial data and the non-spatial data can be diversified by coordinating, collecting and summarizing the data required by the system, so that comprehensive monitoring analysis is realized on the national resource management.

The invention is further provided with: the construction of the mobile homeland management system requires the existing database data and document files of the homeland resource bureau, planning department, land use department, utilization department, mine management department, cultivation and maintenance department, office and other departments, the homeland department is responsible for annual change databases and changing images, the planning department is responsible for land use general planning databases, mineral product planning databases, planning texts/forms and increasing and decreasing hook project report data, the land use department is responsible for agricultural transfer report data and collection report data, the utilization department is responsible for land supply report data, the mine management department is responsible for mineral data, the cultivation and maintenance department is responsible for basic farmland database and land development and arrangement project report data, the office is responsible for national and soil department legal regulation files, and the other departments are responsible for urban planning and central urban road network.

Through the technical scheme, the data which are responsible for all departments are collected and summarized so as to expand the space data and the non-space data, and therefore, the national resources are effectively monitored and analyzed comprehensively.

The invention is further provided with: the spatial data includes tpk data, geodata bsae data, and shp data, and the non-spatial data includes legal and regulatory file data, planning document business file data, and other temporary document form data.

Through the technical scheme, the types of the spatial data and the non-spatial data are diversified, so that the monitoring analysis of the mobile homeland management system is more comprehensive.

The invention is further provided with: the tpk data comprises satellite map data, land use overall plan map data and urban plan map data, the geodata base data comprises basic geographic data information, land use current situation data, land use overall plan data, mineral overall plan data, batch supply data, cultivated quality assessment data, basic farmland data and other vector data, and the shp data comprises temporary data.

Through the technical scheme, the type diversity of the space data is further improved.

The invention is further provided with: in step S4, the updating of the homeland resource data information includes emergency updating and regular updating, when the emergency updating is performed, the user directly adds the land area line to be processed under the shp data file of the core database, and then directly displays the land area line in the system open layer for performing data operation, and when the regular updating is performed, the user directly and regularly performs daily dynamic changing and updating on each service data and related thematic data of the system core database.

By the technical scheme, the update of the homeland resource data information in the mobile homeland management system is real-time and simplified, and the acquired homeland resource data information is more accurate and has higher flexibility.

The invention is further provided with: the operation and application of the system comprises a system interface operation application, a system main interface operation application, a positioning tool operation application, a measurement operation application, a screen cleaning operation application, a layer selection operation application, a coordinate input operation application, a shooting operation application, a layer viewing operation application, a data query operation application, a data analysis operation application and a data sharing operation application.

Through the technical scheme, the real-time compression and quick browsing of the homeland resource data information are improved through the operation and the application of the system, so that the convenient and quick experience data access is facilitated.

In summary, the invention has the following beneficial effects:

(1) The method has the advantages that a set of mobile homeland management system is established, so that the acquisition and updating modes of homeland resource data information are advanced, the acquisition quality and the real-time updating degree of the homeland resource data information are high, the electronic data and the established database standard are unified, the management standard is met, the requirement of macroscopic regulation is met, meanwhile, space data and non-space data are stored in the mobile homeland resource system database, the traditional file form data management mode taking a chart and a table as units is changed, the problems of complex data management work and poor data safety in the past are solved, meanwhile, the space data are continuously spliced in a seamless mode, and the integrity, the continuity and the consistency of ground objects are maintained;

(2) The space data and the non-space data are expanded by collecting and summarizing a large amount of required data, so that the national resources are effectively monitored and analyzed comprehensively;

(3) By the operation and the application of the system, the real-time compression and the quick browsing of the homeland resource data information are improved, so that the convenient and quick experience data access is facilitated.

Drawings

FIG. 1 is a flow chart of a method of the mobile homeland management system of the present invention;

FIG. 2 is an internal framework of the database of the present invention;

fig. 3 is a functional diagram of the system of the present invention.

Reference numerals: step S1, a step S1; s2, a step of S2; s3, a step of S3; s4, a step of S4; and S5, performing step S5.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention. All other embodiments, based on the embodiments of the invention, which are obtained by a person skilled in the art without making any inventive effort, are intended to fall within the scope of the invention.

The present invention will be described in detail with reference to the accompanying drawings. The homeland resource department puts forward eight important tasks of homeland resource informatization construction on a homeland resource informatization work conference held in 2009, the release of a homeland resource 'one-picture' data platform realizes the classification display, data processing, query statistics, thematic drafting, data updating and history management of core data, and is in butt joint with related application systems such as an e-government platform, a comprehensive information supervision platform and the like, basic data, thematic data and management data support required by operation are provided for each business system, and the mobile homeland resource management system is one mode according to the guidance requirement of the homeland resource department on further application of modern technological information means specification and innovation management, the information technological means specification management, the strengthening service and the professional management decision level are required, advanced, professional and convenient professional data information management software is adopted to construct the advanced homeland resource informatization platform.

In order to standardize the data production flow and the platform function structure, improve the data production and system research and development efficiency, avoid repeated construction, ensure that project achievements meet standard requirements and related technical specifications, and require a set of standard specifications to be formulated before project construction.

The standardization and normalization are the basis of system construction, and are the fundamental guarantee of compatibility, optimization and expansion of the system and the related business systems of all departments of the national management, which is the guarantee of normal operation of all departments of data, and is the requirement of system openness and data sharing.

According to the construction content and flow of the information platform, four standard specifications are required to be formulated, wherein the data standard provides data standard guarantee for each space data, the content, the form and the updating mechanism of the information management platform data, the interface standard class, the technical specification class and the management system class, the technical specification class provides technical guarantee for space data integration, database construction, information management platform construction and the like, and the management system class provides legal guarantee for platform operation management, information sharing exchange and the like.

At present, a mobile intelligent terminal software development platform of a geographic information system mainly comprises hundred degrees, a Goldy, a Tian map, arcgis runtime for android and the like, wherein the Goldy and Tian map is biased to map display, travel and business geographic services, the support and processing of national geographic information data are not better than those of the national geographic information data, and compared with the Tian map and arcgis runtime for android, the Tian map is wider in application and more mature in technology.

arcgis runtime for Android is an Android system open source GIS product family developed by Esri corporation in the United states, which includes a lib-project for Android Studio, jar function library for eclipse and other environments, provides rich tools, documents and examples, enabling users to build mobile applications using Java and deploy them on smartphones and tablets of Android systems, with primary functions including map browsing, map measurement, data querying, geometry computation, analysis, offline functions, data visualization, GPS positioning, etc.

Referring to fig. 1, a flow chart of a method of the mobile homeland management system of the present invention is shown, and the mobile homeland management system may comprise the following steps:

step S1: collecting domestic resource data information; specifically, the field acquisition module can be utilized to acquire, and the field acquisition module can comprise a GPS positioning unit and a GPS transfer unit, wherein the GPS positioning unit is used for providing support for current coordinate acquisition for field acquisition mobile equipment (such as an industrial-grade flat-plate GNSS receiving terminal), and the system supports a GPS positioning function for providing support for current coordinate acquisition by considering the requirements of field acquisition work and a special GPS hardware module of the mobile equipment, and simultaneously provides a positioning manual modification function by considering low positioning precision of common mobile equipment; the GPS adjusting and drawing unit is used for automatically generating points according to the current position change after the positioning function of the GPS positioning unit is triggered, automatically drawing graphs according to the sequence after the position change is finished, and simultaneously supporting the addition of generated graph attribute information, including the information of photos shot on site.

Step S2: integrating and processing homeland resource data information; specifically, the data of each department required by the system is deeply analyzed, and the data are coordinated, collected and summarized from each department. The system construction unit carefully analyzes and sorts the data according to the system construction requirement, and plans the data utilization scheme to provide basis for the efficient utilization of the later-stage data.

More specifically, the system construction requires the prior database data, various documents and the like of departments such as the local resource bureau, planning department, land utilization department, mine management department, cultivation and maintenance department, office, other departments and the like, and the cadastral department is responsible for annual change database, image change and the like; the planning department is responsible for land utilization overall planning databases, mineral planning databases, planning texts/forms, increasing and decreasing hook project report and backup data and the like; the tillage and conservation department is responsible for basic farmland database and land development and arrangement project report data; the department of the land is responsible for the agriculture to transfer the report and backup data and the sign and collection report and backup data; a management data and a tilling quality assessment database are reported by the management department; the ore department is responsible for mineral data; the office is responsible for national departments of law, regulation, documents and the like; other departments are responsible for urban planning diagrams, central urban road networks and the like; that is, the collected data is integrated according to the system requirement, and the operations of spatial data entry spatialization, formatting, coordinate unification and the like are performed to classify and normalize the non-spatial data.

Preferably, in the present embodiment, the data processing includes vector data processing, raster data processing, and non-spatial data sorting.

Step S3: a framework of a core database; in particular, spatial data and non-spatial data may be utilized for the construction.

Referring to fig. 2, an internal frame diagram of a database according to the present invention is shown, where the database includes spatial data and non-spatial data, the spatial data (i.e. map) may include one or more administrative district units, so as to be convenient for all levels of homeland management departments, the spatial data may include tpk data (raster slice data), geodata (motion vector data) and shp data (temporary data), and the tpk data may include raster slice data such as satellite map data, land utilization overall planning map data and urban planning map data; the geodata base data may include basic geographic information data, land use status data, land use overall planning data, mineral overall planning data, batch feed data, tilling quality assessment data, basic farmland data, and other vector data, etc.; the shp data may contain mainly some temporary data.

The non-space data (i.e. file document) mainly may include homeland resource law and regulation file data, business file data such as planning document, and other temporary document table data.

Step S4: updating the domestic resource data information; specifically, the homeland resource data information can mainly comprise emergency update and periodic update when updated.

More specifically, the emergency update means that in case of an emergency or emergency, a user can directly add a region range line to be processed under the shp data file of the core database, and then can directly display the region range line to be processed in the system 'open layer' for data operation.

More specifically, the periodic update refers to daily dynamic change and update of each service data and related thematic data of the system core database, and is applicable to dynamic update of services such as cadastral change, land approval for construction, land supply, land occupation and the like.

Step S5: operation and application of the system; the method comprises the steps of selecting a layer, inputting coordinates, shooting operation, viewing the layer, inquiring data, analyzing the data and sharing the data, and according to the information of the layer, and displaying the image.

More specifically, the system interface running application mainly opens data of each administrative district unit under the main catalog, and then opens documents such as laws and regulations in the document file of the non-spatial database, preferably, in this embodiment, the administrative district unit may cover province, city, county, town and the like.

More specifically, the system main interface operation application mainly comprises clicking any administrative district unit and then entering the system main interface, so as to display a geographic map, a compass, a scale and operation controls, wherein the geographic map can support a rotation function, the north direction can be restored after clicking the compass, and the zooming-in and zooming-out are realized by two-point touch control of fingers like common terminal equipment.

More specifically, the positioning tool is mainly used for clicking a positioning function control, automatically positioning a screen to the position of a user of the equipment, displaying X, Y coordinates of a real-time position at the lower left side of the screen, wherein the positioning accuracy is related to the number of satellites above the position of the user, weather conditions (cloud layer thickness) and the like, and preferably, the positioning tool can be quickly positioned to the position of the field equipment by utilizing a GPS navigation positioning module or a Beidou navigation positioning module of the hardware equipment.

More specifically, the measurement operation running application may include distance measurement and area measurement, mainly refer to clicking a measurement tool or a measurement area control on a screen, so as to realize the functions of measuring the distance and the measurement area, the distance between two points can be measured through two points of the screen, the measurement area can be measured through drawing a graph, when the measurement area of the graph is drawn, a node can be changed, and drawing errors or errors caused by drawing are avoided, that is, the measurement area can be the area of a polygon formed by clicking more than three points on the screen.

More specifically, the screen erasing operation application mainly refers to a graphic drawn on a screen when an area or a distance is measured, and the technology of the screen erasing tool is well known in the art, so that the description is omitted herein.

More specifically, the layer selection running application mainly refers to opening tpk data, geodata base data and shp data in the core database, and displaying the tpk data, the geodata base data and the shp data on a map display window, and preferably, vector data in the geodata base data can be opened.

More specifically, the coordinate input operation application mainly refers to that after clicking the function of inputting coordinates, the projection coordinates X, Y (8 bits and 7 bits) are input into the corresponding space, after clicking the positioning button, the map can be automatically scaled to the position of the graph, meanwhile, the space analysis of the input graph can be performed, the query data source is clicked, the database graph layer needing to be analyzed is selected, the statistical field is selected, namely, the graph classification area can be counted, namely, three or more coordinate points can be input, the position of the graph can be positioned, and the space unified construction analysis can be performed.

More specifically, the shooting operation running application mainly refers to that after the equipment is positioned, after clicking a shooting video function, an image or video of the current position of the user of the equipment can be shot, after being stored, the "mark layer" of the selected layer can be clicked, the appearing mark symbol is clicked, and the image or video is opened again.

More specifically, the layer viewing operation application mainly refers to opening geodata base data or shp data, and clicking a layer viewing function can view the attribute of the position vector layer.

More specifically, the data query running application mainly refers to selecting a data layer to be queried in a query data source, clicking a data query control, selecting a query attribute field, inputting keywords in the field, namely, querying all plots containing the keywords, clicking any block to zoom to the plot position, preferably, mainly querying any attribute of any field in any layer of vector data in geodata base data, and rapidly positioning to the graph position.

More specifically, the functions of the data analysis operation application include two kinds of functions, namely selecting an analysis graph and drawing the analysis graph, mainly selecting a graph layer to be analyzed from analyzed data source graph layers, clicking an analysis data control, selecting an analysis mode, selecting a data statistics field, and counting the selected graph or the drawn land classification area, wherein the drawing graph can also modify the graph shape at a drawing node, preferably, the data analysis operation application can support analysis of vector data random graph layers in geodata, and the specified field performs area statistics summary.

Referring to fig. 3, as shown in the functional diagram of the system of the present invention, the present mobile homeland management system may have functions of positioning, measuring distance, measuring area, photographing video, inputting coordinates, viewing layers, selecting layers, inquiring data, analyzing data, online maps, scale/compass, viewing document files and sharing data, and positioning, measuring distance, measuring area, photographing video, inputting coordinates, viewing layers, selecting layers, inquiring data, analyzing data and online maps belong to the active functional part of the system, and scale/compass, viewing document files and sharing data belong to the auxiliary functional part of the system.

More specifically, the data sharing running application mainly refers to sharing the screenshot to WeChat friends, QQ friends and the like in real time through mobile data or WLAN networking, and of course, the system and the external device can also be directly networked according to actual requirements, so that detailed information of the system is sent to the external device (WeChat, QQ).

In addition, for the safe operation of the mobile homeland management system, a fingerprint identification module and a cache destruction module can be arranged in the mobile homeland management system, specifically, the fingerprint identification module is used for entering the system by adopting fingerprints, and the cache destruction module is used for caching unintentionally deleted file data so as not to find the file data when the mobile homeland management system is reused.

Of course, the mobile homeland management system of the invention can include a supporting layer, a data layer and an application layer according to logic analysis, specifically, the supporting layer can be an intelligent equipment terminal, the intelligent equipment terminal can be a computer, the data layer can comprise spatial data and non-spatial data, thereby, the spatial data and the non-spatial data are utilized to carry out the framework of the database, and the application layer mainly has the functions of map browsing, land parcel inquiring, planning and examining, spatial analysis, statistical analysis, data sharing and the like.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above examples, and all technical solutions belonging to the concept of the present invention belong to the protection scope of the present invention. It should be noted that modifications and adaptations to the present invention may occur to one skilled in the art without departing from the principles of the present invention and are intended to be within the scope of the present invention.

Claims (4)

1. A mobile homeland management system, comprising the steps of:

step S1: collecting domestic resource data information;

step S2: integrating and processing homeland resource data information;

step S3: a framework of a core database;

step S4: updating the domestic resource data information;

step S5: operation and application of the system;

in step S2, data information is integrated and processed on the spatial data and the non-spatial data;

in step S3, the framework of the core database is performed by using space data and non-space data, where the space data includes tpk data, geodata base data and shp data, the non-space data includes legal regulation file data, planning document service file data and other temporary document table data, the tpk data includes satellite map data, land use general plan map data and city plan map data, the geodata base includes basic geographic information data, land use present data, land use general plan data, mineral product general plan data, batch supply data, cultivated quality assessment data, basic farmland data and other vector data, the shp data includes temporary data, and the tpk data, the geodata base data and the shp data are subjected to data processing, and the processed data is stored in the core database;

in step S4, the homeland resource data information includes emergency update and periodic update when updated, the emergency update includes that under the condition of emergency or emergency, a user adds the land area line to be processed directly under the shp data file of the core database, and then directly displays the land area line in the system opening layer to perform data operation, the periodic update includes that each business data and related thematic data of the core database are subjected to daily dynamic change and update periodically, and the method is suitable for dynamic update of cadastral change, construction land approval, land supply and cultivated land occupation;

in step S5, the system operation and application comprises a system interface operation application, a system main interface operation application, a positioning tool operation application, a measurement operation application, a screen clearing operation application, a layer selection operation application, a coordinate input operation application, a shooting operation application, a layer viewing operation application, a data query operation application, a data analysis operation application and a data sharing operation application, wherein the system interface operation application comprises the steps of opening data of each administrative district unit under a main catalog, then opening legal and legal documents in a document file of a non-spatial database, the system main interface operation application comprises the steps of clicking any administrative district unit and then entering the system main interface, displaying a geographic map, a compass, a scale and an operation control, wherein the geographic map supports a rotation function, recovering the north direction after clicking the compass, the positioning tool operation application comprises a click positioning function control, a screen is automatically positioned to the position of a device user, X, Y coordinates of a real-time position are displayed at the lower left side of the screen, the measurement operation application comprises distance measurement and area measurement, the measurement tool or the measurement area control is clicked on the screen to realize the function of obtaining the measurement distance and the measurement area, the measurement distance adopts the distance between two points of the screen, the measurement area adopts a drawing pattern to measure, when the drawing pattern measurement area is carried out, the node can be changed, the screen cleaning operation application comprises the drawing of the pattern on the screen when the measurement distance or the measurement area is cleaned, the layer selection operation application comprises the tpk data, the geodatbase data and the shp data in a core database are opened and displayed on a map display window, the coordinate input operation application comprises the function of clicking input coordinates, inputting projection coordinates X, Y into corresponding spaces, clicking a positioning button, automatically zooming a map to a graphic position, simultaneously carrying out spatial analysis of input graphics, clicking a query data source, selecting a database graphic layer to be analyzed, selecting a statistical field, and counting a graphic classification area, wherein the shooting operation application comprises clicking a shooting video recording function after equipment positioning, shooting an image or video of the current position of a user of the equipment, clicking a labeling graphic layer of the selected graphic layer after storage, clicking an appearing labeling symbol, re-opening the image or video, the graphic layer viewing operation application comprises opening geodata or shp data, clicking the function of the viewing graphic layer, viewing the attribute of the position vector graphic layer, the data query operation application comprises selecting the data graphic layer to be queried in the query data source, clicking a data query control, selecting attribute fields of query, inputting keywords in the fields, querying all plots containing the keywords, clicking any block to zoom to the plot position, querying any attribute of any field in any layer of vector data in geodata, and rapidly positioning to the plot position, wherein functions of the data analysis application comprise selecting analysis graphs and drawing analysis graphs, selecting a layer to be analyzed in the analyzed data source layers, clicking analysis data controls, selecting an analysis mode, selecting data statistics fields, namely counting selected graphs or drawn land classification areas, drawing graphs also modify graph shapes at drawing nodes, the data analysis application supports analyzing any layer of vector data in the geodata, and the specified fields are summarized for area statistics.

2. The mobile homeland management system according to claim 1, wherein in step S1, homeland resource data information is collected by an outside-industry collection module, the outside-industry collection module comprises a GPS positioning module and a GPS sketching module, the GPS positioning module is used for providing support for current coordinate acquisition for mobile equipment collected by outside-industry, and the GPS sketching module is used for automatically generating points according to current position change after the positioning function of the GPS positioning module is triggered, and automatically sketching figures according to sequence after the position change is finished.

3. The mobile homeland management system according to claim 1, wherein in step S2, the data of each department required by the mobile homeland management system is deeply analyzed, and coordinated, collected and summarized from each department.

4. A mobile homeland management system according to claim 3, wherein the construction of the mobile homeland management system requires existing database materials and document files of the homeland resource bureau, planning department, land use department, utilization department, mine management department, cultivation and maintenance department, office and other departments, the planning department is responsible for annual change databases and change images, the planning department is responsible for land use general planning databases, mineral planning databases, planning texts/forms and increase and decrease hook project provisioning data, the land use department is responsible for agricultural transformation provisioning data and collection provisioning data, the utilization department is responsible for land supply provisioning data, the mine management department is responsible for mineral data, the cultivation and maintenance department is responsible for basic farmland databases and land development and arrangement project provisioning data, the office is responsible for national and soil department legal and regulation files, and the other departments are responsible for urban planning diagrams and central district networks.