CN116466919B - Online natural resource supervision system - Google Patents

Abstract

The invention discloses an online natural resource supervision system, which comprises a supervision analysis subsystem, wherein the supervision analysis subsystem mainly comprises functions of layer management, map operation, data query, comparison analysis, analysis evaluation, data exchange and the like; the mobile checking subsystem mainly comprises map functions, data display, task management, field checking, field inspection, data management and the like; the result management subsystem mainly comprises functions of task management, problem correction, statistical analysis, result report management, authority management and the like. The invention realizes an online supervision new mechanism.

Description

Online natural resource supervision system

Technical Field

The invention relates to the technical field of online natural resource supervision, in particular to an online natural resource supervision system.

Background

The natural resource department in 11 months in 2019 issues a general scheme for informationized construction of the natural resource department, and a safe and efficient natural resource 'one-net' is explicitly set up, and on the basis, a natural resource supervision decision-making application system is built, so that natural resource law enforcement and supervision application is promoted. Around the new requirement of natural resource supervision responsibility, the standardization and standardization of the natural resource supervision business are further promoted, the comprehensive business office, analysis and evaluation and on-site inspection and verification are promoted, and the efficiency and level of natural resource supervision are improved; constructing a new real-time monitoring and accurate supervision mode, constructing an intelligent all-weather supervision mode such as automatic comparison analysis, self-checking return, result checking and the like for the change of the areas with large land use quantity and wide illegal land use quantity, and gradually popularizing and using; developing a problem account management system, unifying standard and program, and performing unified management and marketing on the supervised problem to prevent risks; the sharing of the natural resource management related business data and the socioeconomic data is enhanced, a data sharing mechanism of a supervision bureau and a local natural resource management department is established, the natural resource management related business data in a supervision area is timely acquired, and a new online supervision mechanism is formed.

Based on the foregoing, there is a need in the industry for an online natural resource supervision system.

Disclosure of Invention

Aiming at the problems in the related art, the invention provides an online natural resource supervision system to form a novel online supervision mechanism.

For this purpose, the invention adopts the following specific technical scheme:

an online natural resource supervision system, comprising:

the supervision and analysis subsystem mainly comprises functions of layer management, map operation, data query, comparison analysis, analysis evaluation, data exchange and the like;

the mobile checking subsystem mainly comprises map functions, data display, task management, field checking, field inspection, data management and the like;

the result management subsystem mainly comprises functions of task management, problem qualitative, problem correction, statistical analysis, result report management, authority management and the like.

In one possible design, the supervision and analysis subsystem mainly focuses on WebGIS functions, realizes convenient browsing of basic data, image data, statistical charts, table documents and the like, and provides functions of data comparison, analysis, statistical analysis and the like. The system adopts a mode of single-page front-end application, based on a VueJS front-end frame, adopts ArcGIS JavaScript API or LeafleteJS to carry out the expansion development of WebGIS functions, and refers to the interface design of the single-page system on an interface, and uses H5 technology and Bootstrap. Js control to lead the front-end interaction to be visual, simple and convenient and have integrity; the mobile checking subsystem is developed based on an Android platform, adopts technologies such as a Clean architecture, okHttp, rxJava, SQLite and the like, applies Java language, and utilizes ArcGIS plug-ins to realize functions such as map browsing (such as roller shutter browsing, fading display and the like), data display, problem checking, data management, version management and the like; the result management subsystem adopts B/S mode development, the architecture is based on J2EE development environment, and various functions are packaged as service interfaces by adopting a REST API mode in design, so that the service interfaces can be directly called by an application layer system, and the service is conveniently called and integrated with other subsystems. The SpringBoot is adopted as a main background frame, so that the flexibility, the simplicity and the convenience of the SpringBoot are fully utilized, and the rapid organization development of functions is realized; the database is connected by using a guide component and using a connection pool technology thereof, so that the data efficient query storage is realized in an integrated way.

In one possible design, the supervision and analysis subsystem includes a comparison and analysis module for performing batch comparison and analysis of auxiliary supervision for each room, including various automated logic operation tools, graphic processing tools and convenient manual interaction processing tools, and outputting a processing result report or vector file after the comparison and analysis is completed.

In a possible design, the supervision and analysis subsystem comprises a data query module, provides data query functions, including space query, attribute query, custom query, fuzzy query and the like, wherein the space query comprises point query, frame pulling query and polygon query, a query object can select a certain layer or all layers of the current view, and a query result can be screened, positioned and highlighted according to the layers; the attribute inquiry is mainly to inquire the attribute information of the space data, and the inquiry conditions are set through a condition setting interface to support the derivation of the inquiry result; the fuzzy query mainly queries the items, and jumps to the graph while querying the results.

In one possible design, the supervising and analyzing subsystem includes map operation functions, providing basic map browsing functions including map zoom-in, zoom-out, movement, reset, etc.; meanwhile, a plurality of tools for assisting in viewing are also provided, such as distance calculation, map printing, transparent display of layers, contrast browsing and the like.

In one possible design, the mobile checking subsystem comprises a field checking wood block, so as to realize checking of suspected problems, provide a collection function of related information of the suspected problems, and carry out dot line and plane information labeling on target image spots; operations such as adding check information, taking photos, recording videos and the like can be performed, and information such as angles and directions of the photos can be recorded; various analysis can be carried out on the pattern spots, such as the pattern spots occupying the current situation, the planning situation, the basic farmland situation, the examination and approval project situation, the land occupation and recording situation and the land occupation and treatment project situation; the daily check condition and the inspection condition can be statistically analyzed, for example, the total daily check pattern spots, the problem pattern spot ratio and the like are counted.

In one possible design, the mobile inspection subsystem includes an on-site inspection module, provides an on-site inspection function, and an inspection personnel can start the inspection function by configuring a GPS switch on a homepage, and the map is positioned in real time along with the track of the inspection personnel to provide an inspection information acquisition function.

In one possible design, the supervision result management subsystem comprises a problem qualitative module, and after the problem is led into the module, the problem is directly and manually issued to local related departments, and the local related departments can fill in the situation on line through the system and upload the evidence; secondly, the data are exported, the data are issued to county departments through a homeland investigation cloud online evidence-providing platform, the county departments send people to the county departments to provide evidence, and finally the achievement of the evidence-providing platform is imported into a return system; thirdly, the supervision office staff carries out field check through the mobile check subsystem or the territorial investigation cloud field check APP, and after returning to the supervision office, the result is imported into the supervision and fruit forming subsystem; fourthly, supervising personnel are audited through data audit and the like, and then the result is filled into the system. Through various auditing modes, the state of the real problem can be marked through preliminary confirmation.

In one possible design, the mobile verification subsystem includes a map module, provides a basic GIS function, and realizes operations such as roaming, zooming in and zooming out of map data; providing a map tool, and providing basic map tools such as distance measurement, surface measurement, double-screen linkage, roller shutter browsing, fading display and the like; providing map positioning, GPS positioning, target map spot positioning and other functions; and providing layer management, and realizing organization, display and management of all spatial data and non-spatial data. Performing hierarchical classification display according to 8 categories such as remote sensing images, space planning, land use status, land supervision, basic geography, geographical national conditions, basic data, and other categories; providing functions such as single selection, multiple selection and the like of the layer; providing the functions of layer searching, positioning and the like.

In one possible design, the mobile checking subsystem includes a task management module, which implements informatization management of field supervision and checking tasks and inspection tasks, provides functions of task creation, modification, deletion, inquiry and the like, and can introduce suspected pattern spots into the system and be connected with the task after creating the task.

Compared with the prior art, the invention has the advantages that:

the online natural resource supervision system shows safety, reliability, practicability, usability, advancement and maintainability.

(1) Safety: the system construction meets the requirements of users on information security management, a perfect and reliable security system is established, the system has strong prevention capability on illegal invasion, illegal attack and network computer viruses, the system is ensured to have a strict identity authentication function, and the data security and operation security are protected by corresponding technical means.

(2) Reliability: the system design adopts mature, stable and reliable software technology, and ensures that the system runs continuously and safely for a long time under the conditions of large data volume and high concurrency.

(3) Practicality: and according to the service requirements and the service flow, carrying out system design, function and module division from the perspective of convenient use of users. The work flow design is simple and smooth, and can cope with various actual conditions such as business flow change, emergency and the like.

(4) Ease of use: the method is mainly characterized in that an application interface is simple and visual, the menu level and unnecessary clicking process are reduced as much as possible, a user can see clearly when using the method, the system operation method is convenient to grasp quickly, the thinking mode and the working habit of workers are particularly met, and the method is convenient for most of workers to use; and secondly, can provide on-line or off-line help means.

(5) Advanced nature: the current mainstream technology is adopted, so that the advanced of an application platform and tools and the advanced of a system structure and application design are met, and the requirements of macroscopic service management, development planning and microscopic transaction are met.

(6) Maintainability: the system has a well-defined structure, with individual parts having a well-defined and complete definition, so that local modifications do not affect the structure and operation of global and other parts.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the description of the embodiments will be briefly introduced below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a general frame diagram of a system of the present invention;

FIG. 2 is a schematic diagram of the overall deployment logic of the system of the present invention;

FIG. 3 is a system construction concept of the present invention;

fig. 4 is a system technical roadmap of the invention.

Detailed Description

For the purpose of further illustrating the various embodiments, the present invention provides the accompanying drawings, which are a part of the disclosure of the present invention, and which are mainly used to illustrate the embodiments and, together with the description, serve to explain the principles of the embodiments, and with reference to these descriptions, one skilled in the art will recognize other possible implementations and advantages of the present invention, wherein elements are not drawn to scale, and like reference numerals are generally used to designate like elements.

As shown in fig. 1 to 4, an online natural resource supervision system includes:

the supervision and analysis subsystem mainly comprises functions of layer management, map operation, data query, comparison analysis, analysis evaluation, data exchange and the like;

the mobile checking subsystem mainly comprises map functions, data display, task management, field checking, field inspection, data management and the like;

the result management subsystem mainly comprises functions of task management, problem correction, statistical analysis, result report management, authority management and the like.

The supervision and analysis subsystem mainly focuses on the WebGIS function, realizes convenient browsing of basic data, image data, statistical charts, table documents and the like, and provides the functions of data comparison, analysis, statistical analysis and the like. The system adopts a mode of single-page front-end application, based on a VueJS front-end frame, adopts ArcGIS JavaScript API or LeafleteJS to carry out the expansion development of WebGIS functions, and refers to the interface design of the single-page system on an interface, and uses H5 technology and Bootstrap. Js control to lead the front-end interaction to be visual, simple and convenient and have integrity; the mobile checking subsystem is developed based on an Android platform, adopts technologies such as a Clean architecture, okHttp, rxJava, SQLite and the like, applies Java language, and utilizes ArcGIS plug-ins to realize functions such as map browsing (such as roller shutter browsing, fading display and the like), data display, problem checking, data management, version management and the like; the result management subsystem adopts B/S mode development, the architecture is based on J2EE development environment, and various functions are packaged as service interfaces by adopting a REST API mode in design, so that the service interfaces can be directly called by an application layer system, and the service is conveniently called and integrated with other subsystems. The SpringBoot is adopted as a main background frame, so that the flexibility, the simplicity and the convenience of the SpringBoot are fully utilized, and the rapid organization development of functions is realized; the database is connected by using a guide component and using a connection pool technology thereof, so that the data efficient query storage is realized in an integrated way.

Most of data in the supervision and analysis subsystem are confidential data and need to run on a supervision service network, so that the data are uniformly placed in a special data processing room, a user can use the data in the special data processing room, the system adopts a B/S architecture, and all clients in the same network with a server of a deployment system can log in the system through a browser.

The supervision and analysis subsystem mainly comprises six functional modules of layer management, map operation, data query, comparison analysis, analysis evaluation, data conversion and the like.

Layer management

And the organization, the display and the management of all the space data and the non-space data are realized. Classifying and managing the thematic data according to basic types, professional types, management types and the like; providing functions such as single selection, multiple selection and the like of the layer; providing the functions of layer searching, positioning and the like.

(two) map operations

Providing basic map browsing functions, including map enlarging, reducing, moving, resetting and the like; meanwhile, various tools for assisting in viewing are provided, such as distance calculation, map printing, transparent display of layers, contrast browsing and the like.

(III) data query

Data query functions are provided, including spatial queries, attribute queries, custom queries, fuzzy queries, and the like. The space inquiry comprises point inquiry, frame pulling inquiry and polygon inquiry, the inquiry object can select a certain layer or all layers of the current view, and the inquiry result can be screened, positioned and highlighted according to the layers; the attribute inquiry is mainly to inquire the attribute information of the space data, and the inquiry conditions are set through a condition setting interface to support the derivation of the inquiry result; the fuzzy query mainly queries the items, and jumps to the graph while querying the results.

(IV) comparative analysis

The comparison analysis module is a core function module of the supervision analysis subsystem, and is used for completing batch comparison analysis of auxiliary supervision work for each room, and comprises various automatic logic operation tools, graphic processing tools and convenient manual interaction processing tools, and a processing result report or vector file is required to be output after the comparison analysis is completed.

The comparison and analysis module mainly has three functions of batch comparison, manual rechecking, statistical analysis and the like.

(1) Batch alignment

In the aspect of land supervision, 9 major classes and 120 minor classes of problems are shared according to the content of classification and guidance (trial run) of problems found in land supervision, and 19 minor classes of problems can be automatically realized through a program according to the general supervision and the research analysis of the early stages of each supervision bureau, and the rest of problems are required to be completed through manual examination. The 9 general problems are: firstly, comparing construction land approval data with land use planning data to find out whether the land approval accords with the planning; secondly, summarizing construction land approval data and comparing the summarized construction land approval data with land use planning data to check land use planning execution conditions; thirdly, comparing the construction land approval data with land use remote sensing monitoring to find out the phenomenon of unappropriate first use; fourthly, comparing the construction land approval data with the land supply data, and grasping the phenomenon of unapproved supply; fifthly, comparing the land development and arrangement supplementary farmland data with land use status change investigation data, and checking the balance of farmland occupation; comparing the land supply data with land use remote sensing monitoring data to find unused or unused idle conditions; seventhly, comparing images of the front time phase and the rear time phase to generate variable pattern information, and finding suspicious clues; eighth, the latest remote sensing image is interpreted and interpreted, and the change content related to the land supervision target is screened out, so that the target is provided for the next field supervision; and nine, comparing and analyzing the data, performing early warning analysis and model analysis, and primarily judging the implementation condition of the cultivated land protection responsibility target in a certain area in the supervision range according to the related requirements of the land management responsibility system, thereby providing a basis for compiling a situation analysis report.

The comparison analysis module needs to develop an automatic comparison analysis tool for 19 subclasses of problems, and the specific requirements are shown in table 4-1.

TABLE 4-1 comparative analysis requirements

(2) Manual rechecking

The artificial review module mainly has three functions of issuing suspected problems, manually reviewing suspected problems, deriving artificial review results and the like.

And (3) the suspected problems are released, namely after each comparison analysis is finished, the system automatically stores all comparison analysis results into a vector data set and sends the vector data set into a suspected problem layer for jumping to a pattern spot for review in a supervision room.

And (3) manually rechecking suspected problems, namely, a supervising staff can check all the suspected problem data one by one or in batches by using the functions of multi-condition inquiry, screening, sorting and the like in a supervising and analyzing subsystem, can superimpose layers of the past year remote sensing images, the approval data, other basic topics and the like which are already issued in the system, further determines the problems, and marks the suspected problems in the system.

And the manual review result export function is provided, the export result mainly comprises a table list in xls format and vector data in shape format, the table list can be directly issued to each place, and the vector data can be imported into the mobile review subsystem as a problem map spot and used as reference data for supervising the on-site review work.

(3) Statistical analysis

The statistical analysis of various data is realized, the statistical analysis table export function is provided, the table templates collected at present are shown in tables 4-2 to 4-4, the function of custom adding the statistical information column is provided under the condition of fixing basic information of the table, and the flexibility of the system is improved.

TABLE 4-2 figure speckle alignment Condition Table

TABLE 4-3 land preparation and improvement project and two-tone land analogy analysis Table

Tables 4-4 examination and approval comparison Condition Table

(fifth) analytical evaluation

The analysis and evaluation function is provided, and the natural resource use condition of three provinces of Hubei province, hunan province and Guizhou province can be evaluated according to the supervision problem result, and various data are ordered according to provinces, for example: sequencing the total problem number of the three provinces, sequencing the land use condition of the three provinces, sequencing the land idle quantity of the three provinces and the like; trend analysis can be performed on various types of data, for example, based on an operation prediction model (such as a gray prediction model, a BP neural network algorithm, etc.).

(six) data conversion

The function of deriving KMZ data from ArcGIS data is provided for viewing and using in third party software, such as Google Earth, oryza interactive map and the like.

According to the requirements of supervision business, the comparison and analysis results are frequently required to be issued through an online evidence-providing platform of the homeland investigation cloud, so that a data conversion function is required to be provided, and the comparison and analysis results are derived into a format which can be identified by the homeland investigation cloud.

The mobile checking subsystem is mainly used for checking suspected problems generated by the supervision and analysis subsystem in the field. And deploying the system software on the tablet personal computer, and loading and checking secret-related data. The software is a single offline version, and the tablet computer cannot be networked.

The mobile checking subsystem comprises the following use flows: and before the on-site checking, the needed basic data and the problem pattern data are manufactured into an off-line data packet and are imported into the tablet personal computer. The basic data mainly comprise remote sensing images, land use status, land use planning, approval data, related thematic data and the like; in the process of checking in the field, suspected problem spots can be marked, relevant information is filled in, the suspected problem spots are stored into a form or a text, a photo can be taken, and azimuth information of the photo is stored into a problem spot achievement; after the checking is finished, the checking result is copied out and is imported into the supervision result management subsystem for subsequent work.

The mobile checking subsystem mainly comprises six functional modules, such as map function, data display, task management, field checking, field inspection and data management.

Map function (one)

(1) And (5) a basic GIS function. The operations of roaming, enlarging, shrinking and the like of the map data are realized.

(2) A map tool. Providing basic map tools such as distance measurement, surface measurement, double-screen linkage, roller shutter browsing, fading display and the like.

(3) And (5) map positioning. GPS positioning, target pattern spot positioning and other functions are provided.

(4) And (5) layer management. And the organization, the display and the management of all the space data and the non-space data are realized. Performing hierarchical classification display according to 8 categories such as remote sensing images, space planning, land use status, land supervision, basic geography, geographical national conditions, basic data, and other categories; providing functions such as single selection, multiple selection and the like of the layer; providing the functions of layer searching, positioning and the like.

(II) data presentation

And the functions of browsing, inquiring, information viewing and the like of map data are realized.

(III) task management

The method realizes informatization management of field supervision and inspection tasks, provides functions of task creation, modification, deletion, inquiry and the like, and can introduce suspected pattern spots into a system to be connected with the tasks after the task is created.

(IV) checking in the field

The verification of the suspected problems is realized, the acquisition function of the related information of the suspected problems is provided, and the point line and plane information of the target pattern spots can be marked; operations such as adding check information, taking photos, recording videos and the like can be performed, and information such as angles and directions of the photos can be recorded; various analysis can be carried out on the pattern spots, such as the pattern spots occupying the current situation, the planning situation, the basic farmland situation, the examination and approval project situation, the land occupation and recording situation and the land occupation and treatment project situation; the daily check condition and the inspection condition can be statistically analyzed, for example, the total daily check pattern spots, the problem pattern spot ratio and the like are counted.

On-site inspection

The system provides the on-site inspection function, and the inspection personnel can be provided with a GPS switch on homepage, so that the inspection function is started, and the map is positioned in real time along with the track of the inspection personnel, so that the inspection information acquisition function is provided.

(V) data management

The management of map data, document tables, verification results and other data in the mobile verification subsystem is realized, and functions of adding, importing, modifying, inquiring, deleting and the like are provided; the method can classify according to the checking task and the inspection task, and export the related checking results (form and vector package) of the suspected problems.

Supervision result management subsystem functional design

The supervision result management subsystem is deployed in a supervision office administrative office network, the system adopts a B/S architecture, and all clients in the same network with a server deploying the system can log in the system through a browser. The result management subsystem mainly comprises six functional modules, namely task management, problem correction, statistical analysis, result report management and authority management modules.

Task management (one)

The informatization management of the supervision task is realized, and the functions of addition, editing, deletion, inquiry, accessory uploading and the like of the supervision task are provided.

(II) problem characterization

The method realizes the whole-flow management from the suspected problems to the problems, the suspected problems mainly comprise four sources, namely the suspected problems acquired through a supervision and analysis subsystem, the suspected problems formed through letters or media report, the suspected problems acquired through a natural resource remote sensing satellite cloud service platform, and the other suspected problems discovered in the supervision process. The problem format mainly comprises two types of vectors and tables, and the problem management module is used for providing the function of vector and table importing.

After the problem is introduced (filled) into the system, there are four processing methods: firstly, directly and manually issuing the information to local related departments, wherein the local related departments can fill in the situation on line through a system and upload the evidence; secondly, the data are exported, the data are issued to county departments through a homeland investigation cloud online evidence-providing platform, the county departments send people to the county departments to provide evidence, and finally the achievement of the evidence-providing platform is imported into a return system; thirdly, the supervision office staff carries out field check through the mobile check subsystem or the territorial investigation cloud field check APP, and after returning to the supervision office, the result is imported into the supervision and fruit forming subsystem; fourthly, supervising personnel are audited through data audit and the like, and then the result is filled into the system. Through various auditing modes, the state of the real problem can be marked through preliminary confirmation.

The supervising staff issues the results of the preliminary confirmation as the problems to the provincial level related departments, the provincial staff can assign the municipal and county level related staff to fill in confirmation comments, situation descriptions, submit evidence materials and the like in the result management subsystem, finally, the provincial level staff confirms the problems, and after the confirmation is completed, the supervising staff rechecks the provincial level confirmation conditions again to form a final problem list.

During the period, the multi-stage consultation in the supervising bureau affects the problem result, and can be modified in the system, and the system can record modification marks.

(III) problem correction

The informatization management of the supervision problem correction records is realized, and the functions of adding, editing, deleting, uploading accessories and the like of the correction records are provided; and providing a problem auditing function.

After the problem results are issued, in the process of rectifying and modifying the local related units, the data such as problem rectifying and modifying description, evidence materials and the like can be returned, the supervising room staff can also add a rectifying and modifying record on the rectifying and modifying page of the corresponding problem, upload the data corresponding to the problem, meanwhile, the local filling and modifying data can be audited, if necessary, the local checking can be carried out, and the local checking information is added in the rectifying and modifying record, if the auditing is not passed, the rectifying and modifying is continuously required until the auditing is passed, the problem state can be modified after the auditing is passed, and the number is filed. Statistical analysis

The statistical analysis and diversified display of supervision problem achievements are realized, the total problem statistical diagram of three provinces after being classified according to the problem types is displayed, the three provinces are transversely the problem types (cultivated land protection, agricultural land transfer and land collection, land supply, land utilization, land registration and land mortgage financing, illegal land occupation and land law enforcement, related departments of responsibility, land management policy files and others) and the three provinces, the number of longitudinal statistical problems, the problem area, the problem related amount, the correction in-place number, the correction in-place area, the correction in-place amount and the like can be respectively jumped to a specific problem ranking condition of the province according to the Hubei province, the Hunan province and the Guizhou province.

(IV) report management of results

The informatization management of the supervision task result report is realized, and the supervision result report can be automatically generated according to the problem result information and the correction record; the method can adopt a mode of template customization output, output various supervision analysis reports in quarters and annual, has various display modes such as text description, tables, charts and the like, and supports output of files such as xls, words and the like.

(V) rights management

And the authority of the system user is managed, so that the accuracy of the problem auditing process and auditing results is ensured. The authority of the system is divided into two categories, namely supervision office personnel and local personnel, the supervision office personnel are mainly used for auditing supervision problems and correction conditions, and the local personnel are mainly used for carrying out operations such as problem description, evidence submitting and the like.

While, for purposes of simplicity of explanation, the methodologies are shown and described as a series of acts, it is to be understood and appreciated that the methodologies are not limited by the order of acts, as some acts may, in accordance with one or more embodiments, occur in different orders and/or concurrently with other acts from that shown and described herein or not shown and described herein, as would be understood and appreciated by those skilled in the art. Those of skill would further appreciate that the various illustrative logical blocks, modules, circuits, and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both. To clearly illustrate this interchangeability of hardware and software, various illustrative components, blocks, modules, circuits, and steps have been described above generally in terms of their functionality. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the overall system. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention. The various illustrative logical blocks, modules, and circuits described in connection with the embodiments disclosed herein may be implemented or performed with a general purpose processor, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), a Field Programmable Gate Array (FPGA) or other programmable logic device, discrete gate or transistor logic, discrete hardware components, or any combination thereof designed to perform the functions described herein. A general purpose processor may be a microprocessor, but in the alternative, the processor may be any conventional processor, controller, microcontroller, or state machine. A processor may also be implemented as a combination of computing devices, e.g., a combination of a DSP and a microprocessor, a plurality of microprocessors, one or more microprocessors in conjunction with a DSP core, or any other such configuration. The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied directly in hardware, in a software module executed by a processor, or in a combination of the two. A software module may reside in RAM memory, flash memory, ROM memory, EPROM memory, EEPROM memory, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art. An exemplary storage medium is coupled to the processor such the processor can read information from, and write information to, the storage medium. In the alternative, the storage medium may be integral to the processor. The processor and the storage medium may reside in an ASIC. The ASIC may reside in a user terminal. In the alternative, the processor and the storage medium may reside as discrete components in a user terminal. In one or more exemplary embodiments, the functions described may be implemented in hardware, software, firmware, or any combination thereof. If implemented in software as a computer program product, the functions may be stored on or transmitted over as one or more instructions or code on a computer-readable medium. Computer-readable media includes both computer storage media and communication media including any medium that facilitates transfer of a computer program from one place to another. A storage media may be any available media that can be accessed by a computer. By way of example, and not limitation, such computer-readable media can comprise RAM, ROM, EEPROM, CD-ROM or other optical disk storage, magnetic disk storage or other magnetic storage devices, or any other medium that can be used to carry or store desired program code in the form of instructions or data structures and that can be accessed by a computer. Any connection is properly termed a computer-readable medium. For example, if the software is transmitted from a web site, server, or other remote source using a coaxial cable, fiber optic cable, twisted pair, digital Subscriber Line (DSL), or wireless technologies such as infrared, radio, and microwave, then the coaxial cable, fiber optic cable, twisted pair, DSL, or wireless technologies such as infrared, radio, and microwave are included in the definition of medium. Disk (disk) and disc (disk) as used herein include Compact Disc (CD), laser disc, optical disc, digital Versatile Disc (DVD), floppy disk and blu-ray disc where disks (disk) usually reproduce data magnetically, while discs (disk) reproduce data optically with lasers. Combinations of the above should also be included within the scope of computer-readable media.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.

Claims (2)

1. An on-line natural resource supervision system, which is characterized in that: comprising the following steps:

the supervision and analysis subsystem comprises layer management, map operation, data query, comparison analysis, analysis evaluation and data exchange functions;

the mobile checking subsystem comprises a map function, a data display function, a task management function, an on-site checking function, an on-site inspection function and a data management function;

the result management subsystem comprises task management, problem qualitative, problem correction, statistical analysis, result report management and authority management functions;

the supervision and analysis subsystem comprises a comparison and analysis module, is used for completing batch comparison and analysis of auxiliary supervision work for the department, and comprises an automatic logic operation tool, a graphic processing tool and a manual interaction processing tool, and outputs a processing result report or a vector file after the comparison and analysis is completed;

the supervision analysis subsystem comprises a data query module and provides data query functions, wherein the data query functions comprise space query, attribute query, custom query and fuzzy query, the space query comprises point query, frame pulling query and polygon query, a query object selects a certain layer or all layers of the current view, and query results are screened, positioned and highlighted according to the layers; the attribute query is to query attribute information of the space data, and set query conditions through a condition setting interface to support the derivation of query results; the fuzzy query is to query the item, and jump to the graph while querying the result;

the supervision and analysis subsystem comprises a map operation function and provides a basic map browsing function, wherein the map browsing function comprises map zooming-in, zooming-out, moving and resetting; meanwhile, a tool for assisting in viewing is provided, which comprises distance calculation, map printing, transparent display of a layer and contrast browsing;

the mobile checking subsystem comprises an on-site checking module, realizes the checking of suspected problems, provides a collection function of information related to the suspected problems, and marks the information of the point, the line and the surface of a target pattern; performing operations of adding check information, taking pictures and recording videos, and recording the angle and azimuth information of the pictures; analyzing the pattern spots, including analyzing the current situation, planning situation, basic farmland situation, examination and approval project situation, land occupation and record situation and land occupation and land treatment project situation of the pattern spots; carrying out statistical analysis on the daily checking condition and the inspection condition, including statistics on the total number of the daily checking pattern spots and the duty ratio of the problem pattern spots;

the mobile inspection subsystem comprises an on-site inspection module, provides an on-site inspection function, enables inspection personnel to start the inspection function by configuring a GPS switch on a homepage, and enables a map to be positioned in real time along with the track of the inspection personnel to provide an inspection information acquisition function;

the supervising result management subsystem comprises a problem qualitative module, after the problem is led into the module, the problem is directly and manually issued to local related departments, and the local related departments fill in the situation on line through the system and upload the evidence; secondly, the data are exported, the data are issued to county departments through a homeland investigation cloud online evidence-providing platform, the county departments send people to the county departments to provide evidence, and finally the achievement of the evidence-providing platform is imported into a return system; thirdly, the supervision office staff carries out field check through the mobile check subsystem or the territorial investigation cloud field check APP, and after returning to the supervision office, the result is imported into the supervision and fruit forming subsystem; fourthly, supervising personnel audit the results through a data audit mode and fill the results into the system;

the mobile checking subsystem comprises a map module, provides a basic GIS function and realizes roaming, amplifying and shrinking operations of map data; providing a map tool, wherein the map tool comprises a map tool for providing ranging, measuring surface, double-screen linkage, rolling shutter browsing and fading display; providing map positioning, providing GPS positioning and a target map spot positioning function; providing layer management, realizing organization, display and management of space data and non-space data, and carrying out hierarchical classification display according to remote sensing images, space planning, land utilization status, land supervision, basic geography, geographic national conditions and basic data types; providing a layer single selection and multiple selection function; providing a layer searching and positioning function;

the mobile checking subsystem comprises a task management module, realizes informatization management of field supervision and checking tasks and patrol tasks, provides functions of task creation, modification, deletion and inquiry, and guides suspected image spots into the system and is connected with the task after the task is created.

2. The on-line natural resource supervision system according to claim 1, wherein: the supervision and analysis subsystem focuses on the WebGIS function, realizes the browsing of basic data, image data, statistical charts and table documents, provides the data comparison analysis and statistical analysis function, adopts a single-page front-end application mode, and adopts ArcGIS JavaScript API or LeafleteTJS to expand and develop the WebGIS function based on a VueJS front-end frame, and uses H5 technology and Bootstrap. The mobile verification subsystem is developed based on an Android platform, adopts a Clean architecture, adopts okHttp, rxJava, SQLite technology, applies Java language, and utilizes ArcGIS plug-in to realize map browsing, data display, problem verification, data management and version management functions; the result management subsystem adopts B/S mode development, the architecture is based on J2EE development environment, REST API mode packaging function is adopted as a service interface in design, and a background framework adopts SpringBoot; the database connection uses a guide component.