CN108364348B - Control rule verification method, system and platform for urban design - Google Patents

Abstract

The invention discloses a method, a system and a platform for verifying a control rule of city design, wherein the method comprises the following steps: obtaining a planning control index table and vector data of different land properties according to a preset detailed control plan; establishing a gauge control box according to a planning control index table and vector data of different land properties, wherein the gauge control box and a three-dimensional model corresponding to the project scheme are located at the same position; and comparing the three-dimensional model with the control gauge box to verify whether the project scheme conforms to the detailed control plan. According to the method and the device, the gauge control box is established at the position of the three-dimensional model corresponding to the project scheme to be verified according to the controlled detailed planning, and then the three-dimensional model corresponding to the project scheme is directly compared with the gauge control box, so that whether the project scheme meets the requirements of the controlled detailed planning or not can be verified visually and conveniently without professional calculation, the investment of human resources is reduced, and meanwhile, the three-dimensional model can also visually and stereoscopically embody the effect of the project scheme.

Description

Control rule verification method, system and platform for urban design

Technical Field

The invention relates to the technical field of urban design, in particular to a control and regulation verification method, a control and regulation verification system and a control and regulation verification platform for urban design.

Background

The control plan is specifically a controlled detailed plan, which is a plan used by city and town people government urban and rural planning administrative departments for controlling the property of construction land, the use intensity and the space environment according to the requirements of the overall planning of the city and the town. The city design planning follows the principles of adjustable irregular rule and careful treatment with adjustment, and based on the principle, the establishment of a city design planning scheme and the verification of the feasibility are of great importance. In the prior art, the urban design planning scheme is verified through drawing data and other modes, and measurement and data comparison are needed to be carried out on whether the urban design planning scheme conforms to the detailed control planning.

Therefore, how to provide a solution to the above technical problem is a problem that needs to be solved by those skilled in the art.

Disclosure of Invention

The invention aims to provide a method, a system and a platform for verifying a control gauge of urban design, wherein a control gauge box is established at the position of a three-dimensional model corresponding to a project scheme to be verified according to a detailed control plan, and then the three-dimensional model corresponding to the project scheme is directly compared with the control gauge box, so that whether the project scheme meets the requirements of the detailed control plan can be verified visually and conveniently without professional calculation, the investment of human resources is reduced, and meanwhile, the three-dimensional model can also visually embody the effect of the project scheme in a three-dimensional manner.

In order to solve the technical problem, the invention provides a control rule verification method for urban design, which comprises the following steps:

obtaining a planning control index table and vector data of different land properties according to a preset detailed control plan;

establishing a gauge control box according to the planning control index table and the vector data of the different land properties, wherein the gauge control box is positioned at the same position as the three-dimensional model corresponding to the project scheme;

and comparing the three-dimensional model with the control gauge box to verify whether the project scheme conforms to the controlled detailed plan.

Preferably, the process of establishing the control gauge box according to the planning control index table and the vector data of the different land characteristics specifically includes:

establishing a vector block of the gauge control box in a block pulling and lifting mode according to the height parameters in the planning control index table;

and reading land property parameters from the vector data of the different land properties, and rendering and coloring the vector block of the control and regulation box in a matching color.

Preferably, the process of establishing the vector block of the gauge control box by a block pull-up manner according to the height parameter in the planning control index table specifically includes:

saving the planning control index table to a two-dimensional control plan shp file;

reading the height parameters in the planning control index table through the two-dimensional control gauge shp file;

and establishing a vector block of the gauge control box in a block pulling manner according to the height parameters.

Preferably, the bulk pull is embodied as a software development kit sdk bulk pull.

Preferably, the three-dimensional model corresponding to the project plan is a three-dimensional model generated according to data in a standard wrl format of the project plan.

Preferably, the method further comprises:

when a project plan data viewing instruction is received, data of all project plans which can be viewed currently are displayed in a list form.

Preferably, the method further comprises:

and when receiving a project scheme information viewing instruction, displaying the information of the project scheme in a layered mode.

Preferably, the method further comprises:

and when a ground red line viewing instruction is received, displaying the area and the content of the building in the current project scheme.

In order to solve the above technical problem, the present invention further provides a control rule verification system for urban design, including:

the data acquisition unit is used for obtaining a planning control index table and vector data of different land properties according to a preset detailed control plan;

the standard establishing unit is used for establishing a gauge control box according to the planning control index table and the vector data of the different land properties;

and the verification comparison unit is used for comparing the three-dimensional model corresponding to the project scheme with the control gauge box so as to verify whether the project scheme conforms to the controlled detailed plan.

In order to solve the technical problem, the invention also provides a control gauge verification platform for urban design, which comprises the control gauge verification system for urban design.

The invention provides a control rule verification method for urban design, which comprises the following steps: obtaining a planning control index table and vector data of different land properties according to a preset detailed control plan; establishing a gauge control box according to a planning control index table and vector data of different land properties, wherein the gauge control box and a three-dimensional model corresponding to the project scheme are located at the same position; and comparing the three-dimensional model with the control gauge box to verify whether the project scheme conforms to the detailed control plan.

Compared with the prior art that the urban design planning scheme is verified through measurement and comparison of drawing data, the control gauge box is established at the position of the three-dimensional model corresponding to the project scheme to be verified according to the controlled detailed planning, then the three-dimensional model corresponding to the project scheme is compared with the control gauge box, and if the three-dimensional model is equal to the range of the control gauge box, the project scheme accords with the controlled detailed planning, so that whether the project scheme accords with the requirements of the controlled detailed planning can be verified visually and conveniently without professional calculation, the investment of human resources is reduced, and meanwhile, the three-dimensional model can visually and stereoscopically embody the effects of the project scheme, such as functional organization, spatial relationship and the like.

The invention also provides a system and a platform for verifying the control rule of the urban design, and the system and the platform have the same beneficial effects as the method for verifying the control rule of the urban design.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed in the prior art and the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a process flow diagram of a method for verifying a control rule of an urban design according to the present invention;

fig. 2 is a schematic structural diagram of a control rule verification system for city design provided by the present invention.

Detailed Description

The core of the invention is to provide a method, a system and a platform for verifying a control gauge of urban design, wherein a control gauge box is established at the position of a three-dimensional model corresponding to a project scheme to be verified according to a detailed control plan, and then the three-dimensional model corresponding to the project scheme is directly compared with the control gauge box, so that whether the project scheme meets the requirements of the detailed control plan can be verified visually and conveniently without professional calculation, the investment of human resources is reduced, and meanwhile, the three-dimensional model can also visually embody the effect of the project scheme in a three-dimensional manner.

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, fig. 1 is a process flow chart of a control and regulation verification method for city design provided by the present invention, the method includes:

step S11: obtaining a planning control index table and vector data of different land properties according to a preset detailed control plan;

it should be noted that the pre-established detailed control plan includes the following contents: the boundary lines of different property land areas in the planning range are determined, and the types of buildings which are suitable for construction, unsuitable for construction or conditionally allowed to be constructed in various land areas are determined. Determining control indexes such as building height, building density, volume rate, greenbelt rate and the like of each land; and determining the requirements of public facility matching, the directions of the traffic entrance and exit, parking berths, the distance of the building back red line and the like. And (5) providing city design guiding principles such as building size, body type, color and the like of each land. Determining the positions of the entrance and exit of the land parcel, parking berths, the land scope and station position of the public transportation station, foot traffic and other traffic facilities according to the analysis of traffic demands; red lines, sections and intersection forms of roads at all levels, canalization measures, control point coordinates and elevations are specified. According to the planned construction capacity, determining the positions and the pipe diameters of municipal engineering pipelines and the land boundary lines of engineering facilities, and carrying out pipeline synthesis; and determining the specific requirements for developing and utilizing the underground space. And making corresponding land use and building management regulations.

Step S12: establishing a gauge control box according to a planning control index table and vector data of different land properties, wherein the gauge control box and a three-dimensional model corresponding to the project scheme are located at the same position;

specifically, the filling plan control index table is formulated and formulated according to the content of the detailed control plan formulated in advance, and vector data of different land properties are combed. And then establishing a gauge control box at the same position of the three-dimensional model corresponding to the project scheme to be verified according to the planning control index table and the vector data of different land properties. The gauge control box is a standard model which is established according to the detailed controllability plan and used for comparing with the three-dimensional model of the project scheme to be verified.

Step S13: and comparing the three-dimensional model with the control gauge box to verify whether the project scheme conforms to the detailed control plan.

Specifically, the detailed control planning mainly defines the main contents of land use control and environmental capacity control, building construction control and city design guidance, municipal engineering facilities and public service facilities matching, and traffic activity control and environmental protection for the land parcel, and qualitatively, quantitatively, and positionally and delimitably controls and guides each control element by applying the modes of index quantification, regulation of regulations, drawing rule calibration and the like for different land parcels, different construction projects and different development processes. Based on this, after the control rule box is established according to the controlled detailed plan, the three-dimensional model of the project scheme to be verified needs to be compared with the control rule box to verify whether the project scheme conforms to the controlled detailed plan.

Because the gauge control box and the three-dimensional model corresponding to the project scheme to be verified are located at the same position, the three-dimensional model corresponding to the project scheme to be verified and the gauge control box can be directly compared in an all-around mode, for example, the height is compared, so that measuring tools, drawing data or professional calculation are not needed, whether the project scheme meets the detailed control planning or not can be judged visually and clearly only through observation, and the investment of human resources is reduced. Meanwhile, whether the project scheme meets the requirements of the detailed control planning or not can be seen from multiple dimensions, such as functional organization, spatial relationship, structure, contour, streamline and the like.

The invention provides a control rule verification method for urban design, which comprises the following steps: obtaining a planning control index table and vector data of different land properties according to a preset detailed control plan; establishing a gauge control box according to a planning control index table and vector data of different land properties, wherein the gauge control box and a three-dimensional model corresponding to the project scheme are located at the same position; and comparing the three-dimensional model with the control gauge box to verify whether the project scheme conforms to the detailed control plan.

Compared with the prior art that the urban design planning scheme is verified through measurement and comparison of drawing data, the control gauge box is established at the position of the three-dimensional model corresponding to the project scheme to be verified according to the controlled detailed planning, then the three-dimensional model corresponding to the project scheme is directly compared with the control gauge box, and if the three-dimensional model is equal to the range of the control gauge box, the project scheme accords with the controlled detailed planning, so that whether the project scheme accords with the requirements of the controlled detailed planning or not can be verified visually and conveniently without professional calculation, the investment of human resources is reduced, and meanwhile, the three-dimensional model can also visually and stereoscopically embody the effect of the project scheme, such as functional organization, spatial relationship and the like.

On the basis of the above-described embodiment:

as a preferred embodiment, the process of creating the control and regulation box according to the planning control index table and the vector data of different land properties specifically includes:

establishing a vector block of the gauge control box in a block pulling-up mode according to the height parameters in the planning control index table;

and reading the land property parameters from the vector data of different land properties, and rendering and coloring the vector block of the control and regulation box by matching colors.

Specifically, when the control gauge box is established in the application, a vector block of the control gauge box is established at the position of the three-dimensional model of the project scheme to be verified in a block lifting mode according to the height parameters in the planning control index table, then the land property parameters are read from the vector data of different land properties, and the vector block is rendered and colored in a matching color mode, so that the control gauge box is established into a colored transparent box, the color plan designed in city is restored, and the three-dimensional model of the project scheme to be verified can be compared with the control gauge box in a more intuitive and three-dimensional manner.

As a preferred embodiment, the process of creating the vector block of the gauge control box by the block pulling method according to the height parameter in the gauge control table specifically includes:

saving the planning control index table to a two-dimensional control plan shp file;

reading height parameters in a planning control index table through a two-dimensional control gauge shp file;

and establishing a vector block of the gauge control box in a block pulling mode according to the height parameters.

Specifically, when the vector block of the gauge control box is established in a block pull-up manner according to the height parameter in the planning control index table, the planning control index table is firstly stored in a two-dimensional gauge shp (shape) file, and then the gauge control box is realized through correlation between the file in the two-dimensional gauge shp format and the attribute values such as height in the standard table through a block pull-up technology. That is, the shp file loading control and regulation service is accessed by configuring a control and regulation vector data path. The Shape file is used for storing small and medium-sized map data, the position information and the attribute information of the geographic object are stored by using a simple non-topological format, and the Shape file can be specifically created by using an object creation tool of ArcView Gis.

As a preferred embodiment, the bulk pull is embodied as a software development kit sdk bulk pull.

Specifically, the bulk pull in this Application is specifically sdk (Software Development Kit) bulk pull, generally sdk is sdk used by an Application program under the Windows platform, some files that can simply provide an Application Programming Interface (API) for a certain Programming language, and often include example code, supporting technical comments or other supporting documents for clarifying the suspicious points of basic reference data, so that the use is simple and the cost is low.

As a preferred embodiment, the three-dimensional model corresponding to the project plan is a three-dimensional model generated according to data in a standard wrl format of the project plan.

Specifically, modeling software is generally used to produce 3D models, and the data used in this application is data in standard wrl format, considering that data of three-dimensional models is required when generating three-dimensional models corresponding to project plans to be verified. When the three-dimensional model is loaded, the file with the standard wrl format can be loaded locally on the platform, and after the file is processed by a series of data tools, the loading of mass data can be realized on the platform, so that the rendering is smoother, and the memory resource consumption is less.

As a preferred embodiment, the method further comprises:

when a project plan data viewing instruction is received, data of all project plans which can be viewed currently are displayed in a list form.

Specifically, in consideration of the fact that a plurality of project schemes may be performed simultaneously in the process of practical application, and a user has a requirement for viewing project scheme data, according to the method and the device, when a project scheme data viewing instruction is received, namely when the user clicks the project scheme data, all currently viewable project schemes are expanded by default and displayed in a list form, so that the currently viewable data of all project schemes are displayed clearly for viewing.

As a preferred embodiment, the method further comprises:

and when receiving a project scheme information viewing instruction, displaying the information of the project scheme in a layering way.

Specifically, besides displaying the data of all currently viewable project schemes in a list form, when a project scheme information viewing instruction is received, namely a user clicks a scheme list menu, the project scheme information can be displayed in a layered mode, and scheme data display, current flattening, scheme data downloading, land red line loading and the like can be carried out.

As a preferred embodiment, the method further comprises:

and when a ground red line viewing instruction is received, displaying the area and the content of the building in the current project scheme.

Specifically, the land utilization red line is a line formed by connecting some coordinate points enclosing a certain land block, and the land area in the red line is the land utilization range for acquiring the use right and is the boundary line of the use right range of the land for various constructional engineering projects. Therefore, the red-in-land line also needs to be checked when the urban design planning scheme is formulated and the feasibility of the urban design planning scheme is verified, and based on the red-in-land line checking instruction, namely when the user clicks the red-in-land line, the area and the content of the building in the current project scheme can be directly displayed.

Referring to fig. 2, fig. 2 is a schematic structural diagram of a control and regulation verification system for city design provided in the present invention, the system includes:

the data acquisition unit 1 is used for obtaining a planning control index table and vector data of different land properties according to a preset detailed control plan;

the standard establishing unit 2 is used for establishing a control gauge box according to a planning control index table and vector data of different land properties;

and the verification comparison unit 3 is used for comparing the three-dimensional model corresponding to the project scheme with the control gauge box so as to verify whether the project scheme conforms to the detailed control plan.

For the introduction of the system provided by the present invention, please refer to the above method embodiment, and the present invention is not described herein again.

The invention also provides a control rule verification platform for the urban design, which comprises the control rule verification system for the urban design.

For the introduction of the platform provided by the present invention, please refer to the above system embodiment, and the present invention is not described herein again.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. For the system and the platform disclosed by the embodiment, the description is simple because the system and the platform correspond to the method disclosed by the embodiment, and the relevant points can be referred to the method part for description.

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 components and steps have been described above generally in terms of their functionality in order to clearly illustrate this 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 implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. 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 invention. Thus, the present invention 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 (7)

1. A control rule verification method for city design is characterized by comprising the following steps:

obtaining a planning control index table and vector data of different land properties according to a preset detailed control plan;

establishing a gauge control box according to the planning control index table and the vector data of the different land properties, wherein the gauge control box is positioned at the same position as the three-dimensional model corresponding to the project scheme;

comparing the three-dimensional model with the control gauge box to verify whether the project scheme conforms to the controlled detailed plan;

the process of establishing the control gauge box according to the planning control index table and the vector data of the different land properties specifically comprises the following steps:

establishing a vector block of the gauge control box in a block pulling and lifting mode according to the height parameters in the planning control index table;

reading land property parameters from the vector data of the different land properties, and rendering and coloring the vector block of the gauge control box in a matched color mode;

the process of establishing the vector block of the gauge control box in a block pulling and lifting mode according to the height parameters in the planning control index table specifically comprises the following steps:

saving the planning control index table to a two-dimensional control plan shp file;

reading the height parameters in the planning control index table through the two-dimensional control gauge shp file;

establishing a vector block of the gauge control box in a block pulling and lifting mode according to the height parameters;

the block pulling is specifically software development kit sdk block pulling.

2. The city design control rule verification method according to claim 1, wherein the three-dimensional model corresponding to the project plan is a three-dimensional model generated according to data in a standard wrl format of the project plan.

3. The city design control rule verification method according to claim 1 or 2, further comprising:

when a project plan data viewing instruction is received, data of all project plans which can be viewed currently are displayed in a list form.

4. The city design control rule verification method according to claim 3, further comprising:

and when receiving a project scheme information viewing instruction, displaying the information of the project scheme in a layered mode.

5. The city design control rule verification method according to claim 4, further comprising:

and when a ground red line viewing instruction is received, displaying the area and the content of the building in the current project scheme.

6. A control rule verification system for city design is characterized by comprising:

the data acquisition unit is used for obtaining a planning control index table and vector data of different land properties according to a preset detailed control plan;

the standard establishing unit is used for establishing a gauge control box according to the planning control index table and the vector data of the different land properties;

the verification comparison unit is used for comparing the three-dimensional model corresponding to the project scheme with the control gauge box so as to verify whether the project scheme conforms to the controlled detailed plan;

the process of establishing the control gauge box according to the planning control index table and the vector data of the different land properties specifically comprises the following steps:

establishing a vector block of the gauge control box in a block pulling and lifting mode according to the height parameters in the planning control index table;

reading land property parameters from the vector data of the different land properties, and rendering and coloring the vector block of the gauge control box in a matched color mode;

the process of establishing the vector block of the gauge control box in a block pulling and lifting mode according to the height parameters in the planning control index table specifically comprises the following steps:

saving the planning control index table to a two-dimensional control plan shp file;

reading the height parameters in the planning control index table through the two-dimensional control gauge shp file;

establishing a vector block of the gauge control box in a block pulling and lifting mode according to the height parameters;

the block pulling is specifically software development kit sdk block pulling.

7. A control rule verification platform for city design, comprising the control rule verification system for city design of claim 6.

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