CN116595618A - Indoor decoration design system and method based on intelligent wearing technology - Google Patents

Abstract

The application is applicable to the technical field of decoration design, and provides an indoor decoration design method based on an intelligent wearing technology, which comprises the following steps: the acquired indoor scene data are matched with a first design scheme; acquiring a design effect diagram and building material information of the scheme to form a first design scheme video; re-identifying the indoor scene data of the user, screening the most matched design scheme from the indoor scene data, and obtaining the second design scheme after the approval of the user; the design effect diagram and building material information of the scheme are obtained, a video of the second design scheme is split into a plurality of standard images through an encoder, the second video is split into a plurality of contrast images, and the contrast images are compared with the standard images one by one to obtain the optimal image. According to the application, through intelligent wearing technology application, a virtual indoor scene is generated, so that a decoration user has an immersive feeling, the user participates in indoor decoration design to the maximum extent, subjective activity of the user is fully exerted, and the design scheme can be more attached to the expected effect of the user.

Description

Indoor decoration design system and method based on intelligent wearing technology

Technical Field

The application belongs to the technical field of interior decoration design, and particularly relates to an interior decoration design system and method based on an intelligent wearing technology.

Background

In traditional interior decoration, owners and decorators usually carry out decoration scheme design based on the living demands of the current stage, the attention degree of the living demands for a long time is not high, the living demands for a long time are not dynamically presented in a digital mode, and users often find that the decoration design scheme does not meet the demands after living for a period of time, and furniture needs to be redesigned or replaced. Therefore, the long-term living requirements are not considered in the design process of the home repair scheme, so that the consumed modified resources are large, the cost is high, the problem of resource and fund waste exists, and the energy-saving and environment-friendly purposes are not facilitated.

At present, the personalized design is completely carried out according to the existing demands of customers, the decoration time is long, the users feel unsatisfied in all aspects, because various materials are not optimally matched with house types, the optimal attractive effect cannot be achieved, the effect is worse, and the future expected effect is not met.

Disclosure of Invention

In order to solve the defects in the prior art, the application aims to provide an indoor decoration design system and method based on an intelligent wearing technology, so that a user can participate in indoor decoration design to the maximum extent, the subjective activity of the user can be fully exerted, and the design scheme can be more attached to the expected effect of the user.

In order to achieve the above purpose, the technical scheme adopted by the application is as follows:

an interior decoration design system based on intelligent wearing technology, comprising: smart phone, 3D computer, intelligent wearing, virtual terminal, thing networking gateway, data processor.

The intelligent mobile phone is responsible for collecting three-dimensional data information of indoor scenes of a user house and storing the three-dimensional data information into the data processor, and is connected with the data processor through the Internet of things;

the 3D computer is responsible for leading out material information of types, sizes, numbers, colors and materials of a plane effect graph and building materials designed for a user from intelligent wearing, and is connected with the data processor through the wireless network of the Internet of things;

the intelligent wearing comprises an intelligent helmet and intelligent glasses, and is used for displaying an original scene, a modeled scene, a decorative design scene and a menu and state interface appearing in interaction, and is connected with a data processor through an Internet of things wireless network;

the virtual terminal is responsible for the simulation design operation of a user and is connected with the intelligent wearable wireless network through the Internet of things;

the gateway of the Internet of things is responsible for wireless network connection with a smart phone, a 3D computer, an intelligent wearing, a virtual terminal and a data processor through the Internet of things, mutually transmits information and serves as a hub center of the system;

the data processor comprises a decoration resource library, modeling software, material software, a user information library and an encoder, can identify and match user information, and analyzes various material characteristics and three-dimensional modeling.

Further, the decoration repository stores a three-dimensional model providing decoration elements for a user, comprising: models containing various main stream styles, popular color systems and decoration features of decoration, floors, wall bricks, paint, curtains, cables and other building material models for hard mounting, tables, chairs, cabinets, sofas, beds and other furniture home models for soft mounting, application special effect scenes containing ambient light and scenes of daytime, night, cloudy days and sunny days, and a plurality of recommended decoration schemes which are screened and displayed in a classified mode according to styles, areas and budgets.

Further, the modeling software is used for constructing a spatial three-dimensional model based on the three-dimensional data.

Further, the material analysis software is used for analyzing three-dimensional data corresponding to the commodity based on commodity information provided by a third party network platform submitted by a user, and providing basis for three-dimensional modeling.

Furthermore, the user information base is responsible for collecting information and actual decoration schemes and effects of each user before decoration, provides personal information management and design management services for the users, and provides information of design units, building material units, construction units and acceptance units of industries for the users to select.

Further, the encoder is responsible for decomposition, combination and conversion of the stereoscopic image files.

Further, the 3D computer, the intelligent wearing, the virtual terminal and the data processor are all provided with the internet of things module and are all connected with the internet of things gateway through a wireless network.

Further, the main decoration style includes French romantic style, modern fashion style, european style, american style, white and black design style, new Chinese design style, korean style, southeast Asia design style, mediterranean design style, and Bos style design style.

Further, the popular color system includes romantic pink style, warm orange style, bright yellow style, neutral warm color style, dynamic green style, marine blue style, mystery purple style, neutral cool color style.

Further, the ornamental features include American style, european style classical style, modern front defense style, elegant style, new classical style, new Chinese style, new decorative art wind.

The application also provides an indoor decoration design method based on the intelligent wearing technology, which comprises the following steps:

1. the method comprises the steps of obtaining indoor scene data of a user and sending the indoor scene data to a data processor, and according to a first design scheme of matching the user scene data, comprising: firstly, inputting modeling information; secondly, preparing a simulation design; thirdly, constructing a three-dimensional model; fourthly, binding the three-dimensional model; fifthly, customizing a design scheme; sixthly, constructing a material model; seventh, a first scheme is formed.

2. Acquiring a design effect diagram and building material information in a first design scheme, and transmitting the design effect diagram and the building material information to a data processor to acquire a video of the first design scheme;

3. the data processor re-recognizes the indoor scene data of the user and screens the most matched design scheme from the indoor scene data;

4. after the approval of the user is obtained, matching the second design scheme;

5. acquiring a design effect diagram and building material information in the second design scheme, and sending the design effect diagram and the building material information to a data processor to acquire a video of the second design scheme;

6. acquiring a video of a second scheme, and splitting the video into a plurality of standard images through an encoder;

7. splitting the second video through an encoder to generate a plurality of comparison images;

8. comparing the multiple comparison images with the standard images one by one to obtain an optimal image, converting the optimal image into an optimal video through an encoder, and then sending the optimal video to a data processor to obtain an optimal design scheme video;

9. and exporting the 3D scheme, converting the 3D scheme into a 2D map, and printing the 2D map to a decoration team for construction.

Compared with the prior art, the application has the beneficial effects that:

the intelligent wearing technology is utilized to provide interactive operation for users, virtual indoor scenes are generated, so that decoration users have an immersive feeling, the users participate in indoor decoration design to the greatest extent, subjective motility of the users is fully exerted, and the design scheme can be more fit with the expected effect of the users.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments or exemplary technical descriptions will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings can be obtained according to these drawings without inventive effort for a person of ordinary skill in the art.

FIG. 1 is a schematic diagram of the system principle of the present application;

FIG. 2 is a flow chart of a design method of the present application;

fig. 3 is a flow chart of a first design of the screening of the present application.

Detailed Description

The present application will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present application more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the application.

The following describes in detail the implementation of the present application in connection with specific embodiments:

in order to make the technical problems, technical schemes and beneficial effects to be solved more clear, the application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the application.

In the description of the present application, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "configured," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art according to the specific circumstances. The terms "comprising," "including," "having," and variations thereof mean "including but not limited to," unless expressly specified otherwise.

Referring to fig. 1, the indoor decoration design system based on the intelligent wearing technology provided by the application comprises: smart phone, 3D computer, intelligent wearing, virtual terminal, thing networking gateway, data processor.

The intelligent mobile phone is responsible for collecting three-dimensional data information of indoor scenes of a user house and storing the three-dimensional data information into the data processor, and is connected with the data processor through the Internet of things;

the 3D computer is responsible for leading out material information of types, sizes, numbers, colors and materials of a plane effect graph and building materials designed for a user from intelligent wearing, and is connected with the data processor through the wireless network of the Internet of things;

the intelligent wearing comprises an intelligent helmet and intelligent glasses, and is used for displaying an original scene, a modeled scene, a decorative design scene and a menu and state interface appearing in interaction, and is connected with a data processor through an Internet of things wireless network;

the virtual terminal is responsible for the simulation design operation of a user and is connected with the intelligent wearable wireless network through the Internet of things;

the gateway of the Internet of things is responsible for wireless network connection with a smart phone, a 3D computer, an intelligent wearing, a virtual terminal and a data processor through the Internet of things, mutually transmits information and serves as a hub center of the system;

the data processor comprises a decoration resource library, modeling software, material software, a user information library and an encoder, can identify and match user information, and analyzes various material characteristics and three-dimensional modeling.

Further, the decoration repository stores a three-dimensional model providing decoration elements for a user, comprising: models containing various main stream styles, popular color systems and decoration features of decoration, floors, wall bricks, paint, curtains, cables and other building material models for hard mounting, tables, chairs, cabinets, sofas, beds and other furniture home models for soft mounting, application special effect scenes containing ambient light and scenes of daytime, night, cloudy days and sunny days, and a plurality of recommended decoration schemes which are screened and displayed in a classified mode according to styles, areas and budgets.

Further, the modeling software is used for constructing a spatial three-dimensional model based on the three-dimensional data.

Further, the material analysis software is used for analyzing three-dimensional data corresponding to the commodity based on commodity information provided by a third party network platform submitted by a user, and providing basis for three-dimensional modeling.

Furthermore, the user information base is responsible for collecting information and actual decoration schemes and effects of each user before decoration, provides personal information management and design management services for the users, and provides information of design units, building material units, construction units and acceptance units of industries for the users to select.

Further, the encoder is responsible for decomposition, combination and conversion of the stereoscopic image files.

Further, the 3D computer, the intelligent wearing, the virtual terminal and the data processor are all provided with the internet of things module and are all connected with the internet of things gateway through a wireless network.

Further, the main decoration style includes French romantic style, modern fashion style, european style, american style, white and black design style, new Chinese design style, korean style, southeast Asia design style, mediterranean design style, and Bos style design style.

Further, the popular color system includes romantic pink style, warm orange style, bright yellow style, neutral warm color style, dynamic green style, marine blue style, mystery purple style, neutral cool color style.

Further, the ornamental features include American style, european style classical style, modern front defense style, elegant style, new classical style, new Chinese style, new decorative art wind.

Referring to fig. 2, the application further provides an interior decoration design method based on the intelligent wearing technology, which comprises the following steps:

1. acquiring indoor scene data of a user, and sending the indoor scene data to a data processor according to a first design scheme matched with the user scene data;

2. acquiring a design effect diagram and building material information in a first design scheme, and transmitting the design effect diagram and the building material information to a data processor to acquire a video of the first design scheme;

3. the data processor re-recognizes the indoor scene data of the user and screens the most matched design scheme from the indoor scene data;

4. after the approval of the user is obtained, matching the second design scheme;

5. acquiring a design effect diagram and building material information in the second design scheme, and sending the design effect diagram and the building material information to a data processor to acquire a video of the second design scheme;

6. acquiring a video of a second scheme, and splitting the video into a plurality of standard images through an encoder;

7. splitting the second video through an encoder to generate a plurality of comparison images;

8. comparing the multiple comparison images with the standard images one by one to obtain an optimal image, converting the optimal image into an optimal video through an encoder, and then sending the optimal video to a data processor to obtain an optimal design scheme video;

9. and exporting the 3D scheme, converting the 3D scheme into a 2D map, and printing the 2D map to a decoration team for construction.

Referring to fig. 3, the method for acquiring indoor scene data of a user and sending the indoor scene data to a data processor according to a first design scheme of matching the user scene data includes:

first, modeling information is entered. The indoor three-dimensional data information of the house of the user is scanned and sent to the data processor, and after the information of household articles or building materials is obtained through the Internet, the information is submitted to the data server for storage so as to be modeled in three dimensions.

Second, the design preparation is simulated. After the user wears the intelligent wearing, after pressing a start key on the virtual terminal, the intelligent wearing networking start is controlled, whether the clicking, sliding and pressing functions of the touch screen of the virtual terminal are normal or not is tried, and different operations can be converted into digital information or not.

Thirdly, constructing a three-dimensional model: and seeing an indoor actual scene and a menu in the intelligent wearing, selecting a corresponding menu for operation by using a virtual terminal, capturing the indoor scene, continuously transmitting scene data to a data processor, and then completing the creation of the three-dimensional model by modeling software according to the three-dimensional information.

And fourthly, binding the three-dimensional model. After the three-dimensional model is bound with the actual scene position, the binding position points are intelligently worn in the three-dimensional model and the actual scene data, and when the position moves, the position points in the actual scene data are firstly matched, and then the corresponding position points in the three-dimensional model data are indexed.

Fifthly, a design scheme is customized. And selecting a favorite recommended decoration scheme by using the virtual terminal, coloring and rendering decoration resources on the three-dimensional model by using modeling software, and transmitting effect graph data back to the processor, and setting the material, color and size of each object to form a preliminary effect graph.

And sixthly, constructing a material model. When browsing commodity information, a user submits favorite commodity information to a decoration resource library, information retrieval and image recognition are carried out by using material analysis software, the commodity with useless information is removed, an effective model cannot be generated, and commodity capable of providing three-dimensional information is submitted to modeling software to construct a three-dimensional model.

Seventh, a first scheme is formed. When the user experience design effect reaches the expected result, a designer derives a design effect diagram and material information of types, sizes, numbers, colors and materials of building materials for the user from intelligent wearing to form a first design scheme.

During design, a designer scans an indoor real scene of a user house through a camera on a mobile phone, acquires indoor real three-dimensional data information of the user house, and sends the information to a data processor through an Internet of things gateway; the data processor constructs a space three-dimensional model according to the house indoor three-dimensional data information sent by the mobile phone and sends the space three-dimensional model to the data processor for storage through the gateway of the Internet of things; the intelligent wearing obtains the decoration scheme from the data server, renders the decoration scheme, displays the rendered scheme data, sends the rendered scheme data to the data server through the gateway of the Internet of things for storage, and directly transmits the rendered scheme data to the intelligent wearing display when the scheme is accessed again; after obtaining information of household articles or building materials through the mobile phone on the Internet, a user submits the information to a server for storage so as to prepare for three-dimensional modeling; after the user wears the intelligent wearing, the virtual terminal starts the intelligent wearing networking after sending a starting instruction to the intelligent wearing through the gateway of the internet of things after pressing a starting key on the virtual terminal.

When a user uses the virtual terminal, performing mixed operations of clicking, sliding and pressing on a touch screen of the virtual terminal; different operations are converted into digital information and transmitted to a data processor, and the virtual terminal executes corresponding operations according to the information worn by the intelligent user; the user sees indoor actual scene and menu in intelligent wearing, uses virtual terminal to select corresponding menu to operate, and the user moves indoors under system voice and screen text prompt to capture indoor scene, and scene data is continuously transmitted to the data processor to obtain three-dimensional information of the scene.

After the three-dimensional information is uploaded to the data processor, modeling software in the data processor is matched with the information of ' a plurality of recommended finishing schemes ' which are displayed by classifying according to styles, areas and budgets according to the uploaded three-dimensional information, models containing various finishing mainstream styles, popular colors and finishing features, building material models containing floors, wall bricks, paint, curtains, cables and other hard-wearing building materials, furniture home models containing tables, chairs, cabinets, sofas, beds and other soft-wearing furniture, application special effect scenes containing ambient light and daytime, night, overcast and sunny scenes, and main finishing stream styles of the main finishing modes of French romantic styles, modern fashion styles, european style palace styles, american and black design styles, new Chinese design styles, korean style small-east style design styles, southeast Asia design styles, mediter design styles and Bos style design styles ' in the resource database, the method comprises the steps of matching three models from romantic pink style, warm orange style, bright yellow style, neutral warm color style, dynamic green style, ocean blue style, mystery purple style and neutral cold color style of popular color systems, american country style, european classical style, modern front defense style, elegant sense style, new classical style, new Chinese style and decoration feature of new decoration art wind to create a series of three-dimensional models, screening three-dimensional models with ideal effects from the three-dimensional models, performing design effect rendering, setting by default materials, light rays and colors, and submitting the three-dimensional models to intelligent wearing display content; binding the three-dimensional model with the actual scene position, and changing display content along with the change of the movement of the user and the head elevation when the user moves indoors in intelligent wearing and the head elevation of the user is adjusted; always keeping the focus right in front of the face of the user, and simultaneously displaying the three-dimensional model of the view angle right in front of the face of the user; the intelligent wearing identifies binding point in the three-dimensional model and the actual scene data, when the focal position of the camera moves, the position point in the actual scene data is firstly matched, and then the corresponding position point in the three-dimensional model data is indexed, so that the follow-up of the display screen content in the intelligent wearing is realized;

when the three-dimensional model and the menu are seen on the inner display screen after the binding position is seen in intelligent wearing, a virtual terminal is used for selecting a corresponding menu for operation, a favorite recommended decoration scheme is selected by using the virtual terminal, modeling software in a data processor colors and renders decoration resources on the three-dimensional model, and after the coloring, effect diagram data are transmitted back to the intelligent wearing inner display screen, so that a preliminary effect diagram is displayed for a user; the user opens the decoration resource library in the data processor, and can set the material, color and size of each object in the special effect setting of the building material model, the furniture home model and the environment light application from the custom menu.

Accessing the furniture home commodity information service on the internet shopping platform through the virtual terminal, browsing commodity information, marking favorite commodity information, and finally submitting the commodity information selected by the user to a decoration resource library in the data processor; according to commodity information submitted by a user, the decoration resource library utilizes material analysis software to perform information retrieval and image recognition, eliminates commodities in which three-dimensional information cannot be provided, and informs the user that an effective model cannot be generated; for commodities capable of providing three-dimensional information, the material analysis software submits the three-dimensional information to the modeling software to construct a three-dimensional model.

The constructed three-dimensional model is stored in a decoration resource library of a data processor to be a decoration element model of a user, and the decoration element model is used for user-defined decoration design; after the user experience design, the effect reaches the user expectation, then a designer derives the type, the size, the number, the color and the material information of the building materials from the intelligent wearing through the 3D computer to form a first design scheme, obtains the design effect diagram and the material information of the building materials in the first design scheme, sends the design effect diagram and the material information of the building materials to the data processor, obtains a video of the first design scheme, and stores the video of the first design scheme in a personal database of a decoration resource database in the data processor to be checked.

The user informs the data processor through the virtual terminal to re-identify the indoor scene data of the user, screens the most matched design scheme from the data processor, obtains the second matched design scheme after the user approves the scene data, obtains the design effect diagram and the building material information in the second design scheme, and sends the design effect diagram and the building material information to the data processor to obtain a video of the second design scheme; then the first design scheme video is split into a plurality of standard images by an encoder, then the second design scheme video is split by the encoder to generate a plurality of comparison images, the comparison images and the standard images are compared one by one to obtain an optimal image, the optimal image is converted into an optimal video by the encoder, and the optimal video is sent to a data processor to obtain the optimal design scheme video.

And then, a designer exports the design scheme from the data processor to a 3D computer, converts the design scheme into a 2D plan, prints the 2D plan for a decoration team to construct, achieves the expected effect of the user after the completion of the decoration team is checked and accepted by the user, and sends the final design scheme and the effect to the data processor again to be stored as the reference of decoration design of other subsequent users, so that the design scheme is continuously used for a long time, and various recommended design schemes in the resource database are richer and more effective.

It will be evident to those skilled in the art that the application is not limited to the details of the foregoing illustrative embodiments, and that the present application may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the application being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Finally, it should be noted that the above embodiments are only for illustrating the technical solution of the present application and not for limiting the same, and although the present application has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications and equivalents may be made to the technical solution of the present application and are included in the scope of the present application.

Claims (9)

1. An interior decoration design system based on intelligent wearing technology includes: smart mobile phone, 3D computer, intelligence are dressed, virtual terminal, thing networking gateway, data processor, its characterized in that:

the intelligent mobile phone is responsible for collecting three-dimensional data information of indoor scenes of a user house and storing the three-dimensional data information into the data processor, and is connected with the data processor through the Internet of things;

the 3D computer is responsible for leading out material information of types, sizes, numbers, colors and materials of a plane effect graph and building materials designed for a user from intelligent wearing, and is connected with the data processor through the wireless network of the Internet of things;

the intelligent wearing comprises an intelligent helmet and intelligent glasses, and is used for displaying an original scene, a modeled scene, a decorative design scene and a menu and state interface appearing in interaction, and is connected with a data processor through an Internet of things wireless network;

the virtual terminal is responsible for the simulation design operation of a user and is connected with the intelligent wearable wireless network through the Internet of things;

the gateway of the Internet of things is responsible for wireless network connection with a smart phone, a 3D computer, an intelligent wearing, a virtual terminal and a data processor through the Internet of things, mutually transmits information and serves as a hub center of the system;

the data processor comprises a decoration resource library, modeling software, material software, a user information library and an encoder, can identify and match user information, and analyzes various material characteristics and three-dimensional modeling.

2. The interior decoration design system based on intelligent wearing technology as set forth in claim 1, wherein: the decoration repository stores a three-dimensional model that provides decoration elements for a user, comprising: models containing various main stream styles, popular color systems and decoration features of decoration, floors, wall bricks, paint, curtains, cables and other building material models for hard mounting, tables, chairs, cabinets, sofas, beds and other furniture home models for soft mounting, application special effect scenes containing ambient light and scenes of daytime, night, cloudy days and sunny days, and a plurality of recommended decoration schemes which are screened and displayed in a classified mode according to styles, areas and budgets.

3. The interior decoration design system based on intelligent wearing technology as set forth in claim 1, wherein: the modeling software is used for constructing a space three-dimensional model based on three-dimensional data.

4. The interior decoration design system based on intelligent wearing technology as set forth in claim 1, wherein: the material analysis software is used for analyzing three-dimensional data corresponding to the commodity based on commodity information provided by a third party network platform submitted by a user and providing basis for three-dimensional modeling.

5. The interior decoration design system based on intelligent wearing technology as set forth in claim 1, wherein: the user information base is responsible for indoor acquisition information, actual decoration schemes and effects before decoration of each user, and stores user information and design schemes.

6. The interior decoration design system based on intelligent wearing technology as set forth in claim 1, wherein: the encoder is responsible for the decomposition, combination and conversion of the stereoscopic image files.

7. The interior decoration design system based on intelligent wearing technology as set forth in claim 1, wherein: the 3D computer, the intelligent wearable virtual terminal and the data processor are all provided with an Internet of things module and are all connected with the Internet of things gateway through a wireless network.

8. The interior decoration design system based on the intelligent wearing technology as set forth in claim 2, wherein:

the main decoration style comprises French romantic style, modern fashion style, european style, american style, white and black design wind, new Chinese design wind, korean style, southeast Asia design wind, mediterranean design wind and Bos style design wind;

the popular color system comprises romantic pink style, warm orange style, bright yellow style, neutral warm color style, dynamic green style, ocean blue style, mystery purple style and neutral cold color style;

the decoration features comprise American style, european style classical style, modern front defense style, elegant style, new classical style, new Chinese style and new decoration artistic wind.

9. An interior decoration design method based on intelligent wearing technology is characterized in that: comprising the following steps:

1) The method comprises the steps of obtaining indoor scene data of a user and sending the indoor scene data to a data processor, and according to a first design scheme of matching the user scene data, comprising: firstly, inputting modeling information; secondly, preparing a simulation design; thirdly, constructing a three-dimensional model; fourthly, binding the three-dimensional model; fifthly, customizing a design scheme; sixthly, constructing a material model; seventh, forming a first scheme;

2) Acquiring a design effect diagram and building material information in a first design scheme, and transmitting the design effect diagram and the building material information to a data processor to acquire a video of the first design scheme;

3) The data processor re-recognizes the indoor scene data of the user and screens the most matched design scheme from the indoor scene data;

4) After the approval of the user is obtained, matching the second design scheme;

5) Acquiring a design effect diagram and building material information in the second design scheme, and sending the design effect diagram and the building material information to a data processor to acquire a video of the second design scheme;

6) Acquiring a video of a second scheme, and splitting the video into a plurality of standard images through an encoder;

7) Splitting the second video through an encoder to generate a plurality of comparison images;

8) Comparing the multiple comparison images with the standard images one by one to obtain an optimal image, converting the optimal image into an optimal video through an encoder, and then sending the optimal video to a data processor to obtain an optimal design scheme video;

9) And exporting the 3D scheme, converting the 3D scheme into a 2D map, and printing the 2D map to a decoration team for construction.