CN115099647A - Service parallel approval method and system based on space code - Google Patents

Abstract

The invention discloses a service parallel approval method based on a space code, belonging to the technical field of intelligent approval. The service parallel approval method based on the space code comprises the following steps: combing and integrating a natural resource business system, and constructing a dynamically updated spatial account book of the global land elements; establishing a land resource integral portrait, identifying the land use state and realizing continuous tracking of land element circulation; the space code provides intelligent and accurate guidance of the whole business approval link, and on-code approval, examination and supervision are realized. The service parallel approval method based on the space codes enables the whole links of approval around construction land through the space codes in a digital mode, strengthens department cooperation, reconstructs approval rules, promotes accurate matching of supply and demand, provides accurate guidance, further improves government affair service management capacity, and promotes supervision and management capacity.

Description

Business parallel approval method and system based on space code

Technical Field

The invention relates to the technical field of intelligent approval, in particular to a service parallel approval method based on a space code.

Background

The space code is a core gripper for space modernization treatment, natural resources are fused through a digital technology and are reflected by a digital means, full-ring full-flow information of each inch of the national space, such as natural resource investigation and monitoring, national space planning, use control, farmland protection, ecological restoration, land approval, land supply, development and utilization, land remediation, law enforcement and supervision, authority registration and the like, is communicated through the space code, the digitalized connotation of each inch of the national space is comprehensively, completely and dynamically displayed on spot, and the core information of the foreworld and the tonight of the corresponding space is integrated by the code, so that the code-linked omnibearing business cooperation and the whole life cycle supervision are realized.

Because the organization is merging, releasing management and reform, homeland space planning and reform, digital homeland space construction and other reform wave tides, the organization functions and business system are still in the reorganization process, in the business item transaction process, the work is crossed back and forth more, and the content is overlapped, the government affairs service cost is high, the time is slow, the links are more, in addition, the important links of global land element state and project construction and the supervision ability of key nodes are poorer, additional workload is increased, the transaction efficiency is influenced, it is urgent to explore a plurality of departments such as new resource regulation, modification, building, credit, administrative service and the like to cross the collaborative management mechanism, an intelligent approval process is constructed in a matching way, the cloud federation of approval is realized, and the efficient collaboration of approval of all departments is promoted.

Disclosure of Invention

In order to solve the problems, the invention aims to provide a service parallel approval method based on space codes, which enables digital enabling through the space codes, strengthens the cooperation of departments around the whole links of construction land approval according to the ideas of service assimilation, item legalization and material digitization, comprehensively optimizes the processes of regulation, approval, sign, storage, supply, use, inspection, logging and the like of four levels of counties and counties in provinces, cities, counties, and the like, reconstructs approval rules, promotes accurate matching of supply and demand, opens up different departments and different platforms, highlights the integration and the cooperativity of core services, dynamically masters a global land element space account book, and realizes 'reading on the cloud, online approval, code seeing and processing and code checking'.

In order to achieve the purpose, the technical scheme of the invention is as follows:

the invention provides a service parallel approval method based on space codes, which comprises the following steps:

s1, combing and integrating a natural resource business system, and constructing a dynamically updated global land element space account book;

s2, establishing a land resource integral portrait, identifying a land use state and realizing continuous tracking of land element circulation;

and S3, providing intelligent and accurate guidance of all links of business approval through the space codes, and realizing on-code approval, examination and supervision.

As an aspect of the present invention, wherein S1 comprises the steps of:

s11, comprehensively combing a natural resource service system, simplifying service handling items and integrating resources of the natural resource service system;

and S12, constructing a dynamically updated global land element space account book, and mastering the spatial distribution and total amount of global land in real time.

As an aspect of the present invention, wherein S11 comprises the steps of:

s111, a service carding system: carrying out bottom investigation and comprehensive carding on the examined and approved full service of the construction land to form a service system;

s112, combing service items: analyzing the relationship among all business items to form a business relationship diagram and a business flow diagram;

and S113, constructing a business model, namely modeling the business in the bureau to form business application supporting each planning management unit.

As an aspect of the present invention, wherein S12 comprises the steps of:

s121, identifying newly-added farmland parcels through space codes, counting newly-added farmland turning areas according to the year and the month, carrying out comparison analysis on the areas of the newly-added farmland future available parcels according to the year, judging index digestibility, and simultaneously carrying out real-time rendering display;

s122, identifying storage plots through space codes, counting storage land areas according to the year and the month, comparing and analyzing the supplied storage land areas and index digestibility according to the year, and simultaneously performing real-time rendering display;

and S123, identifying the newly added land through the space code, periodically predicting the landing condition of the future project according to the annual land supply plan, the land plan and the major project plan, and dynamically rendering and displaying.

As an aspect of the present invention, wherein S2 includes the steps of:

s21, establishing a background image of land resource elements, and visually displaying the whole link business of approval of the construction land;

s22, establishing a land utilization dynamic portrait, and mastering the latest land utilization stage of each inch of the national soil space in real time;

and S23, generating the actual flow direction of the land elements on the basis of the background image of the land resource elements and the dynamic image of land utilization.

As an aspect of the present invention, wherein S3 comprises the steps of:

s31, service approval is realized on the space code, and intelligent and accurate guidance of all links is provided;

s32, service approval is handled on a space code, and one-code cooperative approval and one-key intelligent examination are realized;

and S33, the business approval is realized on the space code, the project full-period information is tracked, and the project risk is effectively identified.

As an aspect of the present invention, wherein S31 comprises the steps of:

s311, supporting the masses of enterprises to make early-stage preparation before project application through intelligent guidance of approval service;

s312, recording the project, analyzing the project through the space code, and intelligently guiding the next transaction according to the analysis result;

s313, solving daily problems of users, providing approval service guide, and realizing accurate service of enterprise investment project agency and assistance;

s314, service handling intelligent navigation is performed, optimal handling path guidance is provided for service handling personnel, and service handling efficiency is improved.

As an aspect of the present invention, wherein S32 includes the steps of:

s321, enabling an optimized business cooperation mode by using space codes, and efficiently promoting multi-department and multi-department cooperation examination and approval by data integration;

s322, establishing an intelligent examination model base, and detecting and analyzing the project by matching the space code drive with the intelligent examination rule;

and S323, clicking to generate a project audit report according to the intelligent audit result, and clicking to generate a two-dimensional code to share the report.

As an aspect of the present invention, wherein S33 comprises the steps of:

s331, establishing a full-period information chain in a service handling process, breaking bar and block segmentation by using space codes, correlating and sharing service information of each stage, and tracking changed father node information and generated child node information of each step of service unit;

s332, establishing a core main chain of an efficiency supervision line after spatial utilization, getting through the full life cycle of the utilization efficiency line, associating full-service stage information, and tracing the efficiency output of land development and utilization of each inch;

s333, establishing a statistical flow and report system, and dynamically supervising through data collection, combined release and shared use processes to achieve timely early warning and effectively identify risks.

By adopting the technical scheme, the invention has the following advantages:

the invention provides a service parallel approval method based on space codes, which is characterized in that the space codes are digitally enabled, the whole links of approval are examined around construction land according to the thinking of service assimilation, matter legalization and material digitalization, the department cooperation is enhanced, the standardized construction of government service matters is realized, and the lists and the material lists are determined externally, so that the internal approval matters of the government can be handled by scanning the space codes and approved on the network, the government service is improved and deepened, the cost, the time and the links are reduced, accurate guidance is provided for each small big link of the project application process, the governance capacity of the government service is further improved, and the administrative efficiency is improved; the data-driven supervision and treatment capacity is comprehensively enhanced, dynamic supervision of the global land element state is enhanced on the one hand, tracking supervision of important links and key nodes of project construction is enhanced on the other hand, major projects of province, city and county are mainly promoted, and supervision and treatment capacity is improved.

Drawings

FIG. 1 is a flowchart of a method for parallel approval of spatial code-based services according to the present invention;

FIG. 2 is a flow chart of a system for comprehensively combing natural resources and integrating natural resources field business systems according to the present invention;

FIG. 3 is a type diagram of the business model of the present invention.

Detailed Description

In the following description, the technical solutions of the present invention are described in detail with reference to the drawings, it should be noted that, in this document, relational terms such as first and second, and the like are only used for distinguishing one entity or operation from another entity or operation, and do not necessarily require or imply any actual relationship or order between the entities or operations. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Fig. 1 shows a flow chart of the spatial code-based business parallel approval method of the present invention. A service parallel approval method based on space codes is specifically shown in fig. 1, and includes the following steps:

s1, combing and integrating a natural resource business system, and constructing a dynamically updated global land element space account book;

wherein S1 includes the steps of:

s11, comprehensively combing a natural resource service system, simplifying service handling items and integrating resources of the service system in the natural resource field;

FIG. 2 is a flow chart of a system for comprehensively combing natural resources and integrating natural resources field business systems according to the present invention; FIG. 3 is a type diagram of the business model of the present invention.

S11 includes the following steps, as shown in fig. 2:

s111, a service carding system: the method is characterized in that the method comprises the following steps of carrying out thorough investigation and investigation aiming at the current situation of the overall construction land approval full service, carrying out pre-review and site selection on the construction land, issuing planning conditions, examining local plans, examining national land use rights of construction projects, examining construction land planning permission, examining construction project design schemes, examining construction project planning permission, planning and checking and the like, and analyzing by combining the functions of institutions to form a service system and optimize the service system;

s112, service item combing: by analyzing the relationship among all business items, the overall boundary of a core business line for giving, allocating and individually addressing and the main connection mode with other businesses are definitely obtained, and the lead unit and the cooperative unit related to each item are analyzed to form a global business relationship diagram and different types of business flow diagrams, so that a foundation is provided for business flow reconstruction;

s113, constructing a business model: the business process modeling mainly aims at business addition, adjustment and maintenance, the project models the business in the bureau, and the obtained business model is interpreted, driven and integrated by the business after the architecture adjustment to form business application capable of supporting the approval business of each planning management unit.

The business model is specifically shown in fig. 3, and includes business form modeling, business report modeling, business process modeling, business role modeling, business authority modeling, business material modeling, personnel organization modeling, data modeling, and the like.

And S12, constructing a dynamically updated global land element space account book, and mastering the space distribution and total amount conditions of the available newly-added construction land, the stock construction land and the potential construction land available in the future in real time.

Wherein S12 includes the steps of:

s121, identifying newly-added farmland parcels through space codes, counting newly-added farmland turning areas according to the year and the month, carrying out comparison analysis on the areas of the newly-added farmland future available parcels according to the year, judging index digestibility, and simultaneously carrying out real-time rendering display;

s122, identifying storage land blocks through space codes, counting the storage land area according to the year and the month, comparing and analyzing the storage land area and the index digestibility according to the year, and simultaneously performing real-time rendering and display;

and S123, identifying the newly added land through the space code, periodically predicting the landing condition of the future project according to the annual land supply plan, the land plan and the major project plan, and dynamically rendering and displaying.

S2, establishing a land resource integral portrait, identifying land states, tracing land changes and realizing continuous tracking of land element circulation;

s2 specifically includes the following steps:

s21, establishing a background image of land resource elements, and visually displaying the quantity, quality and spatial layout characteristics of the construction land approval whole-link business including land development and utilization conditions, construction land utilization conditions, land collection and supply conditions and the like;

s22, establishing a land utilization dynamic portrait, and grasping the latest land utilization stage of each inch of the homeland space in real time, wherein when new business activities occur in the space, the latest stage situation can be changed;

and S23, generating the actual flow direction of the land elements on the basis of the background images of the land resource elements and the dynamic images of land utilization, and dynamically displaying the guaranteed important infrastructure, important industrial projects, the land element guarantee of important civil engineering, land conditions, construction progress and the like.

And S3, providing intelligent and accurate guidance of all links of business approval through the space codes, and realizing on-code approval, examination and supervision.

Wherein, S3 includes the following steps:

s31, service approval on the space code is realized, intelligent and accurate guidance of the whole business approval link is provided, and government service management capacity is improved;

wherein, S31 includes the following concrete steps:

s311, by means of intelligent guidance of approval service, supporting the enterprise masses, before applying for a project, scanning codes to guide the project to do matters and prepare materials, and informing the enterprise masses of work anticipation;

and S312, after the primary site selection is carried out on the project, the basic condition of the project can be recorded, the scheme analysis is carried out through the space code, and the next transaction is intelligently guided according to the project analysis result.

S313, through intelligent question and answer of approval service, daily problems provided by users are solved in real time in a chat interaction mode, instant message notification and dynamic early warning service are actively provided, approval service guide is provided for enterprises and office workers, and accurate service of enterprise investment project agency help and office is comprehensively implemented;

s314, providing optimal transaction path guidance for service transaction personnel through service transaction intelligent navigation, and improving service transaction efficiency.

S32, service approval is handled on a space code, and one-code cooperative approval and one-key intelligent examination are realized;

s32 includes the following steps:

s321, enabling an optimized business collaboration mode by using space codes, changing 'project list type approval' into 'space type approval', taking a space where business transaction falls down as an object, and driving accurate promotion business execution by using data so as to promote collaborative approval of multiple departments and multiple departments efficiently by using data integration;

s322, combing the service examination rules, establishing an intelligent examination model base, driving and matching the intelligent examination rules through a space code state, automatically performing consistency detection and analysis on the project according to the examination rule model, wherein the consistency detection and analysis comprise space range planning consistency analysis, project periphery condition analysis, index occupation analysis and the like, and automatically generating an analysis result;

and S323, according to the intelligent examination result, clicking to generate a project examination report, wherein the project examination report comprises project basic conditions, land conditions, examination results and the like, and clicking to generate a two-dimensional code to share the report.

And S33, supervision on a space code is realized through business approval, the project full-period information is tracked, and the project risk is effectively identified.

S33 includes the following steps:

s331, establishing a full-period information chain in the service handling process, breaking the bar division by using a space code, correlating and sharing the service information of each stage, tracking the changed father node information and the generated son node information of each step of service unit, and running through the whole service handling process;

s332, establishing a core main chain of a performance monitoring line after spatial utilization, getting through the full life cycle of the utilization performance line such as engineering construction, land supply, development and utilization, batch supervision and the like, associating full-service stage information, and clearly tracing the performance output of each inch of land development and utilization to 'the future generation';

s333, establishing a statistical flow and a report system, and dynamically monitoring through data collection, combined release and shared use processes to achieve timely early warning and effectively identify risks.

Finally, it should be noted that while the present invention has been described with reference to the specific embodiments thereof, it should be understood by those skilled in the art that the above embodiments are only for illustrating the present invention and are not to be construed as limiting the present invention, and various equivalent changes and substitutions may be made therein without departing from the spirit of the present invention, and therefore, it is intended that all changes and modifications to the above embodiments within the spirit and scope of the present invention be covered by the appended claims.

Claims (9)

1. A service parallel approval method based on space codes is characterized by comprising the following steps:

s1, combing and integrating a natural resource business system, and constructing a dynamically updated global land element space account book;

s2, establishing a land resource integral portrait, identifying a land use state and realizing continuous tracking of land element circulation;

and S3, providing intelligent and accurate guidance of all links of business approval through the space codes, and realizing on-code approval, examination and supervision.

2. The method for parallel approval of spatial codes according to claim 1, wherein said S1 comprises the following steps:

s11, comprehensively combing a natural resource service system, simplifying service handling items and integrating resources of the natural resource service system;

and S12, constructing a dynamically updated global land element space account book, and mastering the global land space distribution and the total amount condition in real time.

3. The method for parallel approval of services based on space code according to claim 2, wherein said S11 comprises the following steps:

s111, a service carding system: carrying out bottom investigation and comprehensive carding on the examined and approved full service of the construction land to form a service system;

s112, combing service items: analyzing the relationship among all business items to form a business relationship diagram and a business flow diagram;

and S113, constructing a business model, namely modeling the business in the bureau to form business application supporting each planning management unit.

4. The method for parallel approval of spatial codes according to claim 2, wherein said S12 comprises the following steps:

s121, identifying newly-added farmland parcels through space codes, counting newly-added farmland turning areas according to the year and the month, carrying out comparison analysis on the areas of the newly-added farmland future available parcels according to the year, judging index digestibility, and simultaneously carrying out real-time rendering display;

s122, identifying storage land blocks through space codes, counting the storage land area according to the year and the month, comparing and analyzing the storage land area and the index digestibility according to the year, and simultaneously performing real-time rendering and display;

and S123, identifying the newly-added land through the space code, periodically predicting the landing condition of the future project according to the annual land supply plan, the land plan and the major project plan, and dynamically rendering and displaying.

5. The method for parallel approval of services based on space code according to claim 1, wherein said S2 comprises the following steps:

s21, establishing a background image of land resource elements, and visually displaying the whole link business of approval of the construction land;

s22, establishing a land utilization dynamic portrait, and mastering the latest land utilization stage of each inch of the national soil space in real time;

and S23, generating the actual flow direction of the land elements on the basis of the background portrait of the land resource elements and the dynamic portrait of land utilization.

6. The method for parallel approval of spatial codes according to claim 1, wherein said S3 comprises the following steps:

s31, service approval is realized on the space code, and intelligent and accurate guidance of all links is provided;

s32, service approval is handled on a space code, and one-code cooperative approval and one-key intelligent examination are realized;

and S33, the business approval is realized on the space code, the project full-period information is tracked, and the project risk is effectively identified.

7. The method for parallel approval of spatial codes according to claim 6, wherein said S31 comprises the following steps:

s311, supporting the enterprise masses to make early-stage preparation before project application through intelligent guidance of approval service;

s312, recording the project, analyzing the project through the space codes, and intelligently guiding the next transaction according to the analysis result;

s313, solving daily problems of users, providing approval service guide, and realizing accurate service of enterprise investment project agency and assistance;

s314, service handling intelligent navigation is performed, optimal handling path guidance is provided for service handling personnel, and service handling efficiency is improved.

8. The method for parallel approval of services based on space code according to claim 6, wherein said S32 comprises the following steps:

s321, enabling an optimized business cooperation mode by using space codes, and efficiently promoting multi-department and multi-department cooperation examination and approval by data integration;

s322, establishing an intelligent examination model base, and detecting and analyzing the project by matching the space code drive with the intelligent examination rule;

and S323, clicking to generate a project audit report according to the intelligent audit result, and clicking to generate a two-dimensional code to share the report.

9. The method for parallel approval of services based on space code according to claim 6, wherein said S33 comprises the following steps:

s331, establishing a full-period information chain in a service handling process, breaking bar and block segmentation by using space codes, correlating and sharing service information of each stage, and tracking changed father node information and generated child node information of each step of service unit;

s332, establishing a core main chain of an efficiency supervision line after spatial utilization, getting through the full life cycle of the utilization efficiency line, associating full-service stage information, and tracing the efficiency output of land development and utilization of each inch;

s333, establishing a statistical flow and report system, and dynamically supervising through data collection, combined release and shared use processes to achieve timely early warning and effectively identify risks.

Images