CN113641336B - Natural resource field investigation platform and construction method thereof, electronic equipment, storage medium and program product - Google Patents

Abstract

The invention provides a natural resource field investigation platform construction method, which comprises the following steps: user organization, geographic data management, task configuration, task distribution, field investigation, internal audit and data sharing. The invention relates to an electronic device, a storage medium, a program product and a natural resource field investigation platform. The invention takes universality as a core design concept, faces to the requirements of natural resource investigation business, utilizes a domain driven design technology (DDD), designs a field investigation platform with high universality and strong expansibility, integrates the functions of natural resource field investigation evidence-making, reporting, auditing and data sharing, and provides a generalized zero-code assembly technical framework for various natural resource investigations in the future.

Description

Natural resource field investigation platform and construction method thereof, electronic equipment, storage medium and program product

Technical Field

The invention relates to the technical field of field investigation, in particular to a natural resource field investigation platform and a construction method thereof, electronic equipment, a storage medium and a program product.

Background

In recent years, natural resources department and natural resources departments at different levels have conducted various natural resources surveys, such as: the field investigation system suitable for corresponding investigation is developed through the investigation work such as homeland investigation, general survey of geographical national conditions, investigation of cultivated land resources, investigation of rural cadastre, wetland investigation and permanent basic farmland check. However, these systems have different survey tasks and different survey contents, and related task issuing departments, survey departments and checking departments are also different, and the situations of long system development time, slow project progress, waste of data resources and the like are caused by practical reasons such as difficult data sharing among the systems. With the rapid development and the daily improvement of the internet technology, the 3S technology, the mobile communication technology and the unmanned aerial vehicle technology, mobile field information acquisition becomes a main means for natural resource information investigation. Therefore, a natural resource field investigation platform is urgently needed to solve the problems of configurability of natural resource investigation tasks, multi-source geographic data cross-platform access, data tamper-resistant encryption and investigation data sharing and exchange.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide a natural resource field investigation platform, which is a general natural resource field investigation platform integrating investigation project configuration, task distribution, field investigation, reporting and auditing and data sharing into a whole according to field-driven design and research by adopting a configurable software construction method and aiming at analyzing the current situation and problems of the current natural resource field investigation and zero code assembly application and taking universality requirement as guidance.

The invention provides a natural resource field investigation platform construction method, which comprises the following steps:

user organization, which is carried out according to the association relation of administrative divisions, departments and users;

geographic data management, namely integrating various geographic data access interfaces, establishing uniform access metadata, and writing a geographic data access bottom library;

task configuration, namely performing configurable setting on the inspection tasks;

distributing tasks, namely distributing survey patches in different area ranges to survey users and auditing users according to the incidence relation of administrative divisions, departments and users;

performing field investigation, and setting and standardizing data acquisition contents according to investigation mode, investigation source map layer, investigation attribute content, attribute content limitation, picture shooting limitation and graphic editing limitation of investigation tasks configured and obtained according to the investigation tasks;

performing internal auditing, namely acquiring an auditing mode, a backspacing mode and an auditing auxiliary function of an investigation task and distributed investigation records to determine auditing records;

and data sharing, namely performing token management on the investigated data resources after investigation, and responding to a user holding the token to click a data resource list record to enter a metadata information page.

Further, in the user organization step, the administrative divisions include provincial divisions, city divisions, and county divisions, the departments include provincial departments, city departments, and county departments, and the users include provincial users, city users, and county users; the provincial department is a department under the provincial division, and the provincial user is a user under the provincial department; the city-level department is a department under the city-level division, and the city-level user is a user under the city-level department; the county-level department is a department under the county-level division, and the county-level user is a user under the county-level department.

Further, in the task configuration step, basic information of the task, a survey mode, an audit mode, a survey source layer, a survey template, a work map and an auxiliary function can be configured;

the task basic information comprises a task name, an alias and a description;

the investigation mode comprises a top-down investigation mode for determining investigation pattern spots through various data integrated by interior, a bottom-up investigation mode for the investigator to find and report on the spot, a top-down investigation mode for determining the investigation pattern spots through various data integrated by interior and a mixed mode for the bottom-up investigation mode for the investigator to find and report on the spot;

the auditing modes are a three-level linear reporting mode and a multi-level auditing mode in province, city and county, the auditing modes are divided into an auditing mode in which the auditing content cannot be modified and a checking and modifying mode in which the auditing content can be modified, and the auditing mode in which the auditing content does not pass through the backspacing mode is divided into two modes of directly returning to the investigation stage and returning to the previous stage;

under the condition that a survey mode is configured to be a top-down survey mode or a mixed mode for determining survey patches by integrating various data in field, the survey source layer is in the form of map service, the source data issued as the map service is managed, the data is called to be set as the source layer of a survey task, and meanwhile, a task sub-package field, an information display field and layer personalized rendering scheme configuration are set;

the survey template is divided into attribute information, spatial information, solid photos, videos and sub-table configuration; the attribute information is used for setting field names, aliases, types, whether the fields are empty or not, whether the fields can be edited or not, default values, value limits, value error input reminding fields and limits and logic relations among the attribute field values; the space information is used for configuring the graph type, judging whether the graph can be edited or not, and automatically assigning a rule to an attribute field when the graph is divided and fused; the solid photos and videos are used for naming the reported picture videos or setting the quantity limit of the reported picture videos; the sub-table configuration comprises sub-table attribute content, graphic configuration, picture video configuration and dependency relationship among the main sub-tables;

the working map is used for configuring a survey and audit working base map group and a thematic map layer, and the working base map group is used for setting the number of groups, the map layer information of each group and the overlapping sequence of the map layers; the thematic layer is used for setting a layer overlapping sequence and layer parameters;

the auxiliary functions comprise auxiliary survey and auditing system functions, and the auxiliary survey comprises superposition analysis, double-screen comparison, rolling screen comparison, measurement functions and survey tracks.

Further, in the task distributing step, if the task sub-package field is set as a region code field, the user is adapted to the survey spot.

Further, in the field investigation step, a source pattern is downloaded according to a survey pattern allocated to the user, and a plurality of items having survey authority are investigated in response to the user while switching among the plurality of items.

Further, in the internal work auditing step, auditing is performed on survey records in a plurality of projects with auditing permissions in response to a user, and switching is performed among the projects; the data sharing step also comprises the steps of setting query conditions and obtaining survey data returned in a JSON format;

in the task configuration step, the configured result is interacted among the subsystems in a JSON format.

An electronic device, comprising: a processor;

a memory; and a program, wherein the program is stored in the memory and configured to be executed by the processor, the program comprising instructions for executing a natural resources field survey platform construction method.

A computer-readable storage medium having stored thereon a computer program for execution by a processor of a natural resource field survey platform construction method.

A computer program product comprising computer programs/instructions which, when executed by a processor, implement a method of building a natural resources field survey platform.

A natural resource field investigation platform comprises a presentation layer, a business logic layer, a data layer and a hardware support layer; wherein the content of the first and second substances,

the presentation layer comprises a configuration and management subsystem, a survey subsystem, an auditing subsystem and a sharing subsystem; the configuration and management subsystem comprises a user management module, a geographic data management module, a survey task configuration module and a survey data distribution module;

the user management module is used for organizing users according to the association relationship among administrative divisions, departments and users;

the geographic data management module is used for integrating various geographic data access interfaces, establishing unified access metadata and writing a geographic data access bottom library;

the survey task configuration module is used for carrying out configurable setting on the survey tasks;

the survey data distribution module is used for distributing survey patches in different area ranges to survey users and audit users according to the incidence relation among administrative divisions, departments and users;

the survey subsystem is used for configuring and acquiring survey modes, survey source layers, survey attribute contents, attribute content limitations, picture shooting limitations and graphic editing limitations of survey tasks according to the survey tasks of the configuration and management subsystem to specify and standardize data acquisition contents, and downloading source patches according to the survey patches distributed to the user by the configuration and management subsystem; the method comprises the steps that a user is provided for investigating a plurality of projects with investigation authorities, and meanwhile switching is carried out among the projects, data among the investigation projects exist independently, and each project has a data bin and a flow;

the auditing subsystem is used for obtaining an auditing mode, a backspacing mode and an auditing auxiliary function of an investigation task according to the configuration related to the configuration and management subsystem and determining an auditing record and a related function module according to the distributed investigation record; the method comprises the steps that a user is provided to audit survey records in a plurality of projects with audit authority, and meanwhile switching is carried out among the projects, data among the survey projects exist independently, and each project is provided with a data bin and a flow;

the sharing subsystem is used for carrying out token management on the investigated data resources after investigation, providing a user holding a token to click a data resource list record to enter a metadata information page, providing a set query condition, and obtaining the investigated data returned in a JSON format;

the business logic layer comprises a data interaction service and a geographic data access bottom layer library, the data interaction service is used for serializing data into JSON format characters and returning the JSON format characters to the presentation layer, and the geographic data access bottom layer library is used for integrating various geographic data access interfaces and establishing unified access metadata;

the data layer comprises a database and classifies the acquired special topic data and the basic data to acquire survey source data and working diagram data;

and the hardware support layer is used for operating the natural resource field investigation platform and providing access of a client.

Compared with the prior art, the invention has the beneficial effects that:

the invention provides a natural resource field investigation platform construction method, which comprises the following steps: user organization, geographic data management, task configuration, task distribution, field investigation, internal audit and data sharing. The invention relates to an electronic device, a storage medium, a program product and a natural resource field investigation platform. The invention takes universality as a core design concept, faces to the requirements of natural resource investigation business, utilizes a domain driven design technology (DDD), designs a field investigation platform with high universality and strong expansibility, integrates the functions of natural resource field investigation evidence-making, reporting, auditing and data sharing, and provides a generalized zero-code assembly technical framework for various natural resource investigations in the future. The problems of configurability of natural resource investigation tasks, multi-source geographic data cross-platform access, data tamper-resistant encryption and investigation data sharing exchange are solved.

The foregoing description is only an overview of the technical solutions of the present invention, and in order to make the technical solutions of the present invention more clearly understood and to implement them in accordance with the contents of the description, the following detailed description is given with reference to the preferred embodiments of the present invention and the accompanying drawings. The detailed description of the present invention is given in detail by the following examples and the accompanying drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without limiting the invention. In the drawings:

FIG. 1 is a flow chart of a method for constructing a natural resource field survey platform according to the present invention;

FIG. 2 is a diagram of a platform architecture for natural resources field survey according to the present invention;

FIG. 3 is a user organization diagram of the present invention;

FIG. 4 is a schematic diagram of a geographic data configuration item of the present invention;

fig. 5 is a diagram showing a configuration structure of an investigation task according to the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that any combination of the embodiments or technical features described below can be used to form a new embodiment without conflict.

A method for constructing a natural resource field survey platform, as shown in fig. 1, includes the following steps:

in general, a county area is used as a survey unit for natural resource survey of a user organization, and the natural resource elements in the county area are subjected to field survey. In order to facilitate task management, investigation and auditing and task distribution, platform users are organized in a linkage manner with divisions and departments. As shown in fig. 3, user organization is performed according to the relationship among administrative divisions, departments, and users. In fig. 3, administrative divisions include provincial divisions, city divisions, and county divisions, departments include provincial departments, city departments, and county departments, and users include provincial users, city users, and county users. The provincial department is a department under a provincial division, and the provincial user is a user under the provincial department; the city-level department is a department under the city-level division, and the city-level users are users under the city-level department; the county-level department is a department under a county-level division, and the county-level user is a user under the county-level department.

Geographic data management, for facilitating the call of geospatial data issued by different data platforms, and realizing multi-source geographic data cross-platform access, as shown in fig. 4, the platform integrates various geographic data access interfaces, establishes uniform access metadata, writes a geographic data access underlying library, and realizes geographic data access.

And task configuration, as shown in fig. 5, the configurable setting is performed on the survey tasks, so that the task basic information, the survey mode, the audit mode, the survey source map layer, the survey template, the work map, the auxiliary function and the like can be configured. And the configured result is interacted among the subsystems in a JSON format. Wherein the content of the first and second substances,

the basic information of the task mainly comprises information such as task name, alias and description.

There are three modes of investigation: the first is that a top-down investigation mode of investigating the pattern spot is determined by integrating various data in the field; the second mode is a bottom-up investigation mode that investigators find and report on the spot by themselves; the third mode is a mixed mode of the first two modes, and the platform can configure any one mode as a task investigation mode.

The auditing mode is a three-level straight line reporting and multi-level auditing mode in province, city and county, complex branch jumping relation can not occur, the auditing mode can be divided into an auditing mode in which the auditing content can not be modified and a checking mode in which the auditing content can be modified, and the auditing mode is divided into two modes of directly returning to the investigation stage and returning to the previous stage without passing through a backspacing mode.

Under the condition that the platform is configured with a survey mode which is a top-down survey mode or a mixed mode for determining survey pattern spots by integrating various data in the field, a survey source layer needs to be configured. The survey source map layer is mainly in the form of map service. The platform firstly manages source data issued as a map service by using a geographic data management module, directly calls the data to set a source layer of a survey task, and sets configurations such as a task sub-packet field (for suggesting a government area code), an information display field, a layer personalized rendering scheme and the like.

The survey template is mainly divided into attribute information, spatial information, a solid photograph, video and other information. The attribute information can set information such as field names, aliases, types, whether the fields are empty or not, whether the fields can be edited or not, default values, value limits, value error input reminding fields and the like, and limits and logic relations among the attribute field values; the spatial information mainly configures the type of the graph and the possibility of editing, and sets attribute field automatic assignment rules and the like when the graph is divided and fused; the solid photos and videos are mainly named for the reported picture videos or set for the quantity limit of the reported picture videos; the sub-table configuration mainly comprises sub-table attribute content, graphic configuration and picture video configuration, and the dependency relationship between the main sub-tables.

The work map is mainly provided with a survey subsystem, a work base map group and a thematic map layer of an auditing subsystem. The working base map group is provided with the number of groups, the layer information of each group and the overlapping sequence of the layers; and the thematic layer sets the layer overlapping sequence and the layer parameters.

The auxiliary functions mainly comprise system functions of auxiliary investigation and auditing, such as superposition analysis, double-screen comparison, roller shutter comparison, measurement function, investigation track and the like. The platform configures whether to provide these functions and provides parameter configurations for these functions.

And task distribution configuration, namely, based on the incidence relation of administrative divisions, departments and users, the survey patches in different area ranges are definitely distributed to survey users and auditing users. If the task subcontract field is set to be the administrative district code field, the system automatically adapts the user to the survey spot.

And the investigation subsystem regulates and standardizes data acquisition contents according to investigation task configuration of the configuration and management subsystem, such as investigation mode, investigation source layer, investigation attribute content, attribute content limitation, picture shooting limitation, graphic editing limitation and the like of the investigation task. The system downloads the source blob based on the user survey blob assigned by the configuration and management subsystem. The survey subsystem is mainly divided into functional modules such as project switching, survey evidence-providing, data analysis, progress statistics, off-line map downloading and loading, map common tools and the like. The user can investigate a plurality of projects with investigation authority, and can seamlessly switch among the projects, the data of the investigation projects are independent from each other, and each data bin and each flow are provided and do not interfere with each other.

And performing interior work auditing, wherein an auditing subsystem acquires an auditing mode, a backspacing mode and an auditing auxiliary function of an investigation task according to the configuration related to the configuration management subsystem, and determines auditing records and related function modules according to the distributed investigation records. The auditing subsystem is mainly divided into functional modules such as project switching, task auditing, task checking and modification, analysis and statistics, map common tools and the like. The user can audit the survey records in a plurality of projects with audit authority, and can seamlessly switch among the projects, wherein data among the survey projects exist independently, and each data bin and flow do not interfere with each other.

And the data sharing subsystem is mainly divided into functional modules of task management, token management, data query, data interaction and the like. The system carries out token management on the investigated data resources, a user holding the token clicks a data resource list to record and enter a metadata information page, and can set query conditions to obtain the investigated data returned in the JSON format.

An electronic device, comprising: a processor;

a memory; and a program, wherein the program is stored in the memory and configured to be executed by the processor, the program comprising instructions for executing a natural resource field survey platform construction method.

A computer-readable storage medium having stored thereon a computer program, the computer program being executable by a processor to perform a natural resource field survey platform construction method.

A computer program product comprising computer programs/instructions which, when executed by a processor, implement a method of building a natural resources field survey platform.

A natural resource field investigation platform, as shown in FIG. 2, includes a presentation layer, a business logic layer, a data layer and a hardware support layer; wherein, the first and the second end of the pipe are connected with each other,

the presentation layer comprises a configuration and management subsystem, a survey subsystem, an auditing subsystem and a sharing subsystem; the configuration and management subsystem comprises a user management module, a geographic data management module, a survey task configuration module and a survey data distribution module;

in the natural resource survey, generally, a county area is used as a survey unit, and the field survey is performed on natural resource elements within the county area. In order to facilitate task management, investigation and audit and task distribution, platform users are organized in linkage with divisions and departments. As shown in fig. 3, the user management module is configured to perform user organization according to the association relationship between administrative divisions, departments, and users. In fig. 3, administrative divisions include provincial divisions, city divisions, and county divisions, departments include provincial departments, city departments, and county departments, and users include provincial users, city users, and county users. The provincial department is a department under a provincial division, and the provincial user is a user under the provincial department; the city-level department is a department under the city-level division, and the city-level users are users under the city-level department; the county-level department is a department under a county-level division, and the county-level user is a user under the county-level department.

In order to conveniently call the geospatial data published by different data platforms, multi-source geographic data cross-platform access is realized. As shown in fig. 4, the geographic data management module is configured to integrate various geographic data access interfaces, establish unified access metadata, write a geographic data access underlying library, and implement access to geographic data.

And the survey task configuration module is used for performing configurable setting on a survey task, and realizing the configurable setting on basic information of the task, a survey mode, an audit mode, a survey source layer, a survey template, a work map, an auxiliary function and the like. And the configured result is interacted among the subsystems in a JSON format. Wherein the content of the first and second substances,

the basic information of the task mainly comprises information such as task name, alias and description.

There are three modes of investigation: the first is that a top-down investigation mode of investigating the pattern spot is determined by integrating various data in the field; the second mode is a bottom-up investigation mode that investigators find and report on the spot by themselves; the third mode is a mixed mode of the first two modes, and the platform can configure any one mode as a task investigation mode.

The auditing modes are three-level straight line reporting and multi-level auditing modes in province, city and county, complex branch jumping relations cannot occur, the auditing modes can be divided into an auditing mode in which the auditing contents cannot be modified and a verifying and modifying mode in which the auditing contents can be modified, and the auditing modes are divided into two modes of directly returning to the investigation stage and returning to the previous stage without passing through a backspacing mode.

Under the condition that the platform is configured with a survey mode which is a top-down survey mode or a mixed mode for determining survey pattern spots by integrating various data in the field, a survey source layer needs to be configured. The survey source map layer is mainly in the form of map service. The platform firstly manages source data issued as a map service by using a geographic data management module, directly calls the data to set a source layer of a survey task, and sets configurations such as a task sub-packet field (for suggesting a government area code), an information display field, a layer personalized rendering scheme and the like.

The survey template is mainly divided into attribute information, spatial information, a solid photograph, video and other information. The attribute information can set information such as field names, aliases, types, whether fields are empty or not, whether the fields are editable or not, default values, value limitation, value error input reminding fields and the like, and the limitation and logic relation among the attribute field values; the spatial information mainly configures the type of the graph and the possibility of editing, and sets attribute field automatic assignment rules and the like when the graph is divided and fused; the solid photos and videos are mainly named for the reported picture videos or set for the quantity limit of the reported picture videos; the sub-table configuration mainly comprises sub-table attribute content, graphic configuration and picture video configuration, dependency relationship between main sub-tables and the like.

The work map is mainly provided with a survey subsystem, a work base map group and a thematic map layer of an auditing subsystem. The working base map group is provided with the number of groups, the layer information of each group and the overlapping sequence of the layers; and the thematic layer sets the layer overlapping sequence and the layer parameters.

The auxiliary functions mainly comprise system functions of auxiliary investigation and auditing, such as superposition analysis, double-screen comparison, roller shutter comparison, measurement function, investigation track and the like. The platform configures whether to provide these functions and provides parameter configurations for these functions.

And the survey data distribution module is used for definitely distributing survey patches in different area ranges to survey users and auditing users on the basis of the incidence relation among administrative divisions, departments and users. If the task subcontract field is set to be the administrative district code field, the system automatically adapts the user to the survey spot.

The survey subsystem is used for configuring and acquiring survey modes, survey source layers, survey attribute contents, attribute content limits, picture shooting limits and graphic editing limits of survey tasks according to the survey tasks of the configuration and management subsystem to specify and standardize data acquisition contents, and downloading source patches according to the survey patches distributed to the user by the configuration and management subsystem; the survey subsystem is mainly divided into functional modules such as project switching, survey evidence-providing, data analysis, progress statistics, off-line map downloading and loading, map common tools and the like. The user can investigate a plurality of projects with investigation authority, and can seamlessly switch among the projects, data among the investigation projects exist independently, and each data bin and flow do not interfere with each other. And the auditing subsystem is used for acquiring an auditing mode, a backspacing mode, an auditing auxiliary function and distributed investigation records of the investigation task according to the configuration related to the management subsystem to determine auditing records and related functional modules. The auditing subsystem is mainly divided into functional modules such as project switching, task auditing, task checking and modification, analysis and statistics, map common tools and the like. The user can audit the survey records in a plurality of projects with audit authority, and can seamlessly switch among the projects, wherein data among the survey projects exist independently, and each data bin and flow do not interfere with each other.

The sharing subsystem is mainly divided into functional modules of task management, token management, data query, data interaction and the like. The system carries out token management on the investigated data resources, a user holding the token clicks a data resource list to record and enter a metadata information page, and can set query conditions and obtain the investigated data returned in the JSON format.

The business logic layer comprises data interaction service, a geographic data access bottom layer library, a read, an MVVMHabit and a Bootstrap, the data interaction service is used for serializing data into JSON format characters and returning the JSON format characters to the presentation layer, and the geographic data access bottom layer library is used for integrating various geographic data access interfaces and establishing uniform access metadata; react is used for constructing a user interface, MVVMHabit is a development library, and Bootstrap is used for developing a front-end framework.

The data layer comprises databases such as an Oracle database and an SQLite database, and classifies thematic data and basic data acquired from external geographic platform service data, internal geographic platform service data, public resources and the like to acquire survey source data and working drawing data.

And the hardware support layer is used for running the natural resource field investigation platform and providing access of the client. The system comprises a server, a PC (personal computer), a mobile phone, a tablet and a network environment, wherein the server is used for operating a natural resource field investigation platform, and the PC, the mobile phone and the tablet access the natural resource field investigation platform through the network environment.

According to the invention, the survey task is built quickly, the natural resource field investigation task can be built quickly through the platform, and the survey task system environment can be built within half a day on the basis of the integrated survey source data.

The invention realizes the integration of the map bottom library, optimizes the map data management and integrates the map bottom library so as to be suitable for various data formats; when the data source is configured visually, the data source can be configured, and the background can call the map bottom library to manage the map data according to the configuration.

The invention realizes flexible construction of system modules, encapsulates common functions in national resource investigation and monitoring, and rapidly realizes corresponding functions by configuring functional parameters by a user; if the user does not want to use the functions, the corresponding function configuration is skipped during task configuration, for example, the user only needs to perform visual configuration of overlay analysis, mainly function parameters and result output parameters, so that overlay analysis can be quickly realized and the result is output.

The invention realizes the multi-stage setting of the functional parameters, adopts the multi-stage setting during the configuration in order to respond the change requirements of the same function on the parameters of different links, and realizes the accurate control; the different levels of configuration have different priorities, for example, rendering settings are set at multiple places, there are default system and overlay analysis, when the overlay analysis function is called, the rendering settings of the overlay analysis are loaded first, and if the overlay analysis does not set the rendering, the default system settings are used.

The invention realizes division, department and personnel association organization and multi-level linkage, and when visual configuration is carried out, the department belongs to the administrative division, the personnel belong to the department, and the association relation among the administrative division, the department and the personnel is established, so that the linkage among the administrative division, the department and the personnel is realized.

The invention realizes the JSON storage, is convenient to expand, has the advantages that a universal platform is suitable for various investigation tasks, visual configuration must have great flexibility and dynamic property, and configuration contents are suitable for diversification and expandability. By using the JSON data format with a clear structure, the data updating and maintenance are convenient, and the dynamic expansion is convenient, so that the method can adapt to dynamic investigation tasks.

The invention realizes the dynamic creation of the data table, takes the tasks as basic units, each task independently stores a set of business data, and the data table is dynamically created after the user configuration task is completed.

The invention realizes the data authenticity guaranteed by the anti-tampering technology, and in order to guarantee the authenticity of the on-site photo, the field investigation system must convert the photo content and the position information to generate the verification code, and verify the photo content and the position information when the data is uploaded to the warehouse so as to ensure that the content corresponds to the shooting position and prevent the photo content from being tampered manually.

The invention realizes the progress control, and provides the functions of total progress statistics of the survey and progress statistics according to month/day for mastering the project survey and audit progress in real time.

The foregoing is merely a preferred embodiment of the invention and is not intended to limit the invention in any manner; those skilled in the art can readily practice the invention as shown and described in the drawings and detailed description herein; however, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the scope of the invention as defined by the appended claims; meanwhile, any changes, modifications, and evolutions of the equivalent changes of the above embodiments according to the actual techniques of the present invention are still within the protection scope of the technical solution of the present invention.

Claims (9)

1. A natural resource field investigation platform construction method is characterized by comprising the following steps:

user organization, which is carried out according to the association relation of administrative divisions, departments and users;

geographic data management, namely integrating various geographic data access interfaces, establishing unified access metadata, and writing a geographic data access bottom library;

task configuration, namely performing configurable setting on the inspection task; the task configuration comprises a survey mode, basic task information, an audit mode, a survey source layer, a survey template, a work map and an auxiliary function, and is configurable, and specifically comprises the following steps:

the investigation mode comprises a top-down investigation mode for determining investigation pattern spots through various data integrated by interior, a bottom-up investigation mode for the investigator to find and report on the spot, a mixed mode of the top-down investigation mode for determining the investigation pattern spots through various data integrated by interior and the bottom-up investigation mode for the investigator to find and report on the spot; the task basic information comprises a task name; the auditing mode is a three-level straight line reporting and multi-level auditing mode in province, city and county; the survey source layer is in the form of map service, source data issued as the map service is managed, and the data is called to be set as a source layer of a survey task; the survey template is divided into attribute information, spatial information, solid photos, videos and sub-table configuration; the working map is used for configuring a survey and auditing working bottom map group and a thematic map layer; the auxiliary function comprises a system function for assisting investigation and auditing; distributing tasks, namely distributing survey patches in different area ranges to survey users and auditing users according to the incidence relation of administrative divisions, departments and users;

performing field investigation, and setting and standardizing data acquisition contents according to investigation mode, investigation source map layer, investigation attribute content, attribute content limitation, picture shooting limitation and graphic editing limitation of investigation tasks configured and obtained according to the investigation tasks;

performing internal auditing, namely acquiring an auditing mode, a backspacing mode and an auditing auxiliary function of an investigation task and distributed investigation records to determine auditing records;

and data sharing, namely performing token management on the investigated data resources, and responding to a user holding the token to click a data resource list record to enter a metadata information page.

2. The method for constructing the natural resource field investigation platform according to claim 1, wherein: in the user organization step, the administrative divisions include provincial divisions, city divisions and county divisions, the departments include provincial departments, city departments and county departments, and the users include provincial users, city users and county users; the provincial department is a department under the provincial division, and the provincial user is a user under the provincial department; the city-level department is a city-level department under the city-level division, and the city-level users are city-level users under the city-level department; the county-level department is a department under the county-level division, and the county-level user is a user under the county-level department.

3. The method for constructing the natural resource field investigation platform according to claim 1, wherein: in the step of task configuration, the task configuration step,

the task basic information also comprises an alias and a description;

the auditing modes in the auditing mode are an auditing mode in which the auditing content can not be modified and a checking and modifying mode in which the auditing content can be modified, and the mode in which the auditing does not pass through the returning mode is divided into two modes of directly returning to the investigation stage and returning to the previous stage;

the survey source layer is simultaneously provided with a task sub-packet field, an information display field and layer personalized rendering scheme configuration;

the attribute information is used for setting field names, aliases, types, whether the fields are empty or not, whether the fields can be edited or not, default values, value limits, value error input reminding fields and limits and logic relations among the attribute field values; the space information is used for configuring the graph type, judging whether the graph can be edited or not, and automatically assigning a rule to an attribute field when the graph is divided and fused; the solid photos and videos are used for naming the reported picture videos or setting the quantity limit of the reported picture videos; the sub-table configuration comprises sub-table attribute content, graphic configuration, picture video configuration and the dependency relationship among the main sub-tables;

the working base map group is used for setting the number of groups, the layer information of each group and the overlapping sequence of layers; the thematic layer is used for setting a layer overlapping sequence and layer parameters;

the auxiliary survey comprises superposition analysis, double-screen comparison, rolling screen comparison, measurement functions and survey tracks.

4. The method for constructing the natural resource field survey platform according to claim 3, wherein the method comprises the following steps: in the task distribution step, if the task sub-package field is set as a administrative district code field, the user is adapted to the survey chart.

5. The method for constructing the natural resource field survey platform according to claim 1, wherein the method comprises the following steps: in the field investigation step, a source pattern is downloaded according to a survey pattern distributed to a user, a plurality of items having survey authority are investigated by the user in response, and the plurality of items are switched.

6. The method for constructing the natural resource field survey platform according to claim 1, wherein the method comprises the following steps: in the internal work auditing step, auditing survey records in a plurality of projects with auditing permission by responding to a user, and switching among the projects; the data sharing step also comprises the steps of setting query conditions and obtaining survey data returned in a JSON format;

in the task configuration step, the configured result is interacted among the subsystems in a JSON format.

7. An electronic device, characterized by comprising: a processor;

a memory; and a program, wherein the program is stored in the memory and configured to be executed by the processor, the program comprising instructions for carrying out the method according to any one of claims 1-6.

8. A computer-readable storage medium having stored thereon a computer program, characterized in that: the computer program is executed by a processor for performing the method according to any of claims 1-6.

9. A natural resource field investigation platform is characterized in that: the system comprises a presentation layer, a business logic layer, a data layer and a hardware support layer; wherein the content of the first and second substances,

the presentation layer comprises a configuration and management subsystem, a survey subsystem, an auditing subsystem and a sharing subsystem; the configuration and management subsystem comprises a user management module, a geographic data management module, a survey task configuration module and a survey data distribution module;

the user management module is used for organizing users according to the association relationship among administrative divisions, departments and users;

the geographic data management module is used for integrating various geographic data access interfaces, establishing unified access metadata and writing a geographic data access bottom library;

the survey task configuration module is used for performing configurable setting on the survey tasks; the task configuration comprises the step of carrying out configurable operation on a survey mode, and specifically comprises the following steps: the system comprises a top-down investigation mode for determining investigation pattern spots through various data integrated by interior, a bottom-up investigation mode for the investigator to find and report on the spot, a mixed mode of the top-down investigation mode for determining the investigation pattern spots through various data integrated by interior and the bottom-up investigation mode for the investigator to find and report on the spot;

the survey data distribution module is used for distributing survey patches in different area ranges to survey users and audit users according to the incidence relation among administrative divisions, departments and users;

the survey subsystem is used for configuring and acquiring survey modes, survey source layers, survey attribute contents, attribute content limitations, picture shooting limitations and graphic editing limitations of survey tasks according to the survey tasks of the configuration and management subsystem to specify and standardize data acquisition contents, and downloading source patches according to the survey patches distributed to the user by the configuration and management subsystem; the method comprises the steps that a user is provided for investigating a plurality of projects with investigation authorities, and meanwhile switching is carried out among the projects, data among the investigation projects exist independently, and each project has a data bin and a flow;

the auditing subsystem is used for obtaining an auditing mode, a backspacing mode, an auditing auxiliary function and distributed investigation records of the investigation task according to the configuration related to the configuration and management subsystem to determine auditing records and related functional modules; a user is provided to audit the survey records in a plurality of projects with audit authority, and the projects are switched, wherein the data of the survey projects are independent from each other, and each project has a data bin and a flow;

the sharing subsystem is used for carrying out token management on the investigated data resources after investigation, providing a user holding a token to click a data resource list record to enter a metadata information page, providing a set query condition, and obtaining the investigated data returned in a JSON format;

the business logic layer comprises a data interaction service and a geographic data access bottom layer library, the data interaction service is used for serializing data into JSON format characters and returning the JSON format characters to the presentation layer, and the geographic data access bottom layer library is used for integrating various geographic data access interfaces and establishing unified access metadata;

the data layer comprises a database and classifies the acquired special topic data and the basic data to acquire survey source data and working diagram data;

and the hardware support layer is used for operating the natural resource field investigation platform and providing access of a client.

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