CN111382225B - Method and system for storing building planning measurement result data - Google Patents

Abstract

The application discloses a storage method and a system for building planning measurement result data, which are used for acquiring a result total plan based on space coordinates, a result monomer graph based on the space coordinates and a hierarchical layout graph based on the building coordinates; importing the hierarchical layout diagram corresponding to the result monomer diagram in the result monomer diagram; selecting at least 1 point of a building monomer on the result overall plan as a first batch of locating points, and copying the first batch of locating points to the result monomer plan; creating a second batch of locating points at corresponding positions of the first batch of locating points of the hierarchical layout; calculating coordinate conversion parameters between the first batch of locating points and the second batch of locating points; performing coordinate conversion according to the coordinate conversion parameters; and finally, storing the result total plan, the result monomer graph, the hierarchical layout graph and the coordinate conversion parameter file after coordinate conversion. The method can be used as basic data and directly applied to modeling of urban three-dimensional models and indoor three-dimensional models.

Description

Method and system for storing building planning measurement result data

Technical Field

The application relates to the technical field of geographic information, in particular to a method and a system for storing building planning measurement result data.

Background

The results of the building planning completion measurement include not only the completion overall plan, but also individual drawings of each building and floor layered layout drawings corresponding to the individual drawings. Generally, the as built overall plan and the building monomer map adopt a space coordinate system, and the coordinate systems between the two are consistent; and the hierarchical layout adopts a building coordinate system, which is different from a space coordinate system.

Due to the different coordinate systems of the building monomer map and the layered layout map, the two cannot be simply overlapped. To solve the above problems, there are two ways.

One is that the hierarchical layout adopts a space coordinate system. If the layouts of different floors of a single building are identical, the plane coordinates of the layered layout diagrams of the different floors are identical, and if the layouts are different, the plane coordinates of the layered layout diagrams of the different floors are identical. In this case, if the hierarchical layout of each floor is stored in the same data file, the floor is covered and confused, and it is difficult to distinguish the data of each floor. In order to solve the problem, the prior art has the solutions that the layered layout diagrams of different floors are stored in different data files, the floors with the same layout share one data file, and the number of layers with the same layout is noted in the file name. In this way, although the layering layout diagrams of different floors can be prevented from being covered and confused, when the floors are more and the layout is complex and changeable, more data files can be generated, and the later application is not facilitated.

And secondly, the hierarchical layout diagram adopts a building coordinate system, and the building coordinate system and the corresponding building single diagram are stored in the same data file, but no coordinate correlation is established between the building coordinate system and the building single diagram, and if the space coordinates of the hierarchical layout diagram need to be acquired, the building single diagram needs to be manually translated and rotated.

In view of the above-mentioned drawbacks of the prior art, the present invention aims to solve the technical problem of saving a building single map and a hierarchical layout map of each floor thereof in a data file, and simultaneously ensuring that the coordinate correlation between the building single space coordinates and the building coordinates of the hierarchical layout map is realized under the condition of not capping each other.

Disclosure of Invention

The application provides a storage method and a storage system for building planning measurement result data, which solve the problem of how to store a result monomer diagram of a building and a layered layout diagram of each floor of the result monomer diagram in one data file, and simultaneously ensure that the coordinate correlation between the space coordinates of the result monomer of the building and the building coordinates of the layered layout diagram is realized under the condition of not capping each other.

The embodiment of the application provides a storage method of building planning measurement result data, which comprises the following steps: acquiring building planning measurement result data, wherein the measurement result data comprises a result total plan based on space coordinates, a result monomer graph based on the space coordinates and a hierarchical layout graph based on the building coordinates; establishing a coordinate conversion relation, and importing the hierarchical layout diagram corresponding to the result monomer diagram into the result monomer diagram; selecting at least 1 point of a building monomer on the result overall plan as a first batch of locating points, and copying the first batch of locating points to the result monomer plan; creating a second batch of locating points at corresponding positions of the first batch of locating points of the hierarchical layout; calculating coordinate conversion parameters between the first batch of locating points and the second batch of locating points; performing coordinate conversion, and performing coordinate conversion on the layered layout according to the coordinate conversion parameters; and storing the result overall plan, the result monomer graph, the hierarchical layout graph and the coordinate conversion parameter file after coordinate conversion.

Preferably, the storage method adjusts the space coordinates of the result monomer graph based on the first batch of locating points before the second batch of locating points are created at the corresponding positions of the first batch of locating points of the hierarchical layout graph.

Further preferably, the coordinate conversion parameter in the storage method includes at least any one of a translation parameter, a rotation parameter, and a scale parameter.

Further preferably, the storing method selects N points of building monomers on the result overall plan, where N is 3.

Further preferably, the storing method further includes, after storing the result overall plan, the result individual graph, the hierarchical layout graph, and the coordinate conversion parameter file after coordinate conversion, flattening the hierarchical layout graph out of the result individual graph so that the hierarchical layout graph is not covered by each other, and updating the coordinate conversion parameter file according to the translation amount.

The embodiment of the application provides a building planning measurement result data storage system, which comprises a data acquisition module, a data processing module and a data processing module, wherein the data acquisition module is used for acquiring building planning measurement result data, and the measurement result data comprises a result total plan based on space coordinates, a result monomer graph based on the space coordinates and a hierarchical layout graph based on the building coordinates; the data comparison module is used for establishing a coordinate conversion relation, and importing the hierarchical layout diagram corresponding to the result monomer diagram into the result monomer diagram; selecting at least 1 point of a building monomer on the result overall plan as a first batch of locating points, and copying the first batch of locating points to the result monomer plan; creating a second batch of locating points at corresponding positions of the first batch of locating points of the hierarchical layout; calculating coordinate conversion parameters between the first batch of locating points and the second batch of locating points; the coordinate conversion module is used for carrying out coordinate conversion on the layered layout according to the coordinate conversion parameters; and the storage module is used for storing the result total plan, the result monomer graph, the hierarchical layout graph and the coordinate conversion parameter file after coordinate conversion.

Preferably, the data comparison module may further adjust the spatial coordinates of the result monomer graph according to the first batch of anchor points before the second batch of anchor points are created at the corresponding positions of the first batch of anchor points of the hierarchical layout graph.

Further preferably, the coordinate conversion parameter includes at least any one of a translation parameter, a rotation parameter, and a scale parameter.

Further preferably, N points of building element are selected on the summary plot of results, N being 3.

Further preferably, the storage system further comprises,

and the tiling module is used for tiling the layered layout diagram out of the result monomer diagram, so that the layered layout diagram is not covered by each other, and updating the coordinate conversion parameter file according to the translation amount.

The above-mentioned at least one technical scheme that this application embodiment adopted can reach following beneficial effect:

the technical scheme of the invention completely expresses the layers, the layer heights, the outer wall structures and the inner wall structures of all floors, combines the floor heights, can be used as basic data, and is directly applied to modeling of urban three-dimensional models and indoor three-dimensional models.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiments of the application and together with the description serve to explain the application and do not constitute an undue limitation to the application. In the drawings:

FIG. 1 is a schematic diagram A of a method for storing construction planning measurement result data;

FIG. 2 is a schematic diagram of steps of a method for storing construction planning measurement result data;

fig. 3 is a schematic diagram of a storage system for building plan measurement result data.

Detailed Description

For the purposes, technical solutions and advantages of the present application, the technical solutions of the present application will be clearly and completely described below with reference to specific embodiments of the present application and corresponding drawings. It will be apparent that the described embodiments are only some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

The following describes in detail the technical solutions provided by the embodiments of the present application with reference to the accompanying drawings.

Fig. 1 is a schematic diagram a of a method for storing building planning measurement result data, where the method includes the following steps:

step 101: and obtaining building planning measurement result data, wherein the measurement result data comprises a result total plan based on space coordinates, a result monomer graph based on the space coordinates and a hierarchical layout graph based on the building coordinates.

And obtaining the data of the measurement results of the building planning, constructing a building information model, and constructing the building information model can be realized by adopting various software.

Preferably, building information models are built using stereograph software (e.g., a commercial EPS stereograph software system), in templates of which two attribute fields, the "floor" and "conversion parameters" fields, are created for the drawing of the hierarchical layout; a "floor" attribute field is created for an element of the hierarchical layout. The "floor" attribute field holds the profile or which floor the element belongs to and the "conversion parameter" attribute field holds the coordinate conversion parameter of the profile.

Further preferably, the coordinate conversion parameter includes at least any one of a translation parameter, a rotation parameter, and a scale parameter.

Step 102: establishing a coordinate conversion relation, and importing the hierarchical layout diagram corresponding to the result monomer diagram into the result monomer diagram; selecting N points of building monomers on the result overall plan as first batch of positioning points, and copying the first batch of positioning points to the result monomer plan, wherein N is an integer greater than or equal to 1; creating a second batch of locating points at corresponding positions of the first batch of locating points of the hierarchical layout; coordinate conversion parameters between the first set of anchor points and the second set of anchor points are calculated.

And extracting building information of the building information model, and establishing a coordinate conversion relation.

Importing the corresponding layered layout diagram of each floor of the building monomer into the result monomer diagram file, creating the outline of the layered layout diagram of each floor, and recording the attribute of the floor of each outline according to the floor to which each outline belongs;

and selecting N obvious corner points or axis intersection points of the building single body on the result total flat graph as the first batch of positioning points, copying the first batch of positioning points to the result single body graph, selecting the layered layout graph of a certain floor of the result single body graph, referring to the point positions of the first batch of positioning points in the result single body, creating N positioning points at corresponding positions, namely the second batch of positioning points, and copying the second batch of positioning points to the layered layout graph of other floors.

Preferably, the first batch of locating points are copied to the achievement monomer map, the spatial coordinates of the achievement monomer map are adjusted based on the first batch of locating points, so that the coordinates of the achievement monomer map are consistent with the coordinates of the achievement total plan, and then the second batch of locating points are determined.

It is further preferred that 3 distinct corner points or axis intersection points of the building element are selected on the result overall plan as the first set of anchor points.

Coordinate conversion parameters between the first set of anchor points and the second set of anchor points are calculated. And the first group of positioning points and the second group of positioning points in the layered layout of each floor of the result monomer diagram form homonymous points, a spatial association relation, namely a coordinate conversion parameter, is established between a spatial coordinate and the building coordinate of each floor positioning point through automatic matching, and the conversion parameter is stored in the profile conversion parameter attribute of the layered layout of each floor and is used as the basis of the conversion relation between the spatial coordinate of the result monomer diagram and the building coordinate of the layered layout of each floor.

Step 103: and carrying out coordinate conversion, and carrying out coordinate conversion on the layered layout according to the coordinate conversion parameters.

Selecting the figure outline of one layered layout chart, searching the contained elements of the layered layout chart according to a spatial relation, endowing the attribute value of the figure outline with the attribute value of the floor of the figure outline, and converting the figure outline and the coordinates of the contained elements into spatial coordinates through affine transformation according to the conversion parameters of the figure outline. And selecting the next hierarchical layout, and repeating the steps until all coordinates of the hierarchical layout of the result monomer are converted.

Step 104: and storing the result overall plan, the result monomer graph, the hierarchical layout graph and the coordinate conversion parameter file after coordinate conversion.

Preferably, the storing method further comprises:

step 105: and translating the layered layout diagram out of the achievement monomer diagram, enabling the layered layout diagram to be uncovered, and updating the coordinate conversion parameter file according to the translation amount.

Selecting an area at the blank of the result monomer diagram, selecting a certain floor as a storage position of the removed layered layout diagram, selecting the profile and the element of the floor according to the profile of the layered layout diagram and the attribute of the floor of the layered layout diagram element, translating the selected object to the blank, replacing the translation parameters in the profile conversion parameters by the new translation amount generated at the moment, and rotating the profile and the layered layout diagram element according to the rotation parameters in the profile conversion parameters to keep the positive north-south direction. And selecting the next floor, and repeating the steps until all the layered layout diagrams of the building are completely moved out.

Fig. 2 is a schematic diagram B of a method for storing construction planning measurement result data. Wherein the relationship of the summary achievement level graph, the achievement monomer graph and the achievement layering layout graph is displayed.

Fig. 3 is a schematic diagram of a storage system for building plan measurement result data. The storage system includes:

the data acquisition module 201: the method is used for acquiring the building planning measurement result data, wherein the measurement result data comprises a result overall plan based on space coordinates, a result monomer graph based on the space coordinates and a hierarchical layout graph based on the building coordinates.

And obtaining the data of the measurement results of the building planning, constructing a building information model, and constructing the building information model can be realized by adopting various software.

Preferably, building a building information model by using stereograph software, wherein two attribute fields, namely a floor field and a conversion parameter field, are created for the figure outline of the layered layout in a template of the stereograph software; a "floor" attribute field is created for an element of the hierarchical layout. The "floor" attribute field holds the profile or which floor the element belongs to and the "conversion parameter" attribute field holds the coordinate conversion parameter of the profile.

Further preferably, the coordinate conversion parameter includes at least any one of a translation parameter, a rotation parameter, and a scale parameter.

The data comparison module 202: the method comprises the steps of establishing a coordinate conversion relation, and importing the hierarchical layout diagram corresponding to the result monomer diagram into the result monomer diagram; selecting N points of building monomers on the result overall plan as first batch of positioning points, and copying the first batch of positioning points to the result monomer plan, wherein N is an integer greater than or equal to 1; creating a second batch of locating points at corresponding positions of the first batch of locating points of the hierarchical layout; coordinate conversion parameters between the first set of anchor points and the second set of anchor points are calculated.

See step 102.

Coordinate conversion module 203: and the hierarchical layout is used for carrying out coordinate conversion on the hierarchical layout according to the coordinate conversion parameters.

See step 103.

The storage module 204: and the system is used for storing the result overall plan, the result monomer graph, the hierarchical layout graph and the coordinate conversion parameter file after coordinate conversion.

See step 104.

Preferably, the storage system further comprises:

tiling module 205: and the hierarchical layout diagram is horizontally shifted out of the achievement monomer diagram, so that the hierarchical layout diagram is not covered by each other, and the coordinate conversion parameter file is updated according to the translation amount.

See step 105.

It will be appreciated by those skilled in the art that embodiments of the present invention may be provided as a method, system, or computer program product. The present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, etc.) having computer-usable program code embodied therein.

The present invention is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems) and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flowchart illustrations and/or block diagrams, and combinations of flows and/or blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

It should also be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises an element.

The foregoing is merely exemplary of the present application and is not intended to limit the present application. Various modifications and changes may be made to the present application by those skilled in the art. Any modifications, equivalent substitutions, improvements, etc. which are within the spirit and principles of the present application are intended to be included within the scope of the claims of the present application.

Claims (6)

1. The method for storing the data of the measurement result of the building planning is characterized by comprising the following steps:

acquiring building planning measurement result data, wherein the measurement result data comprises a result total plan based on space coordinates, a result monomer graph based on the space coordinates and a hierarchical layout graph based on the building coordinates;

establishing a coordinate conversion relation, and importing the hierarchical layout diagram corresponding to the result monomer diagram into the result monomer diagram; selecting at least 1 point of a building monomer on the result overall plan as a first batch of locating points, and copying the first batch of locating points to the result monomer plan; based on the first batch of positioning points, adjusting the space coordinates of the result monomer graph, and creating a second batch of positioning points at the corresponding positions of the first batch of positioning points of the hierarchical layout graph; calculating coordinate conversion parameters between the first batch of locating points and the second batch of locating points;

performing coordinate conversion, and performing coordinate conversion on the layered layout according to the coordinate conversion parameters;

storing the result overall plan, the result monomer graph, the hierarchical layout graph and the coordinate conversion parameter file after coordinate conversion;

and translating the layered layout diagram out of the achievement monomer diagram, enabling the layered layout diagram to be uncovered, and updating the coordinate conversion parameter file according to the translation amount.

2. The storage method of claim 1, wherein the coordinate transformation parameters include at least any one of translation parameters, rotation parameters, and scale parameters.

3. The method of claim 1, wherein N points of building monomer are selected on the summary plot, N being 3.

4. A system for storing building plan measurement result data, comprising:

the data acquisition module is used for acquiring building planning measurement result data, wherein the measurement result data comprises a result total plan based on space coordinates, a result monomer graph based on space coordinates and a hierarchical layout graph based on building coordinates;

the data comparison module is used for establishing a coordinate conversion relation, and importing the hierarchical layout diagram corresponding to the result monomer diagram into the result monomer diagram; selecting at least 1 point of a building monomer on the result overall plan as a first batch of locating points, and copying the first batch of locating points to the result monomer plan; based on the first batch of positioning points, adjusting the space coordinates of the result monomer graph, and creating a second batch of positioning points at the corresponding positions of the first batch of positioning points of the hierarchical layout graph; calculating coordinate conversion parameters between the first batch of locating points and the second batch of locating points;

the coordinate conversion module is used for carrying out coordinate conversion on the layered layout according to the coordinate conversion parameters;

the storage module is used for storing the result total plan, the result monomer graph, the hierarchical layout graph and the coordinate conversion parameter file after coordinate conversion;

and the tiling module is used for tiling the layered layout diagram out of the result monomer diagram, so that the layered layout diagram is not covered by each other, and updating the coordinate conversion parameter file according to the translation amount.

5. The storage system of claim 4, wherein the coordinate conversion parameters include at least any one of translation parameters, rotation parameters, and scale parameters.

6. The storage system of claim 4, wherein N points of building monomer are selected on the summary plot, N being 3.