CN116993282A - Village planning result automatic generation method, system, equipment and storage medium - Google Patents

Abstract

The application discloses a village planning result automatic generation method, a system, equipment and a storage medium.

Description

Village planning result automatic generation method, system, equipment and storage medium

Technical Field

The application relates to the technical field of data processing, in particular to an automatic generation method, system and equipment for village planning results and a storage medium.

Background

Village planning is a detailed plan outside town development boundaries in a homeland space planning system, and is a legal basis for developing homeland space development and protection activities, implementing homeland space use control, checking village construction planning permission, bringing collective operational construction land into the market, carrying out various constructions and the like.

Village planning eventually requires a village planning result package conforming to village planning technical standards. At present, in the generation process of village planning achievements, a village planning database is manually manufactured according to a range line and a current situation database, and after the village planning database is manufactured, table statistics is manually completed according to the village planning database; after the village planning database and the data table are completed, manually manufacturing related drawings by combining the current basic data; and after the village planning database, the data sheet and the drawing are manufactured, manually manufacturing a village planning result package according to a fixed format. The whole village planning result generation flow has complex operation, more manual operation links, longer time consumption and more complex process, and is easy to make mistakes in the process, and the accuracy of data is the primary condition of village planning results.

Therefore, in order to improve the efficiency and accuracy of village planning result generation, reduce the occurrence of careless village planning result caused by human factors, and reduce the labor cost, it is necessary to research an automatic village planning result generation method by using scientific means.

Disclosure of Invention

In order to solve the technical problems, the application provides an automatic village planning result generation method, system, equipment and storage medium, which can perform standardized processing on village planning basic data and automatically generate a village planning result package according to the standardized village planning basic data according to village planning technical standards. The application also provides a village planning result automatic generation system, village planning result automatic generation equipment and a village planning result storage medium, and the village planning result automatic generation system and village planning result storage medium have the same technical effects.

A first object of the present application is to provide an automatic village planning result generation method.

The first object of the present application is achieved by the following technical solutions:

an automatic village planning result generation method comprises the following steps:

s1, carrying out standardized processing on village planning basic data of a village to be planned, wherein the village planning basic data comprises a village planning adjustment requirement layer, a village key project layer, a village commission map layer and a village basic period public service facility and infrastructure layer;

s2, converting the current land pattern spot pattern layer in the village domain range of the village to be planned into basic period data, and generating a basic period land pattern spot pattern layer;

s3, adjusting a demand layer based on the base-period ground-class map spot layer and the standardized village planning, so as to obtain a planning ground-class layer;

s4, a village planning database is manufactured according to village planning technical standards based on the planning ground-class layer, the base-phase ground-class spot layer, the standardized village commission resident map layer, the standardized village key project layer and the standardized village base public service facility and infrastructure layer;

S5, generating a planning table file based on the base-period ground-class map spot map layer, the planning ground-class map layer and the standardized village important project map layer, wherein the planning table file comprises a village territory space function structure adjustment table and a village important project list table;

s6, generating a planning map piece based on the planning ground-class map layer and the base-period ground-class map spot map layer, wherein the planning map piece comprises a village current state homeland space land layout map and a village planning homeland space land layout map;

and S7, automatically classifying and grading the planning database, the planning table file and the planning drawing according to a preset data file organization structure according to village planning technology standard to form a village planning result package.

Preferably, the S1 includes:

s11, standardizing the village planning adjustment requirement layer: forming a planning adjustment layer according to village planning technical standards based on the village planning adjustment requirement layer, and updating relevant fields of each adjustment range in an attribute table of the planning adjustment layer;

s12, carrying out standardized processing on the village important project layer: forming a planar key item layer, a linear key item layer and/or a dot key item layer according to village planning technical standards based on the village key item layer, and updating relevant fields of each key item in an attribute table of the planar key item layer, the linear key item layer and/or the dot key item layer;

S13, standardizing the village-based period public service facility and infrastructure layers: forming a base public service facility and infrastructure marking layer according to village planning technical standards based on field investigation data and the base public service facility and infrastructure layer, and updating relevant fields of each facility in an attribute table of the base public service facility and infrastructure marking layer;

s14, carrying out standardized processing on the map layer of the village commission: and forming a village delegation map layer according to village planning technical standards based on the field investigation data and the village delegation map layer, and updating relevant fields of the village delegation premises in an attribute table of the village delegation map layer.

Preferably, the S2 includes:

s21, updating the current situation map spot map layer based on the annual land change survey data;

s22, newly adding relevant fields in the updated attribute table of the current spot-like layer according to village planning technical standards to generate a base spot-like layer;

and S23, updating the attribute table of the base-period ground-class plaque layer according to village planning technical standards.

Preferably, the S3 includes:

s31, deleting relevant fields from the attribute table of the base-period ground-class spot layer according to village planning technical standards to generate the planning ground-class layer;

S32, performing spot segmentation on the planned ground type layer by adopting a village planning adjustment requirement layer to perform standardization processing according to village planning technical standards to obtain a planning adjustment layer;

s33, recalculating each area in the planned ground-based layer after segmentation according to village planning technical standards, and updating relevant fields in an attribute table of the planned ground-based layer.

Preferably, the S4 includes:

s41, fusing the base-period ground-class spot layers by adopting an Arcmap desktop component to generate a planning range layer;

s42, packaging and combining the map layer of the village commission residence, the map layer of the foundation base map spots, the public service facilities of the village foundation period and the marking map layer of the infrastructure, which are obtained by standardized processing of the map layer of the planning range and the map layer of the village commission residence, so as to generate a basic element set of a village planning database;

s43, performing spot conversion by adopting an Arcmap desktop component based on the planned ground class layer and the basic public service facility and infrastructure annotation layer obtained by standardized processing of the village basic public service facility and infrastructure layer, and generating a planned public service facility and infrastructure annotation layer;

S44, carrying out data processing on the planned ground class layer according to village planning technical standards to generate a village range line drawing layer;

s45, packaging and combining the planning ground class layer, the planning public service facility and infrastructure labeling layer, the village range line drawing layer and the planar key item layer, the linear key item layer and/or the dot key item layer which are obtained by the standardization processing of the village key item layer, and generating a planning element set of a village planning database.

Preferably, the S5 includes:

s51, adjusting a village country soil space function structure based on the base-period ground-based pattern layer and a planned ground-based pattern layer, and generating a village country soil space function structure adjustment table, wherein the base-period annual area in the village country soil space function structure adjustment table is counted based on the base-period ground-based pattern layer, and the planned annual area in the village country soil space function structure adjustment table is counted based on the planned ground-based pattern layer;

s52, generating a village key item list table based on the planar key item layer, the linear key item layer and/or the dot key item layer which are obtained by the standardized processing of the village key item layer;

And S53, packaging the village national and local space function structure adjustment table and the village key item list table in a folder form to form the planning table file.

Preferably, the S6 includes:

s61, carrying out layer processing on the base-period land-like pattern layer by adopting an Arcmap desktop component according to village planning technical standards to generate a village current state homeland space land layout;

s62, carrying out layer processing on the planning land-like layer and the base-period land-like pattern layer by adopting an Arcmap desktop component according to village planning technical standards to generate a village planning land-used space layout;

and S63, packing the current country space land use layout of the village and the planning country space use layout of the village in a folder form to form the planning map.

A second object of the present application is to provide an automatic village planning result generation system.

The second object of the present application is achieved by the following technical solutions:

an automatic village planning result generation system, comprising:

the village planning basic data comprises a village planning adjustment requirement layer, a village key project layer, a village commission resident map layer and a village basic period public service facility and infrastructure layer;

The base-period ground-class spot map layer generation module is used for performing base-period data conversion on the current-situation ground-class spot map layer in the village domain range of the village to be planned to generate a base-period ground-class spot map layer;

the planning ground-class layer generation module is used for obtaining a planning ground-class layer based on the base-period ground-class spot layer and the standardized village planning adjustment requirement layer;

the village planning database generation module is used for manufacturing a village planning database according to village planning technical standards based on the planning ground type layer, the base ground type spot layer, the standardized village commission resident map layer, the standardized village key project layer and the standardized village base public service facility and infrastructure layer;

the planning table file generation module is used for generating a planning table file based on the base-period ground-class spot layer, the planning ground-class layer and the standardized village important project layer, wherein the planning table file comprises a village territory space function structure adjustment table and a village important project list table;

the planning map generation module is used for generating a planning map based on the planning ground map layer and the base ground map spot map layer, wherein the planning map comprises a village current state land space land layout map and a village planning land space layout map;

And the village planning result package generation module is used for automatically classifying and grading the planning database, the planning table file and the planning drawing according to a preset data file organization structure according to village planning technology standard to form a village planning result package.

Preferably, the data normalization processing module is specifically configured to:

and standardizing the village planning adjustment requirement layer: forming a planning adjustment layer according to village planning technical standards based on the village planning adjustment requirement layer, and updating relevant fields of each adjustment range in an attribute table of the planning adjustment layer;

and (3) standardizing the village key project layer: forming a planar key item layer, a linear key item layer and/or a dot key item layer according to village planning technical standards based on the village key item layer, and updating relevant fields of each key item in an attribute table of the planar key item layer, the linear key item layer and/or the dot key item layer;

standardized processing of the village-based public service and infrastructure layers: forming a base public service facility and infrastructure marking layer according to village planning technical standards based on field investigation data and the base public service facility and infrastructure layer, and updating relevant fields of each facility in an attribute table of the base public service facility and infrastructure marking layer;

Standardization processing the village commission resident map layer: and forming a village delegation map layer according to village planning technical standards based on the field investigation data and the village delegation map layer, and updating relevant fields of the village delegation premises in an attribute table of the village delegation map layer.

Preferably, the base-period ground-like plaque layer generating module is specifically configured to:

updating the current situation map spot map layer based on the annual homeland change survey data;

adding related fields in the updated attribute table of the current local class spot map layer according to village planning technical standards to generate a basic phase local class spot map layer;

and updating the attribute table of the base-period land-based spot map layer according to village planning technical standards.

Preferably, the planning ground-like layer generating module is specifically configured to:

deleting relevant fields from the attribute table of the base-period land-based spot map layer according to village planning technical standards to generate the planning land-based map layer;

performing spot segmentation operation on the planning land class layer by adopting a village planning adjustment requirement layer according to village planning technical standards and adopting the planning adjustment layer obtained after standardization processing;

and recalculating each area in the planned ground class layer after segmentation according to village planning technical standards, and updating relevant fields in an attribute table of the planned ground class layer.

Preferably, the village planning database generation module is specifically configured to:

the Arcmap desktop component is adopted to fuse the base-period ground-class map spot map layers, and a planning range map layer is generated;

packaging and combining the village delegation map layer, the base-period map spot map layer, the village base-period public service facility and the infrastructure labeling map layer which are obtained by the standardization processing of the planning range map layer and the village delegation map layer, and the base-period public service facility and the infrastructure map layer, so as to generate a basic element set of a village planning database;

performing spot conversion by adopting an Arcmap desktop component based on the planned ground class layer, the village base public service facility and the infrastructure annotation layer which are obtained after standardized processing, and generating the planned public service facility and the infrastructure annotation layer;

performing data processing on the planned ground class layer according to village planning technical standards to generate a village range line drawing layer;

and packaging and combining the planning ground class layer, the planning public service facility and infrastructure labeling layer, the village range line drawing layer and the planar key item layer, the linear key item layer and/or the dot key item layer which are obtained by the standardization processing of the village key item layer, so as to generate a planning element set of a village planning database.

Preferably, the plan table file generating module is specifically configured to:

adjusting the village and country soil space function structure based on the base-period ground-based pattern layer and the planned ground-based pattern layer to generate a village and country soil space function structure adjustment table, wherein the base-period annual area in the village and country soil space function structure adjustment table is counted based on the base-period ground-based pattern layer, and the planned annual area in the village and country soil space function structure adjustment table is counted based on the planned ground-based pattern layer;

generating a village key item list table based on the planar key item layer, the linear key item layer and/or the dot key item layer which are obtained by the standardized processing of the village key item layer;

and packaging the village national and local space function structure adjustment table and the village key item list table in a folder form to form the planning table file.

Preferably, the plan view generation module is specifically configured to:

performing layer processing on the base-period land-based map spot layer by adopting an Arcmap desktop component according to village planning technical standards to generate a village current state homeland space land layout;

performing layer processing on the planning land-based layer and the base-period land-based pattern spot layer by adopting an Arcmap desktop component according to village planning technical standards to generate a village planning land-based space layout;

And packing the current country space land use layout of the village and the planning country space use layout of the village in a folder form to form the planning map.

A third object of the present application is to provide an electronic device.

The third object of the present application is achieved by the following technical solutions:

an electronic device, comprising:

a memory, a processor and a computer program stored in the memory and executable on the processor, the processor implementing the steps of the village planning result automatic generation method according to any one of the first objects of the application when the computer program is executed.

A fourth object of the present application is to provide a computer-readable storage medium.

The fourth object of the present application is achieved by the following technical solutions:

a computer-readable storage medium storing a computer program which, when executed by a processor, implements the steps of the village planning result automatic generation method as set forth in any one of the first objects of the present application.

In summary, the application discloses a village planning result automatic generation method, a system, a device and a storage medium, when village planning is needed, village planning basic data of villages to be planned are firstly standardized, wherein the village planning basic data comprise a village planning adjustment requirement layer, a village key project layer, a village commission resident map layer and village basic period public service facilities and infrastructure layers; then, performing basic period data conversion on the current local similar pattern map layer in the village domain range of the village to be planned to generate a basic period local similar pattern map layer; then, a planning ground-class layer is obtained based on the base ground-class spot layer and the standardized village planning adjustment demand layer; then, a village planning database is manufactured according to village planning technical standards based on the planning ground-class layer, the base-class spot layer, the standardized village commission resident map layer, the standardized village key project layer and the standardized village base public service facilities and infrastructure layer; generating a planning table file based on the base-period ground-class map spot layer, the planning ground-class map layer and the standardized village important item map layer, wherein the planning table file comprises a village national space function structure adjustment table and a village important item list table; generating a planning map based on the planning ground map layer and the base ground map spot map layer, wherein the planning map comprises a village current state homeland space land layout map and a village planning homeland space land layout map; and finally, according to village planning technology standards, automatically classifying and grading the planning database, the planning table file and the planning drawing according to a preset data file organization structure to form a village planning result package.

According to the application, automatic compiling of a village planning database, automatic making of planning drawings and planning tables are realized through data standardization processing, and all planning result files are automatically packaged to form a village planning result package, so that village planning and compiling processes are optimized, manual operation links, data conversion and statistical errors are reduced, the working efficiency and the yield fine rate are greatly improved, the labor cost is saved, and batch compiling of the village planning database and village planning result package is realized.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present application, and other drawings may be obtained according to the drawings without inventive effort to those skilled in the art.

Fig. 1 is a schematic flow chart of a village planning result automatic generation method according to an embodiment of the application;

fig. 2 is a schematic structural diagram of an automatic village planning result generation system according to an embodiment of the present application;

FIG. 3 is an organizational chart of data files of a village planning result package specified by village planning technical standards in an embodiment of the application;

fig. 4 is a schematic structural diagram of an electronic device according to an embodiment of the present application.

Detailed Description

In order to enable those skilled in the art to better understand the technical solutions of the present application, the technical solutions of the embodiments of the present application will be clearly and completely described below, and it is obvious that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

In the embodiments provided in the present application, it should be understood that the disclosed method and system may be implemented in other manners. The system embodiments described below are merely illustrative, and for example, the division of units and modules is merely a logical function division, and other divisions may be implemented in practice such as: multiple units or modules may be combined or may be integrated into another system, or some features may be omitted, or not performed. In addition, the various components shown or discussed may be coupled or directly coupled or communicatively coupled to each other via some interface, whether indirectly coupled or communicatively coupled to devices or modules, whether electrically, mechanically, or otherwise.

In addition, each functional unit in each embodiment of the present application may be integrated in one processor, or each unit may be separately used as one device, or two or more units may be integrated in one device; the functional units in the embodiments of the present application may be implemented in hardware, or may be implemented in a form of hardware plus a software functional unit.

Those of ordinary skill in the art will appreciate that: all or part of the steps of implementing the method embodiments described below may be performed by program instructions and associated hardware, and the foregoing program instructions may be stored in a computer readable storage medium, which when executed, perform steps comprising the method embodiments described below; and the aforementioned storage medium includes: a mobile storage device, a Read Only Memory (ROM), a magnetic disk or an optical disk, or the like, which can store program codes.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present application, the meaning of "a plurality" or "a number" means two or more, unless specifically defined otherwise.

As shown in fig. 1, an embodiment of the present application provides a village planning result automatic generation method, which may include the following steps:

s1, carrying out standardized processing on village planning basic data of a village to be planned, wherein the village planning basic data comprises a village planning adjustment requirement layer, a village key project layer, a village commission map layer, a village basic period public service facility and an infrastructure layer;

village planning is a detailed plan outside town development boundaries in a national and local space planning system, and is a process of finally obtaining village planning achievement packages by carrying out data processing, analysis and conversion on village planning basic data of villages to be planned according to village planning establishment and adjustment processes which are operated at present according to village planning technical standards (for example, chongqing city village planning database construction guidelines) planned by government related departments.

When village to be planned is needed, village planning basic data such as a village planning adjustment requirement layer, a village important project layer, a village commission resident map layer, a village base period public service facility and an infrastructure layer and the like of the village to be planned are firstly required to be subjected to standardized processing.

Specifically, the prior art of data maturation in the village planning basic data acquisition process may be obtained, for example, by collecting related data, field investigation, field collection, etc. from a county planning and natural resource bureau, a county-level related department, a village or street government where the village is located, and a village commission, which will not be described herein.

Specifically, in one embodiment, the village planning basis data normalization process specifically includes the steps of:

s11, standardization processing village planning adjustment requirement layer: forming a planning adjustment layer based on the village planning adjustment requirement layer according to village planning technical standards, and updating relevant fields of each adjustment range in an attribute table of the planning adjustment layer;

specifically, in the present embodiment, the attribute table of the planning adjustment layer is shown in the following table (in which the first row represents a field name and the second row represents a field code corresponding to the field name):

identification code

Element code

Adjusting place class names

Adjusting type codes

Land category

Project name

BSM

YSDM

TZDLMC

TZLXDM

YDLB

XMMC

Adjustment range 1

Adjustment range 2

Adjustment range 3

Adjustment range 4

The specific implementation procedure of step S11 is as follows:

firstly, forming a planning adjustment layer GHT based on a village planning adjustment demand layer according to village planning technical standards; and then filling the contents corresponding to the adjustment type name TZDLMC, the adjustment type code TZLXDM and the land type YDLB field of each adjustment range in an attribute table of the programming adjustment layer GHTZ, and automatically generating the contents corresponding to the identification code BSM and the element code YSDM field according to the filled contents.

S12, standardization processing is carried out on the layer of the key project: forming a planar key item layer, a linear key item layer and/or a dot key item layer based on the village key item layer according to village planning technical standards, and updating relevant fields of each key item in the attribute table of the planar key item layer, the linear key item layer and/or the dot key item layer;

specifically, in the present embodiment, the attribute table of the (planar/present/dot) accent item layer is as follows:

the specific implementation procedure of step S12 is as follows:

firstly, forming a planar key item layer, a linear key item layer and/or a dot key item layer based on a village key item layer according to village planning technical standards; then, the content corresponding to the project name XMC and the project type name XMLXMLXMC fields of each key project is filled in the attribute tables of the planar key project layer, the linear key project layer and the dot key project layer, and the content corresponding to the identification code BSM, the element code YSDM, the administrative area name XZQMC, the administrative area code XZQDM and the land utilization area YDMJ fields are automatically generated according to the filled content.

S13, standardized processing of village-period public service facilities and infrastructure layers: forming a base public service facility and infrastructure marking layer according to village planning technical standards based on the field investigation data and the base public service facility and infrastructure layer, and updating relevant fields of each facility in an attribute table of the base public service facility and infrastructure marking layer;

Specifically, in this embodiment, the attribute tables of the infrastructure and infrastructure annotation layers are shown in the following table:

the specific implementation procedure of step S13 is as follows:

firstly, forming a base public service facility and infrastructure annotation layer based on field investigation data and the base public service facility and infrastructure layer according to village planning technical standards; then, the attribute table of the infrastructure labeling layer is filled with the contents corresponding to the public service facility and infrastructure name GFJCSSMC and the building area JZMJ field of each facility, and the contents corresponding to the identification code BSM, the element code YSDM, the administrative area name XZQMC, the administrative area code XZQDM and the land area YDMJ field are automatically generated according to the filled contents.

S14, map layer resident by the standardization processing village commission: and forming a village consignment map layer according to village planning technical standards based on the field investigation data and the village consignment map layer, and updating relevant fields of the village consignment places in an attribute table of the village consignment map layer.

Specifically, in this embodiment, the attribute table of the village delegate map layer is shown in the following table:

identification code

Element code

Administrative district code

Area of

Description of the invention

Remarks

BSM

YSDM

XZQDM

MJ

MS

BZ

Premises 1

The specific implementation procedure of step S14 is as follows:

firstly, forming a village consignment map layer based on field investigation data and the village consignment map layer according to village planning technical standards; then, filling the content corresponding to the MJ field of the area of the village principal residence in the attribute table of the village principal residence map layer, and then automatically generating the content corresponding to the BSM field, the YSDM field, the XZQMC field and the XZQDM field according to the filled content.

S2, performing basal period data conversion on the current local similar-spot image layer in the village domain range of the village to be planned to generate a basal period local similar-spot image layer;

after the village planning basic data is standardized, the current land pattern spot pattern layer in the village domain of the village to be planned is required to be subjected to planning-base period standardized automatic conversion, and the base period land pattern spot pattern layer is generated after conversion.

Specifically, in one embodiment, the planning-base standardized automatic conversion process specifically includes the steps of:

s21, updating the current local class spot map layer based on the annual homeland change survey data;

in step S21, the content corresponding to the town village attribute code CZCSXM field in the current situation map-like layer is updated, and the execution process is as follows:

The map layer CZTCDYD of the urban village and the like in the annual country change survey data is used for carrying out area division on the current land pattern layer, and the attribute value of the land type CZCLX field of the urban village and the like in the map layer CZTCDYD of the urban village and the like is given to the urban village attribute code CZTXM field in the current land pattern layer; and recalculate the contents corresponding to the field of the map spot area TBMJ, the deducted map spot area KCMJ and the map spot area TBDLMJ in the map spot layer of the current place, and update the contents corresponding to the field of the identification code BSM and the map spot number TBBH.

S22, newly adding relevant fields in the attribute table of the updated current land class spot map layer according to village planning technical standards to generate a base land class spot map layer;

the specific implementation procedure of step S22 is as follows:

on the basis of the current land-like spot layer updated in the step S21, fields of administrative district codes XZQDM, administrative district names XZQMC, base land-like codes JQDLDM, base land-like names JQDLMC, remarks BZ, town remarks CZBZ and land-like types YDLB are newly added in the attribute table, so that the base land-like spot layer is obtained.

Specifically, the attribute table of the base-period ground-class plaque layer obtained in step S22 is shown in the following table:

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S23, updating an attribute table of the base-period land-based spot map layer according to village planning technical standards, wherein the specific updating process is as follows:

the administrative district code XZQDM takes the first 12 bits of the seat unit code ZLDWDM (the first 12 bits are social codes), the administrative district name XZQMC is equal to the seat unit name ZLDWMC, the base floor class name JQDLMC is automatically converted from the floor class name DLMC according to the standard, the base floor class code JQDLDM is automatically generated according to the current situation floor class (DLMC) -base floor class (base floor class name jqdlmc+base floor class code jqdlmm) corresponding to the table 1, the map spots with the town remarks CZBZ of "203" are selected, and the land class YDLB is assigned according to the village planning technical standard (refer to the land class assignment table shown in table 2).

TABLE 1 present Condition land class (DLMC) -base land class (base land class name JQDLMC+base land class code JQDLM) correspondence table

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Table 2 land category field assignment table

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S3, adjusting a demand layer based on the base-period ground-class map spot layer and the standardized village planning, so as to obtain a planning ground-class layer;

converting the current land pattern layer in the village domain of village to be planned to obtain a land pattern layer, further regulating the demand pattern layer according to the land pattern layer and the village planning after standardized treatment to obtain a planned land pattern layer,

Specifically, in one embodiment, the generation process of the planning ground-like layer specifically includes the following steps:

s31, deleting relevant fields from an attribute table of the base-period land-based map spot map layer according to village planning technical standards to generate a planned land-based map layer;

s32, performing spot segmentation operation on a planning land class layer by using a planning adjustment layer obtained after standardization processing of the village planning adjustment requirement layer according to village planning technical standards, wherein the specific implementation process is as follows:

and selecting a map spot in the planning ground type map layer by adopting a control which is intersected with a source map layer element in the Arcmap desktop component according to a position relationship, then dividing the intersected map spot by using the planning adjustment map layer, executing map spot splitting operation by adopting a split multi-component tool in the Arcmap desktop component after dividing, selecting the map spot in the planning ground type map layer which is completely overlapped with the planning adjustment map layer according to a space position in the intersected map spot, assigning the adjustment ground type name TZDLMC, the adjustment type code TZLXDM, the item name XMC and the field content of the land type YDLB in an attribute table of the planning adjustment map layer to the selected map spot, and assigning the adjustment type code TZLXDM of the map spot with the attribute of ' non-item occupation ' in the intersected map spot but the segmented map spot to ' 30.

S33, recalculating each area in the planned ground-based layer after segmentation according to village planning technical standards, and updating the correlation in the attribute table of the planned ground-based layer, wherein the specific process is as follows:

and recalculating the patch area TBMJ, the deducted ground area KCMJ and the patch ground area TBDLMJ in the attribute table of the planning ground-class layer, and updating fields such as an identification code BSM, an element code YSDM and a patch number TBBH, so as to obtain the final planning ground-class layer.

Specifically, the field update for the planning floor class layer in the village planning technical standard requires the following table:

s4, a village planning database is manufactured according to village planning technical standards based on a planning ground-class layer, a base-class spot layer, a standardized village commission resident map layer, a standardized village key project layer and a standardized village base public service facility and infrastructure layer;

after the planning ground map layer is obtained, a village planning database is further automatically manufactured and generated according to village planning technical standards, specifically, initial data for manufacturing the village planning database mainly comprises the planning ground map layer, a base ground map spot map layer, a standardized village commission resident map layer, a standardized village key project map layer and a standardized village base public service facility and infrastructure map layer, and the manufactured village planning database comprises a basic element set and a planning element set.

Specifically, in one embodiment, the automatic generation of the village planning database according to the village planning technical standard specifically includes the following steps:

s41, fusing the base-period ground-class spot layers by adopting an Arcmap desktop component to generate a planning range layer, wherein the specific implementation process is as follows:

and (3) using a fusion tool in the Arcmap desktop component, fusing the base-area class map layers according to administrative area names XZQMC and administrative area codes XZQDM, counting according to map area TBMJ, converting the fused map layers into a planning range map layer, and updating the attributes of the identification code BSM, the element code YSDM and the calculation area JSMJ field.

S42, packaging and combining a village delegation map layer, a foundation land spot map layer, a village foundation public service facility and an infrastructure labeling map layer, wherein the village delegation map layer, the foundation land spot map layer, the village foundation public service facility and the infrastructure labeling map layer are obtained through standardization processing, and generating a foundation element set of a village planning database;

s43, performing spot conversion by adopting an Arcmap desktop component based on a planning land class layer and a base public service facility and infrastructure annotation layer obtained by standardization processing of the base public service facility and infrastructure layer, and generating a planning public service facility and infrastructure annotation layer, wherein the specific implementation process is as follows:

And selecting newly added map spots for public management and public service in the planning ground class layer, converting the selected map spots into points by using an element turning point tool in the Arcmap desktop component, adding the points to the basic period public service facility and basic setting annotation layer to form the planning public service facility and basic facility annotation layer, and updating the relevant field content of the attribute table of the planning public service facility and basic facility annotation layer.

S44, carrying out data processing on the planned ground class layer according to village planning technical standards to generate a village range line drawing layer, wherein the specific implementation process is as follows:

and generating a village range line drawing layer for the pattern spots of the concentrated residents based on the project names in the planning places type layer according to village planning technical standards, and updating field contents of the village range line drawing layer.

S45, packaging and combining a planning land class layer, a planning public service facility and infrastructure labeling layer, a village range line drawing layer and a planar key item layer, a linear key item layer and/or a dot key item layer which are obtained by standardized processing of the village key item layer, so as to generate a planning element set of a village planning database.

S5, generating a planning table file based on the base-stage ground-class map spot layer, the planning ground-class map layer and the standardized village important item map layer, wherein the planning table file comprises a village national and local space function structure adjustment table and a village important item list table;

After the village planning database is obtained, a planning table file comprising a planning table file, including a village territory space function structure adjustment table and a village important item list table, is further automatically produced and generated according to the base-stage land pattern layer, the planning land pattern layer and the standardized village important item layer.

Specifically, in one embodiment, the generation process of the planning table file includes the following steps:

s51, adjusting the village and country soil space function structure based on the base-period land pattern layer and the planning land pattern layer to generate a village and country soil space function structure adjustment table, wherein the base-period annual area in the village and country soil space function structure adjustment table is counted based on the base-period land pattern layer, and the planning annual area in the village and country soil space function structure adjustment table is counted based on the planning land pattern layer;

s52, generating a village key item list table based on the planar key item layer, the linear key item layer and/or the dot key item layer which are obtained by the standardized processing of the village key item layer;

s53, packing the village national soil space function structure adjustment table and the village key item list table in a folder form to form a planning table file.

S6, generating a planning map based on the planning ground map layer and the base ground map spot map layer, wherein the planning map comprises a village current state land space land layout map and a village planning land space land layout map;

After the planning table file is obtained, a planning map piece comprising a village current state and country space land layout and a village planning country space land layout is further automatically manufactured and generated according to the planning land map layer and the base land map spot map layer.

Specifically, in one embodiment, the generation process of the planning map includes the steps of:

s61, carrying out layer processing on the base-period land-like pattern layer by adopting an Arcmap desktop component according to village planning technical standards to generate a village current state homeland space land layout, wherein the specific implementation process is as follows:

firstly, fusing a base-period land-based map spot layer according to administrative area names XZQMC and administrative area codes XZQDM by adopting a fusion tool in an Arcmap desktop component to form a social boundary layer; then, establishing a thematic map according to a base-period ground-class name JQDLMC (carrying out color matching and symbolizing treatment according to village planning technical standards) on a village boundary survey area boundary line CJDCQJX, establishing a thematic map according to a boundary line type JXLX (carrying out symbolizing treatment according to village planning technical standards), symbolizing and displaying a social boundary, marking and displaying a administrative area name XZQMC, inserting a compass and a legend, and finishing a map to form a village current state and homeland space land layout; and finally, the map-deriving function in the Arcmap desktop component is utilized to derive the current country soil space land map of the village into a JPEG format to form a current country soil space land map component of the village.

S62, carrying out layer processing on a planned land-like layer and a basic land-like pattern layer by adopting an Arcmap desktop component according to village planning technical standards to generate a land layout diagram for a village planned homeland space, wherein the specific implementation process is as follows:

establishing a thematic map according to a planning land class name GHTLMC (color matching and symbolizing treatment according to village planning technical standards) by a base land class map layer, establishing a thematic map according to a base land class name (symbolizing treatment according to technical standards), establishing a thematic map according to a JXLX (village territory investigation region boundary) by a CJDCQJX (symbolizing treatment according to village planning technical standards), symbolizing and displaying a social boundary, marking and displaying a administrative region name XZQMC, loading a permanent basic farmland YJJBNT map layer, inserting a compass and a legend, and carrying out map finishing to form a village planning domestic space land layout; and finally, the map function is derived by using the Arcmap desktop component, and the village planning land space land layout is derived into a JPEG format to form a village planning land space land layout drawing.

S63, packing the current country space land use layout of the village and the planning country space use layout of the village in a folder form to form a planning map.

And S7, automatically classifying and grading the planning database, the planning table file and the planning drawing according to a preset data file organization structure according to village planning technology standard to form a village planning result package.

And finally, further manufacturing a village planning result package, namely automatically classifying and grading the planning database, the planning table file and the planning map according to a preset data file organization structure according to a village planning technology standard, so as to automatically generate the village planning result package.

Specifically, the data file organization structure in this embodiment is shown in fig. 3.

It should be noted that, the operations executed by the steps in the automatic village planning result generation method in the embodiment of the present application may be implemented by programming in the existing ArcMap desktop component using the python programming language based on the frontal village planning procedure and the adjustment procedure specified by the village planning technical standard.

In summary, in the above embodiment, through the data standardization process, automatic compiling of the village planning database, automatic making of the planning map and the planning table are realized, and all planning result files are automatically packaged to form the village planning result package, so that the village planning and compiling flow is optimized, the manual operation links, data conversion and statistical errors are reduced, the working efficiency and the yield fine rate are greatly improved, the manpower cost is saved, and batch compiling of the village planning database and the village planning result package is realized.

As shown in fig. 2, an embodiment of the present application provides an automatic village planning result generation system, which may include:

the data standardization processing module 201 is configured to perform standardization processing on village planning basic data of a village to be planned, where the village planning basic data includes a village planning adjustment requirement layer, a village key project layer, a village commission map layer, and a village basic period public service facility and infrastructure layer;

the base-period base-class plaque layer generation module 202 is configured to perform base-period data conversion on a current base-class plaque layer within a village domain of a village to be planned, and generate a base-period base-class plaque layer;

the planning ground-class layer generation module 203 is configured to obtain a planning ground-class layer based on the base-phase ground-class spot layer and the standardized village planning adjustment requirement layer;

the village planning database generation module 204 is configured to make a village planning database according to village planning technical standards based on a planning ground-class layer, a base-class spot layer, a standardized village commission resident map layer, a standardized village key project layer and a standardized village base public service facility and infrastructure layer;

The planning table file generating module 205 is configured to generate a planning table file based on the base-area-class map spot layer, the planning-area-class map layer and the standardized village important item map layer, where the planning table file includes a village territory space function structure adjustment table and a village important item list table;

a planning map generating module 206, configured to generate a planning map based on the planning floor class map layer and the base floor class map spot map layer, where the planning map includes a current country space land layout map of the village and a planning country space land layout map of the village;

the village planning result package generating module 207 is configured to automatically classify and rank the planning database, the planning table file and the planning map according to a preset data file organization structure according to a village planning technology standard, so as to form a village planning result package.

In one embodiment, the data normalization processing module 201 is specifically configured to:

standardization processing village planning adjustment requirement layer: forming a planning adjustment layer based on the village planning adjustment requirement layer according to village planning technical standards, and updating relevant fields of each adjustment range in an attribute table of the planning adjustment layer;

standardized processing of a village key project layer: forming a planar key item layer, a linear key item layer and/or a dot key item layer based on the village key item layer according to village planning technical standards, and updating relevant fields of each key item in the attribute table of the planar key item layer, the linear key item layer and/or the dot key item layer;

Standardized processing village-base public service facilities and infrastructure layers: forming a base public service facility and infrastructure marking layer according to village planning technical standards based on the field investigation data and the base public service facility and infrastructure layer, and updating relevant fields of each facility in an attribute table of the base public service facility and infrastructure marking layer;

standardization processing village commission resident map layer: and forming a village consignment map layer according to village planning technical standards based on the field investigation data and the village consignment map layer, and updating relevant fields of the village consignment places in an attribute table of the village consignment map layer.

In one embodiment, the base-floor class plaque layer generation module 202 is specifically configured to:

updating the current local pattern spot layer based on the annual homeland change survey data;

adding relevant fields in the attribute table of the updated current local class spot map layer according to village planning technical standards to generate a basic phase local class spot map layer;

and updating the attribute table of the base-period ground-class plaque layer according to village planning technical standards.

In one embodiment, the planform layer generation module 203 is specifically configured to:

deleting relevant fields from the attribute table of the base-period land-based map spot map layer according to village planning technical standards to generate a planned land-based map layer;

The map spot segmentation operation is carried out on the planning land map layer by adopting a village planning adjustment requirement map layer according to village planning technical standards and the planning adjustment map layer obtained after standardization processing;

and recalculating each area in the segmented planning floor according to village planning technical standards, and updating relevant fields in an attribute table of the planning floor.

In one embodiment, the village planning database generation module 204 is specifically configured to:

adopting an Arcmap desktop component to fuse the base-period ground-class map spot map layers to generate a planning range map layer;

packaging and combining a village delegation map layer, a base-period map spot map layer, a village base-period public service facility and an infrastructure labeling map layer which are obtained by standardization processing of a planning range map layer and a village delegation map layer, and a base-period public service facility and infrastructure labeling map layer which are obtained by standardization processing of a village base-period public service facility and infrastructure map layer, so as to generate a basic element set of a village planning database;

performing spot conversion on a base public service facility and an infrastructure annotation layer obtained by adopting an Arcmap desktop component based on a planned ground class layer and a village base public service facility and infrastructure layer through standardized processing, and generating a planned public service facility and infrastructure annotation layer;

Performing data processing on the planned ground class layer according to village planning technical standards to generate a village range line drawing layer;

and packaging and combining the planning ground class layer, the planning public service facility and infrastructure marking layer, the village range line drawing layer and the planar key item layer, the linear key item layer and/or the dot key item layer which are obtained by the standardized processing of the village key item layer, so as to generate a planning element set of the village planning database.

In one embodiment, the planning table file generation module 205 is specifically configured to:

adjusting the village and country soil space function structure based on the base-period land pattern layer and the planning land pattern layer to generate a village and country soil space function structure adjustment table, wherein the base-period annual area in the village and country soil space function structure adjustment table is counted based on the base-period land pattern layer, and the planning annual area in the village and country soil space function structure adjustment table is counted based on the planning land pattern layer;

generating a village key item list table based on the planar key item layer, the linear key item layer and/or the dot key item layer which are obtained by standardized processing of the village key item layer;

and packing the village national space function structure adjustment table and the village key item list table in a folder form to form a planning table file.

In one embodiment, the plan view generation module 206 is specifically configured to:

performing layer processing on the base-period land-based map spot map layer by adopting an Arcmap desktop assembly according to village planning technical standards to generate a village current state homeland space land layout;

performing layer processing on the planned ground-type layer and the base-period ground-type pattern layer by adopting an Arcmap desktop component according to village planning technical standards to generate a village planning land-country space land layout;

and packing the current country space land use layout of the village and the planning country space use layout of the village in a folder form to form a planning map.

The village planning result automatic generation system in the above embodiment has the same working principle and technical effects as the village planning result automatic generation method in the above embodiment, and will not be described here again.

As shown in fig. 4, an embodiment of the present application provides an electronic device 3, where the electronic device 3 includes a memory 301, a processor 302, and a computer program 303 stored in the memory 301 and executable on the processor 302, and the steps of the village planning result automatic generation method according to the above-mentioned method embodiment of the present application are implemented when the processor 302 executes the computer program 303.

Specifically, the electronic device 3 may be an intelligent device such as an industrial personal computer, a PC, or an intelligent mobile terminal, which includes a memory and a processor, or may be a computer component such as a CPU or a GPU, which includes a memory and a processor.

The embodiment of the application also provides a computer readable storage medium, wherein the computer readable storage medium stores a computer program, and the computer program realizes the steps of the village planning result automatic generation method according to the method embodiment of the application when being executed by a processor.

In the present specification, each embodiment is described in a progressive manner, and each embodiment is mainly described in a different point from other embodiments, and identical and similar parts between the embodiments are all enough to refer to each other. For the device disclosed in the embodiment, since it corresponds to the method disclosed in the embodiment, the description is relatively simple, and the relevant points refer to the description of the method section.

Those of skill would further appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both, and that the various illustrative elements and steps are described above generally in terms of functionality in order to clearly illustrate the interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the solution. 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 application.

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. The software modules may be disposed in Random Access Memory (RAM), memory, read Only Memory (ROM), electrically programmable ROM, electrically erasable programmable ROM, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. An automatic village planning result generation method is characterized by comprising the following steps:

s1, carrying out standardized processing on village planning basic data of a village to be planned, wherein the village planning basic data comprises a village planning adjustment requirement layer, a village key project layer, a village commission map layer and a village basic period public service facility and infrastructure layer;

S2, converting the current land pattern spot pattern layer in the village domain range of the village to be planned into basic period data, and generating a basic period land pattern spot pattern layer;

s3, adjusting a demand layer based on the base-period ground-class map spot layer and the standardized village planning, so as to obtain a planning ground-class layer;

s4, a village planning database is manufactured according to village planning technical standards based on the planning ground-class layer, the base-phase ground-class spot layer, the standardized village commission resident map layer, the standardized village key project layer and the standardized village base public service facility and infrastructure layer;

s5, generating a planning table file based on the base-period ground-class map spot map layer, the planning ground-class map layer and the standardized village important project map layer, wherein the planning table file comprises a village territory space function structure adjustment table and a village important project list table;

s6, generating a planning map piece based on the planning ground-class map layer and the base-period ground-class map spot map layer, wherein the planning map piece comprises a village current state homeland space land layout map and a village planning homeland space land layout map;

and S7, automatically classifying and grading the planning database, the planning table file and the planning drawing according to a preset data file organization structure according to village planning technology standard to form a village planning result package.

2. The village planning result automatic generation method according to claim 1, wherein the S1 comprises:

s11, standardizing the village planning adjustment requirement layer: forming a planning adjustment layer according to village planning technical standards based on the village planning adjustment requirement layer, and updating relevant fields of each adjustment range in an attribute table of the planning adjustment layer;

s12, carrying out standardized processing on the village important project layer: forming a planar key item layer, a linear key item layer and/or a dot key item layer according to village planning technical standards based on the village key item layer, and updating relevant fields of each key item in an attribute table of the planar key item layer, the linear key item layer and/or the dot key item layer;

s13, standardizing the village-based period public service facility and infrastructure layers: forming a base public service facility and infrastructure marking layer according to village planning technical standards based on field investigation data and the base public service facility and infrastructure layer, and updating relevant fields of each facility in an attribute table of the base public service facility and infrastructure marking layer;

S14, carrying out standardized processing on the map layer of the village commission: and forming a village delegation map layer according to village planning technical standards based on the field investigation data and the village delegation map layer, and updating relevant fields of the village delegation premises in an attribute table of the village delegation map layer.

3. The village planning result automatic generation method according to claim 1, wherein the S2 comprises:

s21, updating the current situation map spot map layer based on the annual land change survey data;

s22, newly adding relevant fields in the updated attribute table of the current spot-like layer according to village planning technical standards to generate a base spot-like layer;

and S23, updating the attribute table of the base-period ground-class plaque layer according to village planning technical standards.

4. The village planning result automatic generation method according to claim 2, wherein the S3 comprises:

s31, deleting relevant fields from the attribute table of the base-period ground-class spot layer according to village planning technical standards to generate the planning ground-class layer;

s32, performing spot segmentation on the planned ground type layer by adopting a village planning adjustment requirement layer to perform standardization processing according to village planning technical standards to obtain a planning adjustment layer;

S33, recalculating each area in the planned ground-based layer after segmentation according to village planning technical standards, and updating relevant fields in an attribute table of the planned ground-based layer.

5. The village planning result automatic generation method according to claim 2, wherein the S4 comprises:

s41, fusing the base-period ground-class spot layers by adopting an Arcmap desktop component to generate a planning range layer;

s42, packaging and combining the map layer of the village commission residence, the map layer of the foundation base map spots, the public service facilities of the village foundation period and the marking map layer of the infrastructure, which are obtained by standardized processing of the map layer of the planning range and the map layer of the village commission residence, so as to generate a basic element set of a village planning database;

s43, performing spot conversion by adopting an Arcmap desktop component based on the planned ground class layer and the basic public service facility and infrastructure annotation layer obtained by standardized processing of the village basic public service facility and infrastructure layer, and generating a planned public service facility and infrastructure annotation layer;

s44, carrying out data processing on the planned ground class layer according to village planning technical standards to generate a village range line drawing layer;

S45, packaging and combining the planning ground class layer, the planning public service facility and infrastructure labeling layer, the village range line drawing layer and the planar key item layer, the linear key item layer and/or the dot key item layer which are obtained by the standardization processing of the village key item layer, and generating a planning element set of a village planning database.

6. The village planning result automatic generation method according to claim 2, wherein the S5 comprises:

s51, adjusting a village country soil space function structure based on the base-period ground-based pattern layer and a planned ground-based pattern layer, and generating a village country soil space function structure adjustment table, wherein the base-period annual area in the village country soil space function structure adjustment table is counted based on the base-period ground-based pattern layer, and the planned annual area in the village country soil space function structure adjustment table is counted based on the planned ground-based pattern layer;

s52, generating a village key item list table based on the planar key item layer, the linear key item layer and/or the dot key item layer which are obtained by the standardized processing of the village key item layer;

and S53, packaging the village national and local space function structure adjustment table and the village key item list table in a folder form to form the planning table file.

7. The village planning result automatic generation method according to claim 1, wherein the S6 comprises:

s61, carrying out layer processing on the base-period land-like pattern layer by adopting an Arcmap desktop component according to village planning technical standards to generate a village current state homeland space land layout;

s62, carrying out layer processing on the planning land-like layer and the base-period land-like pattern layer by adopting an Arcmap desktop component according to village planning technical standards to generate a village planning land-used space layout;

and S63, packing the current country space land use layout of the village and the planning country space use layout of the village in a folder form to form the planning map.

8. An automatic village planning result generation system, comprising:

the village planning basic data comprises a village planning adjustment requirement layer, a village key project layer, a village commission resident map layer and a village basic period public service facility and infrastructure layer;

the base-period ground-class spot map layer generation module is used for performing base-period data conversion on the current-situation ground-class spot map layer in the village domain range of the village to be planned to generate a base-period ground-class spot map layer;

The planning ground-class layer generation module is used for obtaining a planning ground-class layer based on the base-period ground-class spot layer and the standardized village planning adjustment requirement layer;

the village planning database generation module is used for manufacturing a village planning database according to village planning technical standards based on the planning ground type layer, the base ground type spot layer, the standardized village commission resident map layer, the standardized village key project layer and the standardized village base public service facility and infrastructure layer;

the planning table file generation module is used for generating a planning table file based on the base-period ground-class spot layer, the planning ground-class layer and the standardized village important project layer, wherein the planning table file comprises a village territory space function structure adjustment table and a village important project list table;

the planning map generation module is used for generating a planning map based on the planning ground map layer and the base ground map spot map layer, wherein the planning map comprises a village current state land space land layout map and a village planning land space layout map;

and the village planning result package generation module is used for automatically classifying and grading the planning database, the planning table file and the planning drawing according to a preset data file organization structure according to village planning technology standard to form a village planning result package.

9. An electronic device, comprising:

a memory, a processor and a computer program stored in the memory and executable on the processor, the processor implementing the steps of the village planning result automatic generation method as claimed in any one of claims 1 to 7 when the computer program is executed.

10. A computer readable storage medium, characterized in that the computer readable storage medium stores a computer program which, when executed by a processor, implements the steps of the village planning outcome automatic generation method as claimed in any one of claims 1-7.