CN113742811A - Indoor soft decoration matching method - Google Patents

Abstract

The invention discloses a method for matching indoor soft decoration, which comprises the following steps that after the design requirement is finished in a storefront, the on-site distribution and installation are carried out, and the process of finishing the design requirement comprises the following steps: 1) inputting an initial design drawing, room data and software data to a terminal; 2) the terminal generates an initial effect diagram according to the initial design diagram and the data; 3) fine-tuning the initial effect diagram on the display interface to finish the final effect diagram; 4) the verification result is transmitted to the terminal after the storefront verifies the software material, and the terminal generates an offer. The invention can simply and quickly complete the effect chart matched with the indoor soft body decoration in the storefront, can select proper materials and match at the same time, intuitively displays the specific indoor effect of the soft body, saves the cost and saves time and labor.

Description

Indoor soft decoration matching method

Technical Field

The invention belongs to the technical field of indoor decoration, and particularly relates to a method for matching indoor soft decoration.

Background

Indoor soft body, i.e. soft furniture and soft furniture, mainly refers to furniture mainly made of sponge, fabric, etc. The manufacturing process of the soft furniture mainly depends on a manual process, and the main procedures comprise the procedures of nailing an inner frame, coating base cloth, sticking sponge, cutting, sewing an outer sleeve, closing a worker and the like. Soft body decoration refers to the decoration and arrangement of indoor two-degree by using the ornaments and furniture which are easy to change and shift after the indoor hardware is finished, such as curtains, sofas, back cushions, art tablecloths, decorative artware, decorative iron artware and the like. The home decoration is used as movable decoration, can better reflect the taste of an owner, is a glaring pen for creating a home atmosphere, breaks through the traditional decoration industry boundary, and recombines artware, textiles, collectibles, lamps, flower art, plants and the like to form a new idea. In the existing indoor soft decoration matching scheme, large furniture articles such as sofas, tables and the like are generally selected by people in a shopping mall, then detailed comparison and consideration are carried out by combining the structure and the size of a room, the style, the material, the size and the like of furniture, then judgment and selection are made by depending on feeling or imagination, and the soft decoration matching is only orally described or provided with a simple schematic diagram by decorating personnel, so that the specific indoor placing and decoration effects of home furnishing cannot be visually shown, and time and labor are wasted.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a method for matching indoor soft body decoration, which can simply and quickly complete a matched effect graph of indoor soft body decoration in a storefront, can select proper materials and matching at the same time, intuitively displays the specific indoor effect of the soft body, saves cost and saves time and labor.

In order to solve the technical problems, the invention adopts the following technical scheme:

a method for matching indoor soft decoration is to complete design requirements in a storefront and then to carry out on-site distribution and installation, and the process of completing the design requirements comprises the following steps:

1) inputting an initial design drawing, room data and software data to a terminal;

2) the terminal generates an initial effect diagram according to the initial design diagram and the data;

3) fine-tuning the initial effect diagram on the display interface to finish the final effect diagram;

4) the verification result is transmitted to the terminal after the storefront verifies the software material, and the terminal generates an offer.

In the above technical scheme:

in the step 1), the step (A) is carried out,

the initial design drawing comprises a design picture provided by a client, a real object picture displayed to the client or a design effect picture stored in a terminal gallery, the real object picture and the stored design effect picture have a corresponding relation, and the design effect picture is a 3D (three-dimensional) drawing with adjustable software and room background; the living room data comprises the length, the width and the height of a living room space and a living room visual angle corresponding to the initial design drawing; the software data includes the type and quantity of software.

In the step 2), the step (c) is carried out,

if the initial design drawing is a design picture provided by a customer, the terminal is processed by the following steps:

1) generating a 3D background model of the soft living room with the same visual angle and edge size as the initial design drawing;

2) identifying the design picture as a line graph and a filling graph;

if the initial design picture is a line graph, vectorizing the picture, and forming a software to be identified by the range defined by each outline boundary;

if the initial design picture is a filling picture, vectorizing is carried out under the condition of keeping filling colors, a color block defined by each outline boundary forms a software to be identified, and meanwhile, the color layout information of the software to be identified is obtained;

3) according to the type of the software, based on the minimum value of the space projection area preset by the software with the minimum average volume, excluding the software to be identified which is smaller than the minimum value; then, according to the common software arrangement area, all the software to be identified in the corresponding arrangement area in the design picture are selected; finally, according to the number of the soft bodies, selecting the same amount of soft bodies to be identified with the occupied area from large to small in the selected area; the terminal selects the same kind of software models from the image library to be placed in the 3D background model, obtains the contour coincidence degree of the software models and the selected software to be identified under different visual angles through continuous rotation, selects the software model with the highest contour coincidence degree, and places the selected software model in the 3D background model at the visual angle with the highest coincidence degree; fine-adjusting the software model with superposition in the 3D background model in a direction perpendicular to the current visual angle until superposition does not occur; finally, giving the same color layout to the software model under the condition that the initial design picture is the filling picture, thereby generating an initial effect picture;

if the initial design drawing is a real object picture displayed to a client or a design effect drawing stored in a picture library, the terminal directly selects the design effect drawing in the picture library or the picture library corresponding to the real object picture, and adjusts the sizes of the rooms and the soft clothes in the drawing according to room data in proportion, so that the initial effect drawing is generated.

Further, the vectorization process is as follows:

edge detection is carried out by using a canny operator method, and then breakpoints which are close to each other and have a distance smaller than a preset value are connected to form a closed-loop contour boundary.

Further, the method for assigning the same color layout to the software model comprises:

1) firstly, filling colors for the projection of the current visual angle of the software model, and the steps are as follows:

1.1) the mass center of a color block defined by the contour boundary is coincided with the projected mass center of the current visual angle of the software model;

1.2) if the color block has a part exceeding the projection edge of the soft body model, cutting the exceeding part; if a blank area exists in the projection of the software model, continuously expanding the pixel points forming the maximum edge of the blank area in a direction perpendicular to the connecting line of the two ends of the edge until the blank area is filled with colors;

2) and stretching the color blocks in the projection in a direction perpendicular to the current visual angle until the whole software model is filled, and finally cutting off the part exceeding the outline of the software model.

In the step 3), the step (c),

the method for finely adjusting the initial effect graph comprises the following steps:

and increasing, decreasing, dragging and adjusting the placing angle of the software in the 3D background model through the display interface, and selecting the patterns, colors and materials of the software.

Compared with the prior art, the invention has the advantages that:

the supporting customer of software decoration can see indoor design's effect picture at the storefront fast directly perceivedly, can see in addition at the storefront and touch specific house material, can also conveniently carry out the quick adjustment of design, can let the customer relieved, practices thrift the cost, labour saving and time saving.

Drawings

Fig. 1 is a flow chart frame body essential to the embodiment.

Detailed Description

The present invention is further illustrated by the following description of specific embodiments, which are presented herein for the purpose of illustration and explanation only and are not intended to be limiting of the invention.

Referring to fig. 1, the method for matching soft interior decoration of this embodiment is to perform on-site distribution and installation after completing the design requirement in the storefront, and the process of completing the design requirement includes the following steps:

1) inputting an initial design drawing, room data and software data to a terminal;

the initial design drawing comprises a design picture provided by a client, a real object picture displayed to the client or a design effect picture stored in a terminal gallery, the real object picture and the stored design effect picture have a corresponding relation, and the design effect picture is a 3D (three-dimensional) drawing with adjustable software and room background; the living room data comprises the length, the width and the height of a living room space and a living room visual angle corresponding to the initial design drawing; the software data comprises the type and the quantity of the software;

2) the terminal generates an initial effect diagram according to the initial design diagram and the data;

2.1) if the initial design drawing is a design picture provided by a customer, the terminal is processed by the following steps:

2.11) generating a 3D background model of the soft living room with the same visual angle and edge size as the initial design drawing, and generating three-dimensional coordinates of the 3D background model;

2.12) identifying the design pictures as line drawings and filling drawings;

if the initial design picture is a line graph, vectorizing the picture, and forming a software to be identified by the range defined by each outline boundary;

if the initial design picture is a filling picture, vectorizing is carried out under the condition of keeping filling colors, a color block defined by each outline boundary forms a software to be identified, and meanwhile, the color layout information of the software to be identified is obtained; identifying the soft bitmap color block as bitmap, converting into RGB image, and reserving red (R), green (G) and blue (B) values in the color layout;

the vectorization process comprises the following steps: firstly, edge detection is carried out by using a canny operator method, and then breakpoints which are close to each other and have a distance smaller than a preset value are connected to form a closed-loop contour boundary;

2.13) according to the software type, based on the minimum value of the space projection area preset by the software with the minimum average volume, excluding the software to be identified which is smaller than the minimum value; the average volume is the volume average value of the software in the map library;

then, according to the common software arrangement area, all the software to be identified in the corresponding arrangement area in the design picture are selected; finally, according to the number of the soft bodies, selecting the same amount of soft bodies to be identified with the occupied area from large to small in the selected area; the common arrangement area is information prestored in the terminal, for example, a curtain is arranged close to a wall, a sofa is arranged on the ground, and the like;

the terminal selects the same kind of software models from the image library to be placed in the 3D background model, obtains the contour coincidence degree of the software models and the selected software to be identified under different visual angles through continuous rotation, selects the software model with the highest contour coincidence degree, and places the selected software model in the 3D background model at the visual angle with the highest coincidence degree;

fine-adjusting the software model with superposition in the 3D background model in a direction perpendicular to the current visual angle until superposition does not occur; finally, giving the same color layout to the software model under the condition that the initial design picture is the filling picture, thereby generating an initial effect picture;

the method for endowing the same color layout to the software model comprises the following steps:

2.131) filling colors for the projection of the current view angle of the software model, which comprises the following steps:

the centroid of the color blocks defined by the contour boundary is coincided with the projected centroid of the current view angle of the software model;

if the color block has a part exceeding the projection edge of the software model, cutting off the exceeding part;

if a blank area exists in the projection of the software model, continuously expanding the pixel points forming the maximum edge of the blank area in a direction perpendicular to the connecting line of the two ends of the edge until the blank area is filled with colors;

2.132) stretching the color blocks in the projection in the direction perpendicular to the current view angle to fill the whole soft body model, and cutting off the part exceeding the outline of the soft body model;

2.2) if the initial design drawing is a real object picture displayed to a client or a design effect drawing stored in a picture library, directly selecting the design effect drawing in the picture library or the picture library corresponding to the real object picture by the terminal, and proportionally adjusting the sizes of a living room and a soft package in the picture according to living room data so as to generate the initial effect drawing;

3) fine-tuning the initial effect diagram on the display interface to finish the final effect diagram;

the method for finely adjusting the initial effect graph comprises the following steps: software increase, decrease, drag and placement angle adjustment are carried out in the 3D background model through a display interface, and patterns, colors and materials of the software are selected;

4) the verification result is transmitted to the terminal after the storefront verifies the software material, and the terminal generates an offer.

Claims (5)

1. A method for matching indoor soft decoration is characterized in that after a design requirement is completed in a storefront, field distribution and installation are carried out, and the process of completing the design requirement comprises the following steps:

1) inputting an initial design drawing, room data and software data to a terminal;

2) the terminal generates an initial effect diagram according to the initial design diagram and the data;

3) fine-tuning the initial effect diagram on the display interface to finish the final effect diagram;

4) the verification result is transmitted to the terminal after the storefront verifies the software material, and the terminal generates an offer.

2. The method of claim 1, wherein:

the initial design drawing comprises a design picture provided by a client, a real object picture displayed to the client or a design effect picture stored in a terminal gallery, the real object picture and the stored design effect picture have a corresponding relation, and the design effect picture is a 3D (three-dimensional) drawing with adjustable software and room background; the living room data comprises the length, the width and the height of a living room space and a living room visual angle corresponding to the initial design drawing; the software data comprises the type and the quantity of the software;

if the initial design drawing is a design picture provided by a customer, the terminal is processed by the following steps:

1) generating a 3D background model of the soft living room with the same visual angle and edge size as the initial design drawing;

2) identifying the design picture as a line graph and a filling graph; if the initial design picture is a line graph, vectorizing the picture, and forming a software to be identified by the range defined by each outline boundary; if the initial design picture is a filling picture, vectorizing is carried out under the condition of keeping filling colors, a color block defined by each outline boundary forms a software to be identified, and meanwhile, the color layout information of the software to be identified is obtained;

3) according to the type of the software, based on the minimum value of the space projection area preset by the software with the minimum average volume, excluding the software to be identified which is smaller than the minimum value; then, according to the common software arrangement area, all the software to be identified in the corresponding arrangement area in the design picture are selected; finally, according to the number of the soft bodies, selecting the same amount of soft bodies to be identified with the occupied area from large to small in the selected area; the terminal selects the same kind of software models from the image library to be placed in the 3D background model, obtains the contour coincidence degree of the software models and the selected software to be identified under different visual angles through continuous rotation, selects the software model with the highest contour coincidence degree, and places the selected software model in the 3D background model at the visual angle with the highest coincidence degree; fine-adjusting the software model with superposition in the 3D background model in a direction perpendicular to the current visual angle until superposition does not occur; finally, giving the same color layout to the software model under the condition that the initial design picture is the filling picture, thereby generating an initial effect picture;

if the initial design drawing is a real object picture displayed to a client or a design effect drawing stored in a picture library, the terminal directly selects the design effect drawing in the picture library or the picture library corresponding to the real object picture, and adjusts the sizes of the rooms and the soft clothes in the drawing according to room data in proportion, so that the initial effect drawing is generated.

3. The method of claim 2, wherein the initial effect graph is fine-tuned by:

and increasing, decreasing, dragging and adjusting the placing angle of the software in the 3D background model through the display interface, and selecting the patterns, colors and materials of the software.

4. The method according to claim 2, wherein the vectorization process is:

edge detection is carried out by using a canny operator method, and then breakpoints which are close to each other and have a distance smaller than a preset value are connected to form a closed-loop contour boundary.

5. The method of claim 2, wherein the same color layout is assigned to the soft body model by:

1) firstly, filling colors for the projection of the current visual angle of the software model, and the steps are as follows:

1.1) the mass center of a color block defined by the contour boundary is coincided with the projected mass center of the current visual angle of the software model;

1.2) if the color block has a part exceeding the projection edge of the soft body model, cutting the exceeding part; if a blank area exists in the projection of the software model, continuously expanding the pixel points forming the maximum edge of the blank area in a direction perpendicular to the connecting line of the two ends of the edge until the blank area is filled with colors;

2) and stretching the color blocks in the projection in a direction perpendicular to the current visual angle until the whole software model is filled, and finally cutting off the part exceeding the outline of the software model.

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