CN111339595B - Cutting system and method for pinch plate model in cloud computing environment - Google Patents

Abstract

The invention discloses a cutting system and a method for a pinch plate model in a cloud computing environment, wherein the system comprises the following steps: the device comprises a pinch plate preprocessing unit, a pinch plate cloud design data input unit, a pinch plate cutting data processing unit, a pinch plate paste generating unit, a pinch plate reconstructing unit and a preview/rendering processing unit. The method comprises the following steps: and (3) preprocessing the pinch plates, cutting data processing the pinch plates, generating transparent stickers of the pinch plates, reconstructing the pinch plates, and previewing/rendering. The beneficial effects of the invention are as follows: the invention can effectively reduce the cutting logic complexity of the cross-plane and stacked pinch plates in the cloud computing environment; the invention can optimize the experience of the user in the design, provide the real effect of the buckle in the design and improve the design efficiency of the user.

Description

Cutting system and method for pinch plate model in cloud computing environment

Technical Field

The invention relates to the field of home decoration design tools, in particular to a cutting system and a cutting method for a buckle plate model in a cloud computing environment.

Background

In the existing home decoration design, the pinch plate is used as a material, and is an important component for improving the design sense in the ceiling design. In actual home decoration, when a buckle plate is used for design, the conditions of buckle plate pressing, buckle plate edge sticking and the like occur occasionally; in an on-line design that provides a preview of actual home furnishing, the phenomenon of stacking and bridging between pinch plates is more common.

In existing house ornamentation design software based on cloud computing, almost all of the categories of gusset materials are included, and three-dimensional gusset plates exist in the categories of gusset materials. In many existing home decoration design software, three-dimensional pinch plates are almost all represented by using 3d models, and the represented models are usually uploaded by users. However, in order to ensure design instantaneity of a user and user experience in design, each system is generally unable to perform a near real-time cutting operation, so that when a buckle plate pinch plate, a buckle plate welt and the like exist, a buckle plate model is overlapped or a buckle plate is poked out of a design surface.

Disclosure of Invention

In order to solve the problem that a buckle plate in house decoration design software in a cloud computing environment cannot be cut in near real time, the overall design experience and the design effect are optimized.

In one aspect, the present invention provides a system for cutting a buckle model in a cloud computing environment, the system comprising: the device comprises a pinch plate preprocessing unit, a pinch plate cloud design data input unit, a pinch plate cutting data processing unit, a pinch plate sticking diagram generating unit, a pinch plate reconstructing unit and a preview/rendering processing unit;

the buckle plate preprocessing unit is used for preprocessing buckle plates to obtain buckle plate information (two-dimensional information, reconstruction data information and texture mapping information);

the pinch plate cloud design data input unit is used for inputting pinch plate design data (pinch plate geometric information, pinch plate design positions and paving attachment surface geometric information) by a designer;

the pinch plate cutting data processing unit is used for processing the pinch plate information and the design data to obtain pinch plate cutting information;

the pinch plate map generation unit is used for generating a transparent map according to the cutting information;

the buckle plate reconstruction unit comprises: a pinch plate top surface reconstruction unit and a pinch plate side surface reconstruction unit;

the pinch plate top surface reconstruction unit is used for reconstructing a model and a material of the pinch plate top surface to realize front cutting of the pinch plate; the buckle plate side face reconstruction unit is used for reconstructing the buckle plate side face, supplementing the buckle plate and avoiding the occurrence of side face blank of the buckle plate;

and the preview/rendering processing unit is used for transmitting the pinch plate cutting information to the preview/rendering processing unit to obtain a preview/rendering model of the pinch plate, and finally entering an actual preview/rendering flow.

On the other hand, the invention also provides a cutting method of the buckle plate model in the cloud computing environment, which comprises the following steps:

step 1, pretreatment of a buckle plate: preprocessing the pinch plates to be cut through the pinch plate preprocessing unit to obtain pinch plate information;

step 101, stripping materials according to the material mapping information and the grid information of the buckle plate, obtaining the material mapping of the buckle plate model in a top view/bottom view through height difference processing, and constructing corresponding material materials;

step 102, determining reference height information of a pinch plate model at different sampling points by taking the top/bottom of a bounding box as a reference surface according to grid information of the pinch plate, and recording the reference height information as a pinch plate replacement map;

and 103, recording the results of the two steps, and updating the cuttability information of the pinch plate.

And 2, pinch plate cutting data processing: the pinch plate cutting data processing unit is used for processing pinch plate information generated by the pinch plate preprocessing unit and design data input by the pinch plate cloud design data input unit to obtain pinch plate cutting information;

step 201, calculating an intersection area between the contour of the pinch plate and the effective attaching area of the pinch plate according to the pinch plate geometric information, the design position of the pinch plate and the geometric information of the attaching surface of the pinch plate input by the pinch plate cloud design data input unit;

step 202, mapping the obtained intersection area to a coordinate system where the buckle plate displacement map is located through the contour mapping relation between the buckle plate area and the buckle plate displacement map;

step 203, simplifying the intersection area into the pixel area of the replacement map according to the accuracy of the coordinate system of the replacement map.

Step 3, generating a pinch plate transparent map: and setting the value in the region as 1 and the value outside the region as 0 according to the pixel region, and generating a corresponding pinch plate transparent map by the pinch plate map generating unit.

And 4, buckle plate reconstruction treatment: the pinch plate reconstruction process comprises the following steps: the top surface reconstruction treatment and the side surface reconstruction treatment of the buckle plate;

the top surface reconstruction processing of the pinch plate is used for carrying out model and material reconstruction on the top surface of the pinch plate through the top surface reconstruction unit of the pinch plate;

the reconstruction of the buckle plate top surface model comprises the following steps:

step 401, reading pinch plate replacement mapping, pinch plate geometric information and pinch plate transparent mapping information, and checking;

step 402, using the buckle transparent map to mask the buckle replacement map to obtain a buckle part of which the top surface is required to be reconstructed in practice;

step 403, determining a reference plane according to the buckle plate data, and reconstructing the patch by using the height data provided in the buckle plate replacement map;

and step 404, checking the generated model to obtain a reconstructed top surface model.

The material of the top surface of the buckle plate is reconstructed, and the material coordinates of the top surface of the model are reconstructed through the replacement chartlet of the buckle plate and the material chartlet of the buckle plate.

The buckle side reconstruction processing is used for reconstructing the buckle side through the buckle side reconstruction unit, and comprises the following steps:

step 411, mapping the contour edge of the buckle plate to pixel information of the buckle plate replacement map to obtain height information of the side face;

step 412, constructing two-dimensional contour information on the side according to the obtained set of height information;

step 413, generating a dough sheet according to the two-dimensional contour information and the three-dimensional surface information, and filling the dough sheet with a default material.

And 5, the preview/rendering processing transmits the information to the preview/rendering processing unit to obtain a preview/rendering model of the pinch plate, and finally, the actual preview/rendering flow is entered.

The beneficial effects of the invention are as follows:

(1) The invention can effectively reduce the cutting logic complexity of the cross-plane and stacked pinch plates in the cloud computing environment;

(2) The invention can optimize the experience of the user in the design, provide the real effect of the buckle in the design and improve the design efficiency of the user.

Drawings

FIG. 1 is a schematic diagram of a cutting system of the present invention;

FIG. 2 is a flow chart of the cutting method of the present invention.

The specific embodiment is as follows:

the invention is further described in terms of specific embodiments in conjunction with the following drawings:

as shown in fig. 1, the system for cutting a buckle model in a cloud computing environment provided by the invention comprises: the pinch plate preprocessing unit 01, the pinch plate cloud design data input unit 02, the pinch plate cutting data processing unit 03, the pinch plate map generating unit 04, the pinch plate reconstructing unit 05 and the preview/rendering processing unit 06;

the buckle plate preprocessing unit 01 is used for preprocessing buckle plates to obtain buckle plate information (two-dimensional information, reconstruction data information and texture mapping information); a buckle cloud design data input unit 02 for inputting buckle design data (buckle geometric information, buckle design position, and paving surface geometric information) by a designer; the buckle plate cutting data processing unit 03 is used for processing buckle plate information and design data to obtain buckle plate cutting information; the pinch plate map generating unit 04 generates a transparent map according to pinch plate cutting information; pinch plate reconstruction unit 05, comprising: the pinch plate top surface reconstruction unit 51 and the pinch plate side surface reconstruction unit 52 are used for reconstructing a model and a material of the pinch plate top surface of the pinch plate by the pinch plate top surface reconstruction unit 51, so that the front surface of the pinch plate is cut; the buckle side reconstruction unit 52 is used for reconstructing the buckle side, supplementing the buckle plate, and avoiding the occurrence of side empty surfaces of the buckle plate; the preview/rendering processing unit 06 transmits the pinch plate cutting information to the preview/rendering processing unit 06 to obtain a preview/rendering model of the pinch plate, and finally enters an actual preview/rendering flow.

As shown in fig. 2, the method for cutting the buckle plate model in the cloud computing environment provided by the invention comprises the following steps:

step 1, pretreatment of a buckle plate: preprocessing the pinch plates to be cut through a pinch plate preprocessing unit 01 to obtain pinch plate information;

step 101, stripping materials according to the material mapping information and the grid information of the buckle plate, obtaining the material mapping of the buckle plate model in a top view (or a bottom view, which is determined by the body state of the model) through height difference processing, and constructing corresponding material materials; this step serves as one of the inputs for the subsequent reconstruction of the model.

102, determining reference height information of a pinch plate model at different sampling points by taking the top (or bottom of a bounding box, which is determined by the body state of the model) as a reference surface according to grid information of the pinch plate, and recording the reference height information as a pinch plate replacement map; wherein each pixel corresponds to the height information of a sampling point, and the displacement map is subsequently used as one of the inputs of the model reconstruction.

And 103, recording the results of the two steps, updating the cuttability information of the pinch plate, and marking the subsequent cutting treatment.

And 2, pinch plate cutting data processing: the pinch plate cutting data processing unit 03 is used for processing the pinch plate information generated by the pinch plate preprocessing unit 01 and the design data input by the pinch plate cloud design data input unit 02 to obtain pinch plate cutting information;

step 201, calculating an intersection area between a buckle outline and a buckle attaching effective area according to buckle geometric information, buckle design position and paving attaching surface geometric information input by a buckle cloud design data input unit 02;

step 202, mapping the obtained intersection area to a coordinate system where the buckle plate displacement map is located through the contour mapping relation between the buckle plate area and the buckle plate displacement map;

step 203, simplifying the intersection area into the pixel area of the replacement map according to the accuracy of the coordinate system of the replacement map.

Step 3, generating a pinch plate transparent map: according to the pixel region, the value inside the region is set to 1, the value outside the region is set to 0, and a corresponding pinch plate transparent map is generated by the pinch plate map generating unit 04.

And 4, buckle plate reconstruction treatment: the pinch plate reconstruction process comprises the following steps: the top surface reconstruction treatment and the side surface reconstruction treatment of the buckle plate;

the top surface reconstruction processing of the buckle plate is used for carrying out model and material reconstruction on the top surface of the buckle plate through a buckle plate top surface reconstruction unit 51;

the reconstruction of the buckle plate top surface model comprises the following steps:

step 401, reading pinch plate replacement mapping, pinch plate geometric information and pinch plate transparent mapping information, and checking;

step 402, using the buckle transparent map to mask the buckle replacement map to obtain a buckle part of which the top surface is required to be reconstructed in practice;

step 403, determining a reference plane according to the buckle plate data, and reconstructing the patch by using the height data provided in the buckle plate replacement map;

and step 404, checking the generated model to obtain a reconstructed top surface model.

And reconstructing the material of the top surface of the buckle, and reconstructing the material coordinates of the top surface of the model through the replacement mapping of the buckle and the material mapping of the buckle.

The buckle side reconstruction process reconstructs the buckle side by the buckle side reconstruction unit 52, and comprises the following steps:

step 411, mapping the contour edge of the buckle plate to pixel information of the buckle plate replacement map to obtain height information of the side face;

step 412, constructing two-dimensional contour information on the side according to the obtained set of height information;

step 413, generating a dough sheet according to the two-dimensional contour information and the three-dimensional surface information, and filling the dough sheet with a default material.

Step 5 preview/rendering process: the information is transmitted to the preview/rendering processing unit 06 to obtain a preview/rendering model of the pinch plate, and finally the actual preview/rendering process is entered.

The foregoing is illustrative of the preferred embodiments of the present invention, and is not to be construed as limiting the claims. All equivalent structures or equivalent flow path changes made by the specification of the invention are included in the protection scope of the invention.

Claims (3)

1. A system for cutting a buckle model in a cloud computing environment, the system comprising: the pinch plate processing device comprises a pinch plate preprocessing unit (01), a pinch plate cloud design data input unit (02), a pinch plate cutting data processing unit (03), a pinch plate map generating unit (04), a pinch plate reconstructing unit (05) and a preview and/or rendering processing unit (06);

the pinch plate preprocessing unit (01) is used for preprocessing pinch plates to obtain pinch plate information, wherein the pinch plate information comprises two-dimensional information, reconstruction data information and texture mapping information; the method comprises the following steps:

step 101, stripping materials according to the material mapping information and the grid information of the buckle plate, obtaining the material mapping of the buckle plate model in the top view and/or the bottom view through the height difference treatment, and constructing corresponding material materials;

102, determining reference height information of a buckle model at different sampling points by taking the top and/or the bottom of a bounding box as a reference surface according to grid information of a buckle, and recording the reference height information as a buckle replacement map;

step 103, recording the results of the two steps, and updating the cuttability information of the pinch plate;

the pinch plate cloud design data input unit (02) is used for inputting pinch plate design data by a designer, wherein the design data comprises pinch plate geometric information, pinch plate design positions and paving attachment surface geometric information;

the pinch plate cutting data processing unit (03) is used for processing the pinch plate information and the design data to obtain pinch plate cutting information;

the method comprises the following steps:

step 201, calculating an intersection area between the contour of the pinch plate and the effective attaching area of the pinch plate according to the pinch plate geometric information, the design position of the pinch plate and the geometric information of the attaching surface of the pinch plate input by the pinch plate cloud design data input unit (02);

step 202, mapping the obtained intersection area to a coordinate system where the buckle plate displacement map is located through the contour mapping relation between the buckle plate area and the buckle plate displacement map;

step 203, simplifying the intersection area into a pixel area of the replacement map according to the accuracy of the coordinate system of the replacement map;

the pinch plate map generating unit (04) generates a transparent map according to the cutting information;

the buckle plate reconstruction unit (05) comprises: the buckle plate top surface reconstruction unit (51) and the buckle plate side surface reconstruction unit (52), wherein the buckle plate top surface reconstruction unit (51) is used for reconstructing a model and a material of the buckle plate top surface to realize front cutting of the buckle plate; the buckle side reconstruction unit (52) is used for reconstructing the buckle side and supplementing the buckle plate so as to avoid the occurrence of side empty surfaces of the buckle plate; the buckle side is reconfigurated, includes:

step 411, mapping the contour edge of the buckle plate to pixel information of the buckle plate replacement map to obtain height information of the side face;

step 412, constructing two-dimensional contour information on the side according to the obtained set of height information;

step 413, generating a dough sheet according to the two-dimensional contour information and the three-dimensional surface information, and filling the dough sheet by using a default material;

and the preview and/or rendering processing unit (06) is used for transmitting the pinch plate cutting information to the preview and/or rendering processing unit (06) to obtain a preview and/or rendering model of the pinch plate, and finally entering an actual preview and/or rendering flow.

2. A method of cutting using the gusset model cutting system of claim 1 in a cloud computing environment, the method comprising the steps of:

step 1, pretreatment of a buckle plate: preprocessing the pinch plates to be cut through the pinch plate preprocessing unit (01) to obtain pinch plate information; the method comprises the following steps:

step 101, stripping materials according to the material mapping information and the grid information of the buckle plate, obtaining the material mapping of the buckle plate model in the top view and/or the bottom view through the height difference treatment, and constructing corresponding material materials;

102, determining reference height information of a buckle model at different sampling points by taking the top and/or the bottom of a bounding box as a reference surface according to grid information of a buckle, and recording the reference height information as a buckle replacement map;

step 103, recording the results of the two steps, and updating the cuttability information of the pinch plate;

and 2, pinch plate cutting data processing: the pinch plate cutting data processing unit (03) is used for processing pinch plate information generated by the pinch plate preprocessing unit (01) and design data input by the pinch plate cloud design data input unit (02) to obtain pinch plate cutting information; the method comprises the following steps:

step 201, calculating an intersection area between the contour of the pinch plate and the effective attaching area of the pinch plate according to the pinch plate geometric information, the design position of the pinch plate and the geometric information of the attaching surface of the pinch plate input by the pinch plate cloud design data input unit (02);

step 202, mapping the obtained intersection area to a coordinate system where the buckle plate displacement map is located through the contour mapping relation between the buckle plate area and the buckle plate displacement map;

step 203, simplifying the intersection area into a pixel area of the replacement map according to the accuracy of the coordinate system of the replacement map;

step 3, generating a pinch plate transparent map: according to the pixel region, setting the value in the region as 1, setting the value outside the region as 0, and generating a corresponding pinch plate transparent map by the pinch plate map generating unit (04);

and 4, buckle plate reconstruction treatment: the pinch plate reconstruction processing comprises pinch plate top surface reconstruction processing and pinch plate side surface reconstruction processing;

the buckle plate top surface reconstruction processing is used for carrying out model and material reconstruction on the buckle plate top surface through the buckle plate top surface reconstruction unit (51);

the buckle plate side reconstruction processing is used for reconstructing the buckle plate side through the buckle plate side reconstruction unit (52); the buckle side is reconfigurated, includes:

step 411, mapping the contour edge of the buckle plate to pixel information of the buckle plate replacement map to obtain height information of the side face;

step 412, constructing two-dimensional contour information on the side according to the obtained set of height information;

step 413, generating a dough sheet according to the two-dimensional contour information and the three-dimensional surface information, and filling the dough sheet by using a default material;

step 5 preview and/or rendering processing: and transmitting the information to the preview and/or rendering processing unit (06) to obtain a preview and/or rendering model of the pinch plate, and finally entering an actual preview and/or rendering flow.

3. The cutting method according to claim 2, wherein the reconstructing of the buckle top surface model in step 4 further comprises:

step 401, reading pinch plate replacement mapping, pinch plate geometric information and pinch plate transparent mapping information, and checking;

step 402, using the buckle transparent map to mask the buckle replacement map to obtain a buckle part of which the top surface is required to be reconstructed in practice;

step 403, determining a reference plane according to the buckle plate data, and reconstructing the patch by using the height data provided in the buckle plate replacement map;

and step 404, checking the generated model to obtain a reconstructed top surface model.