CN106485784B - Indoor design imaging processing method based on multi-terminal equipment data synchronization - Google Patents

Abstract

The invention provides an indoor design imaging processing method based on multi-terminal equipment data synchronization, which stores various indoor design element three-dimensional imaging models by constructing an imaging model database adapted to various different imaging media terminal system platforms, establishes a data conversion relation between house type three-dimensional models under various different imaging media terminal system platforms and between indoor design model calling parameters, and calls corresponding indoor design element three-dimensional imaging model resources from the imaging model database to perform visual processing to realize imaging by reading a group of house type three-dimensional models and indoor design model calling parameters in an indoor design model data set of corresponding house type indoor design schemes and adapted to the system platform of the used imaging media terminal when performing indoor design three-dimensional imaging display, thereby solving the problems of acceleration of increase of indoor design three-dimensional imaging model data of various different imaging media terminal system platforms, The modeling workload is large, the model data modification workflow is complicated, and the like.

Description

Indoor design imaging processing method based on multi-terminal equipment data synchronization

Technical Field

The invention relates to the technical field of indoor decoration design and computer three-dimensional model visualization imaging, in particular to an indoor design imaging processing method based on multi-terminal device data synchronization.

Background

With the improvement of the quality of life of people, the quality of indoor environment for life and work is gradually improved, so that the indoor decoration design of home and office places is concerned and paid more and more attention.

Traditional interior decoration designs all mainly stop on the paper design drawing, and interior designer designs layout, effect map etc. of interior decoration according to the house type condition of customer and customer's fitment demand are entrusted in interior design to promote the understanding of customer to the interior design condition and fitment effect, thereby can be better communicate with the customer and reach final house type interior design scheme.

With the rapid development of computer graphic modeling and three-dimensional imaging technologies, the form of displaying house type indoor design schemes through the modeled three-dimensional imaging technologies has been widely applied, so that customers can more intuitively know the house type indoor design conditions and decoration effects, and with the rise of new technologies such as Augmented Reality (abbreviated as AR) and Virtual Reality (abbreviated as VR), comprehensive indoor decoration design services combining paper design drawings, televisions, desktop computers, intelligent mobile terminal devices, Augmented Reality imaging devices, Virtual Reality imaging devices and the like, and combining three-dimensional imaging technologies have started to be popular, so that more diversified and omnibearing indoor decoration design preview experience is provided for the customers. For example, paper design drawings are used for discussing indoor decoration layout and initial design direction of house type with customers; indoor design three-dimensional imaging display based on a desktop computer end is used for communicating design effects with customers, and modification and adjustment of house type indoor design schemes are carried out; the indoor design three-dimensional imaging display based on the television terminal and the intelligent mobile terminal device is used for previewing and discussing the house type indoor design scheme between a client and family at home, or previewing sharing of the house type indoor design scheme between the client, family and friends; the indoor design three-dimensional imaging display based on the augmented reality imaging equipment is used for virtually presenting the house type indoor design scheme effect of each different area in the house type field environment by a customer, so that the customer can know the decoration effect and the defects in the house type indoor design scheme in the most intuitive mode, and timely modify the house type indoor design scheme; the indoor design three-dimensional imaging display based on the virtual reality imaging equipment can be used for virtually presenting the decoration effect of the final house type indoor design scheme to the user, and brings the user with the presence of the reality. Through the comprehensive interior decoration design services, the deep understanding of the customer on the interior design condition and the decoration effect can be better promoted, the customer can better participate in the interior design process, and the finally determined terminal type interior design scheme can really meet the interior decoration preference and the requirement of the customer.

However, if a plurality of different imaging media terminals are used to provide interior decoration design services in combination with a three-dimensional imaging technology, some technical disadvantages still exist at present. Because the system platforms of different imaging media terminals such as a television, a desktop computer, an intelligent mobile terminal device, an augmented reality imaging device, a virtual reality imaging device and the like which are operated at present are not completely unified, and mechanisms for respectively carrying out three-dimensional imaging processing are different under different system platforms, three-dimensional model data formats required by respective imaging of the different imaging media terminals are different, and the performance of the different imaging media terminals for carrying out data processing is different, the data processing performance of the desktop computer and the augmented reality imaging device is stronger, while the data processing performance of the television, the intelligent mobile terminal device and the virtual reality imaging device is relatively weaker, so that the imaging size, the model modeling complexity, the model data volume and the like of an indoor design three-dimensional model aiming at different imaging media terminal system platforms are different, the indoor design three-dimensional model can not be universally used on different imaging media terminal system platforms. In order to solve the problems, the simplest mode is that aiming at system platforms of different imaging media devices, house type three-dimensional imaging model combinations of object house type indoor design schemes are respectively established for storage, and when browsing is needed, the house type three-dimensional imaging model combinations of corresponding imaging system platforms are directly called for imaging display; however, such a method requires separate modeling of the house-type three-dimensional imaging model combination data for each system platform of the imaging media device, which results in a huge modeling workload, and each established house-type three-dimensional imaging model combination needs to occupy a large amount of storage space, which is not favorable for optimization management of system storage resources, with the increase of different customer house-type data, each house-type needs to establish and store corresponding indoor design three-dimensional imaging model data for different system platforms, which results in a double increase of the overall data volume, and is easy to cause rapid consumption of system storage resources, and since the modification of the house-type indoor design scheme is frequent in the indoor design process, once the house-type indoor design scheme is changed, the corresponding modification adjustment needs to be performed on the house-type three-dimensional imaging model combination data of each different imaging media terminal system platforms, the work flow of model data modification is tedious, time-consuming and labor-consuming.

Therefore, on the premise that the system platforms of a plurality of different imaging media terminals cannot be unified, how to solve a series of problems that the indoor design three-dimensional imaging model data of the system platforms of the plurality of different imaging media terminals is multiplied along with the increase of the data of the client house type, the modeling workload is large, the work flow of modifying the model data is complicated, and the like becomes a technical barrier which hinders the further development of the service level of the industry.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an indoor design imaging processing method based on multi-terminal equipment data synchronization, which realizes the sharing and synchronization of model data required by indoor design imaging aiming at system platforms of various imaging media terminals so as to solve the problems of multiple growth of indoor design three-dimensional imaging model data of various different imaging media terminal system platforms along with the increase of client house type data, large modeling workload, complicated model data modification working flow and the like.

In order to solve the technical problems and achieve the purpose of the invention, the technical scheme adopted by the invention is as follows:

an indoor design imaging processing method based on multi-terminal device data synchronization is used for providing indoor design three-dimensional imaging display service for imaging media terminals of various supported different system platforms, and specifically comprises the following steps:

A) respectively constructing indoor design element three-dimensional imaging models which are adaptive to different supported imaging media terminal system platforms in advance and storing the indoor design element three-dimensional imaging models in an imaging model database, and establishing data conversion relations between house type three-dimensional models and indoor design model calling parameters under the different supported imaging media terminal system platforms;

B) aiming at a house type indoor design scheme of an indoor design entrusted customer, establishing a house type three-dimensional model which is adapted to any one imaging media terminal system platform and a corresponding indoor design model calling parameter, then generating a house type three-dimensional model and a corresponding indoor design model calling parameter of a corresponding house type indoor design scheme which is adapted to other imaging media terminal system platforms through conversion processing according to data conversion relations between the house type three-dimensional models and the indoor design model calling parameters under different imaging media terminal system platforms, and forming an indoor design model data set of the corresponding house type indoor design scheme by each group of house type three-dimensional models and the corresponding indoor design model calling parameter of each imaging media terminal system platform;

C) when an imaging media terminal is adopted to carry out indoor design three-dimensional imaging display of a house type indoor design scheme, a group of house type three-dimensional models and indoor design model calling parameters which are matched with a system platform of a current imaging media terminal in an indoor design model data set of the corresponding house type indoor design scheme are read, corresponding indoor design element three-dimensional imaging models which are matched with the system platform of the current imaging media terminal in an imaging model database are called according to the read indoor design model calling parameters and loaded into the read house type three-dimensional models, the indoor design three-dimensional imaging is visualized, and then the indoor design three-dimensional imaging display aiming at the corresponding house type indoor design scheme is realized through the current imaging media terminal.

In the indoor design imaging processing method based on multi-terminal device data synchronization, specifically, in the step a), the built indoor design element three-dimensional imaging model adapted to each different imaging media terminal system platform includes a base material three-dimensional model and a furnishing three-dimensional model;

the specific construction mode of the substrate three-dimensional model is as follows: the method comprises the steps that substrate three-dimensional models which are adaptive to different imaging media terminal system platforms are respectively established for different interior decoration substrates, substrate color matching parameters which are used for indicating corresponding color matching or material imaging effects are respectively configured for the substrate three-dimensional models which are adaptive to the different imaging media terminal system platforms according to each color matching or material of the same type of interior decoration substrates, the substrate three-dimensional models which are adaptive to the different imaging media terminal system platforms of the same type of interior decoration substrates have the same substrate model identification codes, and the substrate color matching parameters which are configured in the different imaging media terminal system platforms of the same type of interior decoration substrates have the same substrate color matching parameter identification codes and are all stored in an imaging model database;

the specific construction mode of the three-dimensional model of the furnishing item is as follows: the three-dimensional models of the furnishing objects which are adaptive to different imaging media terminal system platforms are respectively established for different indoor furnishing objects, object color matching parameters which are used for indicating imaging effects of corresponding color matching or material materials are respectively configured for the three-dimensional models of the furnishing objects which are adaptive to different imaging media terminal system platforms according to each color matching or material of the same type of indoor furnishing object, the three-dimensional models of the furnishing objects which are adaptive to different imaging media terminal system platforms in the same type of indoor furnishing object have the same furnishing object model identification codes, and the object color matching parameters which are configured in different imaging media terminal system platforms by the same color matching or material of the same type of indoor furnishing object in the same type of indoor furnishing object have the same object color matching parameter identification codes which are stored in an imaging model database.

In the above indoor design imaging processing method based on multi-terminal device data synchronization, specifically, in step a), the established data conversion relationship between the house-type three-dimensional models under different imaging media terminal system platforms includes a three-dimensional data size conversion relationship of the house-type three-dimensional models under different imaging media terminal system platforms;

the indoor design model calling parameters comprise base material model calling parameters and furnishing article model calling parameters, the base material model calling parameters are used for recording base material model identification codes and base material color matching parameter identification codes of base material three-dimensional models to be called and layout position coordinates of corresponding base material three-dimensional models loaded into the household three-dimensional models, and the furnishing article model calling parameters are used for recording article model identification codes and article color matching parameter identification codes of the furnishing article three-dimensional models to be called and the layout position coordinates of corresponding furnishing article three-dimensional models loaded into the household three-dimensional models; the established data conversion relationship among the calling parameters of the indoor design models under different imaging media terminal system platforms comprises a layout position coordinate conversion relationship of loading the base material three-dimensional models under different imaging media terminal system platforms into the house type three-dimensional model and a layout position coordinate conversion relationship of loading the furnishing three-dimensional model into the house type three-dimensional model.

In the above indoor design imaging processing method based on multi-terminal device data synchronization, specifically, the step B) is specifically:

b1) aiming at the house type of an indoor design entrusted customer, establishing a house type three-dimensional model which is adapted to any imaging media terminal system platform, recording indoor design model calling parameters corresponding to the house type three-dimensional model according to the selection of indoor decoration base materials and indoor furnishing objects in a house type indoor design scheme of the indoor design entrusted customer and the arrangement condition of the indoor decoration base materials and the indoor furnishing objects in the house type indoor space, wherein the indoor design model calling parameters comprise base material model calling parameters and furnishing object model calling parameters, the recorded base material model calling parameters comprise base material model identification codes and base material color matching parameter identification codes of base material three-dimensional models corresponding to indoor decoration base materials selected in the house type indoor design scheme and arrangement position coordinates of the corresponding base material three-dimensional models loaded into the house type three-dimensional model, and the recorded furnishing object model calling parameters comprise indoor furnishing objects selected in the house type indoor design scheme The object model identification code and the object color matching parameter identification code of the corresponding three-dimensional object model and the layout position coordinates of each corresponding three-dimensional object model loaded into the household three-dimensional model are obtained, so that a group of household three-dimensional models and corresponding indoor design model calling parameters which are adapted to the imaging media terminal system platform are obtained;

b2) according to the three-dimensional data size conversion relation of the house type three-dimensional models under different imaging media terminal system platforms, three-dimensional data size conversion is carried out on the house type three-dimensional model under one established imaging media terminal system platform, and the house type three-dimensional models of indoor design entrusting customers are generated to be adapted to other house type three-dimensional models of the imaging media terminal system platforms;

b3) backing up each base material model identification code and base material color matching parameter identification code recorded in the indoor design model calling parameter under one imaging media terminal system platform, and each article model identification code and article color matching parameter identification code into the indoor design model calling parameter corresponding to the house type three-dimensional model of other imaging media terminal system platforms, then loading the layout orientation coordinate conversion relation of the base material three-dimensional model under each different imaging media terminal system platform into the house type three-dimensional model and the layout orientation coordinate conversion relation of the three-dimensional model of the display article into the house type three-dimensional model, and converting the layout orientation coordinate of each base material three-dimensional model loaded into the house type three-dimensional model and the layout orientation coordinate of each display article three-dimensional model loaded into the house type three-dimensional model recorded in the indoor design model calling parameter under one imaging media terminal system platform, respectively generating a layout position coordinate of each corresponding base material three-dimensional model loaded into the house type three-dimensional model under other different imaging media terminal system platforms and a layout position coordinate of each corresponding furnishing three-dimensional model loaded into the house type three-dimensional model, and correspondingly storing the layout position coordinates into indoor design model calling parameters corresponding to the house type three-dimensional models adapted to the other different imaging media terminal system platforms;

b4) and the house type indoor design scheme is adapted to each group of house type three-dimensional models of each imaging media terminal system platform and corresponding indoor design model calling parameters to form an indoor design model data set of the corresponding house type indoor design scheme.

In the above indoor design imaging processing method based on multi-terminal device data synchronization, specifically, the step C) specifically includes:

c1) when an imaging media terminal is adopted to carry out indoor design three-dimensional imaging display on a house type indoor design scheme, reading a group of house type three-dimensional models and indoor design model calling parameters which are in data set of indoor design models of the corresponding house type indoor design scheme and are matched with a system platform of the current imaging media terminal;

c2) according to the read base material model identification codes and base material color matching parameter identification codes recorded in the indoor design model calling parameters and the read article model identification codes and article color matching parameter identification codes, respectively calling corresponding base material three-dimensional models and base material color matching parameters of a system platform adaptive to the current imaging media terminal and corresponding three-dimensional models and article color matching parameters of displayed articles from an imaging model database, respectively carrying out color matching imaging processing on the called corresponding base material three-dimensional models according to the called base material color matching parameters, and respectively carrying out color matching imaging processing on the called corresponding three-dimensional models of displayed articles according to the called article color matching parameters;

c3) loading each base material three-dimensional model and the furnishing article three-dimensional model which are subjected to color matching imaging processing to the corresponding arrangement position coordinate position in the read household three-dimensional model according to the arrangement position coordinate of each base material three-dimensional model loaded into the household three-dimensional model and the arrangement position coordinate of each furnishing article three-dimensional model which are recorded in the read indoor design model calling parameter, and performing the visual processing of indoor design three-dimensional imaging to obtain indoor design three-dimensional imaging result data of the corresponding household indoor design scheme;

c4) and displaying the obtained indoor design three-dimensional imaging result data through the current imaging media terminal to realize indoor design three-dimensional imaging display aiming at the corresponding house type indoor design scheme.

In the above-mentioned indoor design imaging processing method based on multi-terminal device data synchronization, as a further improvement, in the step B), if the indoor design model data of the house type indoor design scheme is centrally adapted to the house type three-dimensional model of any one imaging media terminal system platform to be changed, the house type three-dimensional models of the corresponding house type indoor design scheme adapted to other imaging media terminal system platforms are regenerated through conversion processing according to the data conversion relationship between the house type three-dimensional models of the different imaging media terminal system platforms, and the house type three-dimensional models of the same indoor design model data centrally adapted to other imaging media terminal system platforms are updated.

As a further improvement, in the step B), if the indoor design model calling parameter under any one of the imaging media terminal system platforms in the indoor design model data set of the house type indoor design scheme is changed, the indoor design model calling parameter change variable is called for the indoor design model, according to the data conversion relationship between the indoor design model calling parameters under different imaging media terminal system platforms, the indoor design model calling parameter update variables under other imaging media terminal system platforms are generated through conversion processing, and the indoor design model calling parameters under other imaging media terminal system platforms in the same indoor design model data set are respectively subjected to data update.

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

1. the indoor design imaging processing method based on multi-terminal equipment data synchronization of the invention stores various indoor design element three-dimensional imaging models by constructing the imaging model database which is adapted to various different imaging media terminal system platforms, and creates an indoor design model data set adapted to each imaging media terminal system platform for the house type indoor design scheme, when the indoor design three-dimensional imaging display is executed, a group of house type three-dimensional models and indoor design model calling parameters which are matched with a system platform of a used imaging media terminal in an indoor design model data set of a corresponding house type indoor design scheme are read, corresponding indoor design element three-dimensional imaging model resources are called from an imaging model database to execute visual processing to realize imaging, and the problem that the indoor design three-dimensional imaging model data is multiplied along with the increase of the house type data is avoided;

2. in the indoor design imaging processing method based on multi-terminal device data synchronization of the invention, because the data conversion relations between the house type three-dimensional models and the calling parameters of the indoor design models under different imaging media terminal system platforms are simultaneously established, in creating and modifying the indoor design model data set for a residential indoor design, the data conversion relation can be directly synchronized to the whole indoor design model data set of the household type indoor design scheme only by establishing or modifying the household type three-dimensional model adapted to any imaging media terminal system platform and the corresponding indoor design model calling parameter, the method not only greatly simplifies the working process and reduces the workload, but also avoids the situation that the indoor design three-dimensional imaging display effect of the same house type indoor design scheme under different imaging media terminal system platforms is inconsistent.

3. In the indoor design imaging processing method based on multi-terminal equipment data synchronization, the data conversion processing between the house type three-dimensional models and the indoor design model calling parameters under different imaging media terminal system platforms can be controlled and executed by compiling a computer software program, is very easy to realize for technical personnel in the technical field of computer software, and is beneficial to the realization and popularization of the technology.

Drawings

Fig. 1 is a flow chart of an indoor design imaging processing method based on multi-terminal device data synchronization according to the present invention.

Detailed Description

The invention discloses an indoor design imaging processing method based on multi-terminal equipment data synchronization, which aims to provide indoor design three-dimensional imaging display service for imaging media terminals of various supported different system platforms, and the specific method steps and flow are shown in figure 1, and the method comprises the following steps:

A) and respectively constructing indoor design element three-dimensional imaging models which are adaptive to the supported different imaging media terminal system platforms in advance, storing the indoor design element three-dimensional imaging models in an imaging model database, and establishing data conversion relations between house type three-dimensional models and indoor design model calling parameters under the supported different imaging media terminal system platforms.

In the technical scheme of the invention, the supported multiple different imaging media terminals can be a television terminal, a desktop computer terminal, an intelligent mobile terminal device terminal, an augmented reality imaging device terminal, a virtual reality imaging device terminal and the like, and the imaging media terminals can be any imaging media terminals capable of executing three-dimensional imaging data processing and displaying.

In this step, the built indoor design element three-dimensional imaging model adapted to each different imaging media terminal system platform may include a substrate three-dimensional model and a furnishing three-dimensional model; the base material three-dimensional model is used for presenting the shape, color matching or material of base materials such as ceramic tiles, wood floors, wall surfaces (or wallpaper), suspended ceilings, door frames, window frames and the like; the three-dimensional model of the furnishing article is used for showing the shape, color matching or material of the furnishing article, a lamp, indoor fabric, decorative handicraft, calligraphy and painting, household appliances, bonsai, flower arrangement, hanging articles and the like. The specific construction mode of the substrate three-dimensional model is as follows: the method comprises the steps of establishing substrate three-dimensional models which are adaptive to different imaging media terminal system platforms respectively aiming at different indoor decoration substrates, respectively allocating substrate color matching parameters which are used for indicating corresponding color matching or material imaging effects to the substrate three-dimensional models which are adaptive to the different imaging media terminal system platforms respectively aiming at each color matching or material of the same type of indoor decoration substrates, wherein the substrate three-dimensional models which are adaptive to the different imaging media terminal system platforms of the same type of indoor decoration substrates have the same substrate model identification codes, and the substrate color matching parameters which are allocated in the different imaging media terminal system platforms of the same type of indoor decoration substrates of the same type of color matching or material have the same substrate color matching parameter identification codes which are stored in an imaging model database. The specific construction mode of the three-dimensional model of the furnishing item is as follows: the three-dimensional models of the furnishing objects which are adaptive to different imaging media terminal system platforms are respectively established for different indoor furnishing objects, object color matching parameters which are used for indicating imaging effects of corresponding color matching or material materials are respectively configured for the three-dimensional models of the furnishing objects which are adaptive to different imaging media terminal system platforms according to each color matching or material of the same type of indoor furnishing object, the three-dimensional models of the furnishing objects which are adaptive to different imaging media terminal system platforms in the same type of indoor furnishing object have the same furnishing object model identification codes, and the object color matching parameters which are configured in different imaging media terminal system platforms by the same color matching or material of the same type of indoor furnishing object in the same type of indoor furnishing object have the same object color matching parameter identification codes which are stored in an imaging model database.

Regarding the established data conversion relationship among the house type three-dimensional models under different imaging media terminal system platforms, considering the prior art background, the three-dimensional models adapted to different system platforms can be respectively adapted under different system platforms through format conversion after being established by common modeling software such as SolidWorks, Pro/E, UG, CATIA, 3DMAX, CAD and the like, and most application requirements of the house type three-dimensional models under different system platforms can be met only by adjusting the imaging size of the models, so that the data conversion relationship among the house type three-dimensional models under different imaging media terminal system platforms can only be designed to include the three-dimensional data size conversion relationship of the house type three-dimensional models under different imaging media terminal system platforms. Of course, under different application conditions, other parameter data transformation relations of more house-type three-dimensional models can be further designed according to needs, for example, a model data volume transformation relation of the house-type three-dimensional models under different imaging media terminal system platforms can be further increased, and the like.

Correspondingly, the indoor design model calling parameters comprise base material model calling parameters and furnishing article model calling parameters, wherein the base material model calling parameters are used for recording a base material model identification code and a base material color matching parameter identification code of a base material three-dimensional model to be called and layout position coordinates of the corresponding base material three-dimensional model loaded into the household type three-dimensional model, and the furnishing article model calling parameters are used for recording an article model identification code and an article color matching parameter identification code of the furnishing article three-dimensional model to be called and layout position coordinates of the corresponding furnishing article three-dimensional model loaded into the household type three-dimensional model; considering that in the indoor design element three-dimensional imaging models of different imaging media terminal system platforms in the imaging model database, the substrate three-dimensional models of the same type of indoor decoration substrate adapted to different imaging media terminal system platforms have the same substrate model identification code, the substrate color matching parameters of the same type of indoor decoration substrate configured in different imaging media terminal system platforms by the same color matching or material have the same substrate color matching parameter identification code, the three-dimensional models of the same type of indoor furnishing article adapted to different imaging media terminal system platforms have the same furnishing article model identification code, the article color matching parameters of the same type of indoor furnishing article configured in different imaging media terminal system platforms by the same color matching or material have the same article color matching parameter identification code, that is, the models with the same identity under different imaging media terminal system platforms, The parameters have the same identity identification code respectively, so that the connection between the model and the respective identity of the parameters is formed, but because the house type three-dimensional models under different imaging media terminal system platforms are different, the data conversion relationship between the indoor design model call parameters under different imaging media terminal system platforms is at least required to comprise the layout orientation coordinate conversion relationship of loading the base material three-dimensional models under different imaging media terminal system platforms into the house type three-dimensional models and the layout orientation coordinate conversion relationship of loading the furnishing three-dimensional models into the house type three-dimensional models.

B) Aiming at a house type indoor design scheme of an indoor design entrusted customer, a house type three-dimensional model which is adapted to any one imaging media terminal system platform and corresponding indoor design model calling parameters are established, then according to data conversion relations between the house type three-dimensional models under different imaging media terminal system platforms and between the indoor design model calling parameters, a house type three-dimensional model and corresponding indoor design model calling parameters of the corresponding house type indoor design scheme which is adapted to other imaging media terminal system platforms are generated through conversion processing, and the house type indoor design scheme is adapted to each group of house type three-dimensional models of each imaging media terminal system platform and the corresponding indoor design model calling parameters to form an indoor design model data set of the corresponding house type indoor design scheme.

On the premise that the construction of the indoor design element three-dimensional imaging model and the construction of the data conversion relationship between the house type three-dimensional models and between the indoor design model calling parameters under different imaging media terminal system platforms are completed through the step A), the specific processing flow of the step B) can be designed as follows:

b1) aiming at the house type of an indoor design entrusted customer, establishing a house type three-dimensional model which is adapted to any imaging media terminal system platform, recording indoor design model calling parameters corresponding to the house type three-dimensional model according to the selection of indoor decoration base materials and indoor furnishing objects in a house type indoor design scheme of the indoor design entrusted customer and the arrangement condition of the indoor decoration base materials and the indoor furnishing objects in the house type indoor space, wherein the indoor design model calling parameters comprise base material model calling parameters and furnishing object model calling parameters, the recorded base material model calling parameters comprise base material model identification codes and base material color matching parameter identification codes of base material three-dimensional models corresponding to indoor decoration base materials selected in the house type indoor design scheme and arrangement position coordinates of the corresponding base material three-dimensional models loaded into the house type three-dimensional model, and the recorded furnishing object model calling parameters comprise indoor furnishing objects selected in the house type indoor design scheme The object model identification code and the object color matching parameter identification code of the corresponding three-dimensional object model and the layout position coordinates of each corresponding three-dimensional object model loaded into the household three-dimensional model are obtained, so that a group of household three-dimensional models and corresponding indoor design model calling parameters which are adapted to the imaging media terminal system platform are obtained;

b2) according to the three-dimensional data size conversion relation of the house type three-dimensional models under different imaging media terminal system platforms, three-dimensional data size conversion is carried out on the house type three-dimensional model under one established imaging media terminal system platform, and the house type three-dimensional models of indoor design entrusting customers are generated to be adapted to other house type three-dimensional models of the imaging media terminal system platforms;

b3) backing up each base material model identification code and base material color matching parameter identification code recorded in the indoor design model calling parameter under one imaging media terminal system platform, and each article model identification code and article color matching parameter identification code into the indoor design model calling parameter corresponding to the house type three-dimensional model of other imaging media terminal system platforms, then loading the layout orientation coordinate conversion relation of the base material three-dimensional model under each different imaging media terminal system platform into the house type three-dimensional model and the layout orientation coordinate conversion relation of the three-dimensional model of the display article into the house type three-dimensional model, and converting the layout orientation coordinate of each base material three-dimensional model loaded into the house type three-dimensional model and the layout orientation coordinate of each display article three-dimensional model loaded into the house type three-dimensional model recorded in the indoor design model calling parameter under one imaging media terminal system platform, respectively generating a layout position coordinate of each corresponding base material three-dimensional model loaded into the house type three-dimensional model under other different imaging media terminal system platforms and a layout position coordinate of each corresponding furnishing three-dimensional model loaded into the house type three-dimensional model, and correspondingly storing the layout position coordinates into indoor design model calling parameters corresponding to the house type three-dimensional models adapted to the other different imaging media terminal system platforms;

b4) and the house type indoor design scheme is adapted to each group of house type three-dimensional models of each imaging media terminal system platform and corresponding indoor design model calling parameters to form an indoor design model data set of the corresponding house type indoor design scheme.

Therefore, aiming at each house type indoor design scheme of the indoor design entrusted customer, only the data conversion relationship between the house type three-dimensional models and the indoor design model calling parameters under different imaging media terminal system platforms is needed to be established, the house type three-dimensional models and the corresponding indoor design model calling parameters of other imaging media terminal system platforms are directly converted and generated to form the indoor design model data set of the corresponding house type indoor design scheme, thereby not only greatly reducing the workload, and the data synchronization between the house type three-dimensional models and the indoor design model calling parameters under different imaging media terminal system platforms is well realized by utilizing the data conversion relation.

In addition, in the step B), if the house type three-dimensional model needs to be changed due to the error of the house type measurement data, the temporary modification of the customer house type, and the like, the indoor design model data of the house type indoor design scheme is only required to be intensively adapted to the house type three-dimensional model of any one imaging media terminal system platform for changing, and then the corresponding house type indoor design scheme is regenerated to be adapted to the house type three-dimensional models of other imaging media terminal system platforms through conversion processing according to the data conversion relationship between the house type three-dimensional models of different imaging media terminal system platforms, so that the data of the house type three-dimensional model intensively adapted to other imaging media terminal system platforms in the same indoor design model data can be updated.

Accordingly, in the step B), if the arrangement of the base material is changed due to the decoration of tiles, wall surfaces and the like in the design plan of the house type of the customer, or the style and layout of furniture, electrical and the like are adjusted, the calling parameters of the indoor design model need to be changed, only the calling parameters of the indoor design model under any imaging media terminal system platform in the indoor design model data set of the house type indoor design scheme are changed, then the parameter change variables are called according to the indoor design model, according to the data conversion relation among the indoor design model calling parameters under different imaging media terminal system platforms, generating indoor design model calling parameter updating variables under other imaging media terminal system platforms through conversion processing, the indoor design model calling parameters under other imaging media terminal system platforms in the same indoor design model data set can be respectively updated. The specific execution mode for carrying out the indoor design model calling parameter modification is to modify the indoor design model calling parameter under any imaging media terminal system platform, regard the modified indoor design model calling parameter as a group of new indoor design model calling parameters under one imaging media terminal system platform established, then respectively generate the indoor design model calling parameters corresponding to the house type three-dimensional models of other imaging media terminal system platforms in the same indoor design model data set according to the step b3, thereby respectively carrying out data updating on the indoor design model calling parameters under other imaging media terminal system platforms in the same indoor design model data set.

Therefore, when house type data or house type indoor design schemes are modified, only modification processing needs to be executed under one imaging media terminal system platform, the data can be converted and synchronized into data under other imaging media terminal system platforms, the modification work flow of model data is greatly simplified, and the situation that indoor design three-dimensional imaging display effects of the same house type indoor design scheme under different imaging media terminal system platforms are inconsistent after modification is avoided.

C) When an imaging media terminal is adopted to carry out indoor design three-dimensional imaging display of a house type indoor design scheme, a group of house type three-dimensional models and indoor design model calling parameters which are matched with a system platform of a current imaging media terminal in an indoor design model data set of the corresponding house type indoor design scheme are read, corresponding indoor design element three-dimensional imaging models which are matched with the system platform of the current imaging media terminal in an imaging model database are called according to the read indoor design model calling parameters and loaded into the read house type three-dimensional models, the indoor design three-dimensional imaging is visualized, and then the indoor design three-dimensional imaging display aiming at the corresponding house type indoor design scheme is realized through the current imaging media terminal.

On the premise that the indoor design model data set of the house type indoor design scheme is created through the step B), the specific processing flow of the step C) can be designed as follows:

c1) when an imaging media terminal is adopted to carry out indoor design three-dimensional imaging display on a house type indoor design scheme, reading a group of house type three-dimensional models and indoor design model calling parameters which are in data set of indoor design models of the corresponding house type indoor design scheme and are matched with a system platform of the current imaging media terminal;

c2) according to the read base material model identification codes and base material color matching parameter identification codes recorded in the indoor design model calling parameters and the read article model identification codes and article color matching parameter identification codes, respectively calling corresponding base material three-dimensional models and base material color matching parameters of a system platform adaptive to the current imaging media terminal and corresponding three-dimensional models and article color matching parameters of displayed articles from an imaging model database, respectively carrying out color matching imaging processing on the called corresponding base material three-dimensional models according to the called base material color matching parameters, and respectively carrying out color matching imaging processing on the called corresponding three-dimensional models of displayed articles according to the called article color matching parameters;

c3) loading each base material three-dimensional model and the furnishing article three-dimensional model which are subjected to color matching imaging processing to the corresponding arrangement position coordinate position in the read household three-dimensional model according to the arrangement position coordinate of each base material three-dimensional model loaded into the household three-dimensional model and the arrangement position coordinate of each furnishing article three-dimensional model which are recorded in the read indoor design model calling parameter, and performing the visual processing of indoor design three-dimensional imaging to obtain indoor design three-dimensional imaging result data of the corresponding household indoor design scheme;

c4) and displaying the obtained indoor design three-dimensional imaging result data through the current imaging media terminal to realize indoor design three-dimensional imaging display aiming at the corresponding house type indoor design scheme.

The advantage of executing the indoor design three-dimensional imaging display in the above manner is that, because it does not depend on the house type three-dimensional imaging model combination which is modeled to execute the indoor design three-dimensional imaging display, after reading a set of house type three-dimensional models and indoor design model calling parameters which are in the indoor design model data set of the house type indoor design scheme and are adapted to the system platform of the current imaging media terminal, the indoor design element three-dimensional imaging model is called from the imaging model database and loaded into the read house type three-dimensional model to form temporary house type three-dimensional imaging model combination data (of course, temporary storage of data is required depending on the device cache), then the indoor design three-dimensional imaging display is realized by executing visualization processing (such as imaging of the model, rendering processing of colored light, and the like), and the temporary house type three-dimensional imaging model combination data can be deleted (i.e. temporary storage thereof is released) after the three-dimensional imaging display is stopped The occupation of the equipment cache region), thereby realizing the model resource sharing of different imaging media terminals and different house type indoor design schemes for the imaging model database, and avoiding the problem that the indoor design three-dimensional imaging model data is multiplied along with the increase of the customer house type data. Moreover, because the indoor design model data set of the house type indoor design scheme is created through the step B), the relevance and the synchronism between the house type three-dimensional models of the same house type indoor design scheme under different imaging media terminal system platforms and between the indoor design model calling parameters are ensured, and therefore, the same indoor design scheme presenting effect can be obtained when the imaging media terminal of any system platform reads the indoor design model data set of the same house type indoor design scheme to execute indoor design three-dimensional imaging display.

In conclusion, it can be seen that, the indoor design imaging processing method based on multi-terminal device data synchronization of the present invention, by constructing an imaging model database which is suitable for a plurality of different imaging media terminal system platforms and storing various indoor design element three-dimensional imaging models, and creates an indoor design model data set adapted to each imaging media terminal system platform for the house type indoor design scheme, when the indoor design three-dimensional imaging display is executed, a group of house type three-dimensional models and indoor design model calling parameters which are matched with a system platform of a used imaging media terminal in an indoor design model data set of a corresponding house type indoor design scheme are read, corresponding indoor design element three-dimensional imaging model resources are called from an imaging model database to execute visual processing to realize imaging, and the problem that the indoor design three-dimensional imaging model data is multiplied along with the increase of the house type data is avoided; in addition, because the data conversion relations between the house type three-dimensional models and the indoor design model calling parameters under different imaging media terminal system platforms are simultaneously established, in the process of establishing and modifying the indoor design model data set of the house type indoor design scheme, the data conversion relation can be directly synchronized to the whole indoor design model data set of the house type indoor design scheme by only aiming at the house type three-dimensional model adaptive to any one imaging media terminal system platform and the corresponding indoor design model calling parameters, so that the working flow is greatly simplified, the workload is reduced, and the condition that the indoor design three-dimensional imaging display effects of the same house type indoor design scheme under different imaging media terminal system platforms are inconsistent is avoided; in addition, in the indoor design imaging processing method based on multi-terminal device data synchronization, the data conversion processing between the house type three-dimensional models and the indoor design model calling parameters under different imaging media terminal system platforms can be controlled and executed by compiling a computer software program, is very easy to realize for technical personnel in the technical field of computer software, and is beneficial to the realization and popularization of the technology.

Finally, the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made to the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, and all of them should be covered in the claims of the present invention.

Claims (3)

1. The indoor design imaging processing method based on multi-terminal equipment data synchronization is characterized by being used for providing indoor design three-dimensional imaging display service for imaging media terminals of various supported different system platforms, and specifically comprising the following steps:

A) respectively constructing indoor design element three-dimensional imaging models which are adaptive to different supported imaging media terminal system platforms in advance and storing the indoor design element three-dimensional imaging models in an imaging model database, and establishing data conversion relations between house type three-dimensional models and indoor design model calling parameters under the different supported imaging media terminal system platforms;

the indoor design element three-dimensional imaging model which is constructed and adapted to different imaging media terminal system platforms comprises a base material three-dimensional model and a furnishing object three-dimensional model; the specific construction mode of the substrate three-dimensional model is as follows: the method comprises the steps that substrate three-dimensional models which are adaptive to different imaging media terminal system platforms are respectively established for different interior decoration substrates, substrate color matching parameters which are used for indicating corresponding color matching or material imaging effects are respectively configured for the substrate three-dimensional models which are adaptive to the different imaging media terminal system platforms according to each color matching or material of the same type of interior decoration substrates, the substrate three-dimensional models which are adaptive to the different imaging media terminal system platforms of the same type of interior decoration substrates have the same substrate model identification codes, and the substrate color matching parameters which are configured in the different imaging media terminal system platforms of the same type of interior decoration substrates have the same substrate color matching parameter identification codes and are all stored in an imaging model database; the specific construction mode of the three-dimensional model of the furnishing item is as follows: the three-dimensional models of the furnishing objects which are adapted to different imaging media terminal system platforms are respectively established for different indoor furnishing objects, object color matching parameters which are used for indicating imaging effects of corresponding color matching or material materials are respectively configured for the three-dimensional models of the furnishing objects which are adapted to different imaging media terminal system platforms for the same type of indoor furnishing objects, the three-dimensional models of the furnishing objects which are adapted to different imaging media terminal system platforms of the same type of indoor furnishing objects have the same furnishing object model identification codes, and the object color matching parameters which are configured in different imaging media terminal system platforms for the same type of indoor furnishing objects have the same object color matching parameter identification codes and are all stored in an imaging model database;

the established data conversion relationship among the house type three-dimensional models under different imaging media terminal system platforms comprises the three-dimensional data size conversion relationship of the house type three-dimensional models under the different imaging media terminal system platforms; the indoor design model calling parameters comprise base material model calling parameters and furnishing article model calling parameters, the base material model calling parameters are used for recording base material model identification codes and base material color matching parameter identification codes of base material three-dimensional models to be called and layout position coordinates of corresponding base material three-dimensional models loaded into the household three-dimensional models, and the furnishing article model calling parameters are used for recording article model identification codes and article color matching parameter identification codes of the furnishing article three-dimensional models to be called and the layout position coordinates of corresponding furnishing article three-dimensional models loaded into the household three-dimensional models; the established data conversion relationship among the calling parameters of the indoor design models under different imaging media terminal system platforms comprises a layout position coordinate conversion relationship of loading the base material three-dimensional models under different imaging media terminal system platforms into the house type three-dimensional model and a layout position coordinate conversion relationship of loading the furnishing three-dimensional model into the house type three-dimensional model;

B) aiming at a house type indoor design scheme of an indoor design entrusted customer, establishing a house type three-dimensional model which is adapted to any one imaging media terminal system platform and a corresponding indoor design model calling parameter, then generating a house type three-dimensional model and a corresponding indoor design model calling parameter of a corresponding house type indoor design scheme which is adapted to other imaging media terminal system platforms through conversion processing according to data conversion relations between the house type three-dimensional models and the indoor design model calling parameters under different imaging media terminal system platforms, and forming an indoor design model data set of the corresponding house type indoor design scheme by each group of house type three-dimensional models and the corresponding indoor design model calling parameter of each imaging media terminal system platform; in the step, if the indoor design model data of the house type indoor design scheme is intensively adapted to the house type three-dimensional model of any one imaging media terminal system platform to be changed, the corresponding house type indoor design scheme is regenerated to be adapted to the house type three-dimensional models of other imaging media terminal system platforms through conversion processing according to the data conversion relation between the house type three-dimensional models of different imaging media terminal system platforms, and the data of the house type three-dimensional models of the same indoor design model data intensively adapted to other imaging media terminal system platforms are updated; the method comprises the following steps:

b1) aiming at the house type of an indoor design entrusted customer, establishing a house type three-dimensional model which is adapted to any imaging media terminal system platform, recording indoor design model calling parameters corresponding to the house type three-dimensional model according to the selection of indoor decoration base materials and indoor furnishing objects in a house type indoor design scheme of the indoor design entrusted customer and the arrangement condition of the indoor decoration base materials and the indoor furnishing objects in the house type indoor space, wherein the indoor design model calling parameters comprise base material model calling parameters and furnishing object model calling parameters, the recorded base material model calling parameters comprise base material model identification codes and base material color matching parameter identification codes of base material three-dimensional models corresponding to indoor decoration base materials selected in the house type indoor design scheme and arrangement position coordinates of the corresponding base material three-dimensional models loaded into the house type three-dimensional model, and the recorded furnishing object model calling parameters comprise indoor furnishing objects selected in the house type indoor design scheme The object model identification code and the object color matching parameter identification code of the corresponding three-dimensional object model and the layout position coordinates of each corresponding three-dimensional object model loaded into the household three-dimensional model are obtained, so that a group of household three-dimensional models and corresponding indoor design model calling parameters which are adapted to the imaging media terminal system platform are obtained;

b2) according to the three-dimensional data size conversion relation of the house type three-dimensional models under different imaging media terminal system platforms, three-dimensional data size conversion is carried out on the house type three-dimensional model under one established imaging media terminal system platform, and the house type three-dimensional models of indoor design entrusting customers are generated to be adapted to other house type three-dimensional models of the imaging media terminal system platforms;

b3) backing up each base material model identification code and base material color matching parameter identification code recorded in the indoor design model calling parameter under one imaging media terminal system platform, and each article model identification code and article color matching parameter identification code into the indoor design model calling parameter corresponding to the house type three-dimensional model of other imaging media terminal system platforms, then loading the layout orientation coordinate conversion relation of the base material three-dimensional model under each different imaging media terminal system platform into the house type three-dimensional model and the layout orientation coordinate conversion relation of the three-dimensional model of the display article into the house type three-dimensional model, and converting the layout orientation coordinate of each base material three-dimensional model loaded into the house type three-dimensional model and the layout orientation coordinate of each display article three-dimensional model loaded into the house type three-dimensional model recorded in the indoor design model calling parameter under one imaging media terminal system platform, respectively generating a layout position coordinate of each corresponding base material three-dimensional model loaded into the house type three-dimensional model under other different imaging media terminal system platforms and a layout position coordinate of each corresponding furnishing three-dimensional model loaded into the house type three-dimensional model, and correspondingly storing the layout position coordinates into indoor design model calling parameters corresponding to the house type three-dimensional models adapted to the other different imaging media terminal system platforms;

b4) the house type indoor design scheme is adapted to each group of house type three-dimensional models of each imaging media terminal system platform and corresponding indoor design model calling parameters to form an indoor design model data set of the corresponding house type indoor design scheme;

C) when an imaging media terminal is adopted to carry out indoor design three-dimensional imaging display of a house type indoor design scheme, a group of house type three-dimensional models and indoor design model calling parameters which are matched with a system platform of a current imaging media terminal in an indoor design model data set of the corresponding house type indoor design scheme are read, corresponding indoor design element three-dimensional imaging models which are matched with the system platform of the current imaging media terminal in an imaging model database are called according to the read indoor design model calling parameters and loaded into the read house type three-dimensional models, the indoor design three-dimensional imaging is visualized, and then the indoor design three-dimensional imaging display aiming at the corresponding house type indoor design scheme is realized through the current imaging media terminal.

2. The indoor design imaging processing method based on multi-terminal device data synchronization according to claim 1, wherein the step C) is specifically:

c1) when an imaging media terminal is adopted to carry out indoor design three-dimensional imaging display on a house type indoor design scheme, reading a group of house type three-dimensional models and indoor design model calling parameters which are in data set of indoor design models of the corresponding house type indoor design scheme and are matched with a system platform of the current imaging media terminal;

c2) according to the read base material model identification codes and base material color matching parameter identification codes recorded in the indoor design model calling parameters and the read article model identification codes and article color matching parameter identification codes, respectively calling corresponding base material three-dimensional models and base material color matching parameters of a system platform adaptive to the current imaging media terminal and corresponding three-dimensional models and article color matching parameters of displayed articles from an imaging model database, respectively carrying out color matching imaging processing on the called corresponding base material three-dimensional models according to the called base material color matching parameters, and respectively carrying out color matching imaging processing on the called corresponding three-dimensional models of displayed articles according to the called article color matching parameters;

c3) loading each base material three-dimensional model and the furnishing article three-dimensional model which are subjected to color matching imaging processing to the corresponding arrangement position coordinate position in the read household three-dimensional model according to the arrangement position coordinate of each base material three-dimensional model loaded into the household three-dimensional model and the arrangement position coordinate of each furnishing article three-dimensional model which are recorded in the read indoor design model calling parameter, and performing the visual processing of indoor design three-dimensional imaging to obtain indoor design three-dimensional imaging result data of the corresponding household indoor design scheme;

c4) and displaying the obtained indoor design three-dimensional imaging result data through the current imaging media terminal to realize indoor design three-dimensional imaging display aiming at the corresponding house type indoor design scheme.

3. The indoor design imaging processing method based on multi-terminal device data synchronization of claim 1, wherein in the step B), if the indoor design model calling parameter under any one of the imaging media terminal system platforms in the indoor design model data set of the house type indoor design scheme is changed, the indoor design model calling parameter change variable is called for the indoor design model, according to the data conversion relationship between the indoor design model calling parameters under different imaging media terminal system platforms, the indoor design model calling parameter update variables under other imaging media terminal system platforms are generated through conversion processing, and the indoor design model calling parameters under other imaging media terminal system platforms in the same indoor design model data set are respectively subjected to data update.

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