CN113284257A - Modularized generation and display method and system for virtual scene content - Google Patents

Abstract

The invention discloses a method and a system for modularly generating and displaying virtual scene contents, wherein the method comprises the following steps: acquiring a first virtual scene, first scene content information and first content element information; acquiring a preset module database; inputting the first virtual scene, the first virtual object and the preset module database into a first recognition model to obtain a first virtual scene module; obtaining a matching module set according to the first virtual scene module, the first scene content information and the preset module database; inputting the first element and the matching module set into a second recognition model, and so on to obtain multiple matching modules and further obtain a first scene combination module; according to the first scene combination module, the first display information is obtained, and the technical problems that in the prior art, the response threshold value of the virtual scene display process is not rapid enough, and the display optimization method aiming at different requirements is not perfect enough, so that the display effect is influenced are solved.

Description

Modularized generation and display method and system for virtual scene content

Technical Field

The invention relates to the field related to virtual scene display, in particular to a method and a system for modularly generating and displaying virtual scene contents.

Background

In recent years, a virtual scene display system established by means of virtual simulation and man-machine interaction technology can vividly simulate the operation process, and compared with traditional real object real scene teaching and pure real object training, the display of the virtual scene has the advantage of highly vivid environment display, so that students can obtain vivid and visual perceptual knowledge. Because the virtual reality technology is an important direction of the simulation technology, the virtual reality technology is a three-dimensional vivid image which is generated based on a computer and is dynamic in real time, and is widely applied to various fields based on the special performance of a virtual scene.

However, in the process of implementing the technical solution of the invention in the embodiments of the present application, the inventors of the present application find that the above-mentioned technology has at least the following technical problems:

in the prior art, the response threshold of the virtual scene display process is not rapid enough, and the display optimization method aiming at different requirements is not perfect enough, so that the display effect is influenced.

Disclosure of Invention

The embodiment of the application provides a method and a system for modularly generating and displaying virtual scene content, solves the technical problems that in the prior art, the reaction threshold value is not rapid enough in the virtual scene displaying process, and the displaying optimization method aiming at different requirements is not perfect enough, so that the displaying effect is influenced, achieves the technical effects of modularized content matching based on virtual scenes and objects, shortens the time threshold value for establishing virtual displaying, and completes the adjustment and optimization of modules so as to improve the displaying effect.

In view of the foregoing problems, embodiments of the present application provide a method and a system for modularly generating and displaying virtual scene content.

In a first aspect, an embodiment of the present application provides a method for modularly generating and displaying virtual scene content, where the method includes: obtaining a first virtual scene, the first virtual scene comprising a first virtual object; obtaining first scene content information, wherein the scene content information comprises virtual interaction information executed on the first virtual object; obtaining first content element information according to the first scene content information, wherein the first content element information comprises a first element, a second element and an nth element, and N is a natural number not less than 2; obtaining a preset module database, wherein the preset module database comprises a plurality of virtual scene building modules, and each virtual scene building module comprises unique identification feature information; inputting the first virtual scene, the first virtual object and the preset module database into a first recognition model to obtain a first virtual scene module; obtaining a matching module set according to the first virtual scene module, the first scene content information and the preset module database; inputting the first element and the matching module set into a second recognition model to obtain a first matching module; inputting the second elements, the up to Nth elements and the matching module set into the second recognition model respectively to obtain a second matching module and the up to Nth matching module; obtaining a first scene combination module according to the first matching module, the second matching module and the Nth matching module; and obtaining first display information according to the first scene combination module and the first virtual scene module.

In another aspect, the present application further provides a system for generating and displaying a virtual scene content in a modularized manner, where the system includes: a first obtaining unit configured to obtain a first virtual scene, the first virtual scene including a first virtual object; a second obtaining unit, configured to obtain first scene content information, where the scene content information includes virtual interaction information performed on the first virtual object; a third obtaining unit configured to obtain first content element information including a first element, a second element, and up to an nth element, where N is a natural number not less than 2, according to the first scene content information; a fourth obtaining unit, configured to obtain a preset module database, where the preset module database includes multiple virtual scene building modules, and each virtual scene building module includes unique identification feature information; a first input unit, configured to input the first virtual scene, the first virtual object, and the preset module database into a first recognition model, so as to obtain a first virtual scene module; a fifth obtaining unit, configured to obtain a matching module set according to the first virtual scene module, the first scene content information, and the preset module database; a sixth obtaining unit, configured to input the first element and the matching module set into a second recognition model to obtain a first matching module; a second input unit, configured to input the second element, the up to nth element, and the matching module set into the second recognition model, so as to obtain a second matching module, up to nth matching module; a seventh obtaining unit, configured to obtain a first scene combination module according to the first matching module, the second matching module, and up to an nth matching module; an eighth obtaining unit, configured to obtain first display information according to the first scene combination module and the first virtual scene module.

In a third aspect, the present invention provides a system for modularly generating and presenting virtual scene content, including a memory, a processor, and a computer program stored on the memory and executable on the processor, wherein the processor implements the steps of the method of the first aspect when executing the program.

One or more technical solutions provided in the embodiments of the present application have at least the following technical effects or advantages:

because the method adopts the steps of constructing a first virtual scene, obtaining virtual interaction information executed by a first virtual object in the virtual scene, generating first scene content information, further obtaining a plurality of content element information from a first element, a second element to an N element according to the first scene content information, further obtaining a preset module database comprising a plurality of virtual scene constructing modules, wherein the virtual scene constructing modules have unique identification characteristic information, further identifying a strict virtual scene, the virtual object and the preset module database to obtain a corresponding virtual scene module, further obtaining a matching module set according to the virtual scene module, the scene content and the preset module database generated by identification, performing content matching according to the N elements to obtain a corresponding matching module, further obtaining a first scene combination module, and finally generating corresponding display information from the scene combination module and the virtual scene module, the display module generation mode is established, the modularized content matching based on the virtual scene and the object is achieved, the time threshold for establishing the virtual display is shortened, the adjustment and optimization of the module are completed, and the technical effect of improving the display effect is further achieved.

The foregoing description is only an overview of the technical solutions of the present application, and the present application can be implemented according to the content of the description in order to make the technical means of the present application more clearly understood, and the following detailed description of the present application is given in order to make the above and other objects, features, and advantages of the present application more clearly understandable.

Drawings

Fig. 1 is a schematic flowchart illustrating a method for modularly generating and displaying virtual scene content according to an embodiment of the present disclosure;

fig. 2 is a schematic structural diagram of a system for generating and displaying a virtual scene content in a modularized manner according to an embodiment of the present disclosure;

fig. 3 is a schematic structural diagram of an exemplary electronic device according to an embodiment of the present application.

Description of reference numerals: a first obtaining unit 11, a second obtaining unit 12, a third obtaining unit 13, a fourth obtaining unit 14, a first input unit 15, a fifth obtaining unit 16, a sixth obtaining unit 17, a second input unit 18, a seventh obtaining unit 19, an eighth obtaining unit 20, a bus 300, a receiver 301, a processor 302, a transmitter 303, a memory 304, and a bus interface 305.

Detailed Description

The embodiment of the application provides a method and a system for modularly generating and displaying virtual scene content, solves the technical problems that in the prior art, the reaction threshold value is not rapid enough in the virtual scene displaying process, and the displaying optimization method aiming at different requirements is not perfect enough, so that the displaying effect is influenced, achieves the technical effects of modularized content matching based on virtual scenes and objects, shortens the time threshold value for establishing virtual displaying, and completes the adjustment and optimization of modules so as to improve the displaying effect. Hereinafter, example embodiments according to the present application will be described in detail with reference to the accompanying drawings. It should be apparent that the described embodiments are merely some embodiments of the present application and not all embodiments of the present application, and it should be understood that the present application is not limited to the example embodiments described herein.

Summary of the application

In recent years, a virtual scene display system established by means of virtual simulation and man-machine interaction technology can vividly simulate the operation process, and compared with traditional real object real scene teaching and pure real object training, the display of the virtual scene has the advantage of highly vivid environment display, so that students can obtain vivid and visual perceptual knowledge. Because the virtual reality technology is an important direction of the simulation technology, the virtual reality technology is a three-dimensional vivid image which is generated based on a computer and is dynamic in real time, and is widely applied to various fields based on the special performance of a virtual scene. However, in the prior art, the response threshold of the virtual scene display process is not rapid enough, and the display optimization method aiming at different requirements is not perfect enough, so that the display effect is influenced.

In view of the above technical problems, the technical solution provided by the present application has the following general idea:

the embodiment of the application provides a method for modularly generating and displaying virtual scene content, wherein the method comprises the following steps: obtaining a first virtual scene, the first virtual scene comprising a first virtual object; obtaining first scene content information, wherein the scene content information comprises virtual interaction information executed on the first virtual object; obtaining first content element information according to the first scene content information, wherein the first content element information comprises a first element, a second element and an nth element, and N is a natural number not less than 2; obtaining a preset module database, wherein the preset module database comprises a plurality of virtual scene building modules, and each virtual scene building module comprises unique identification feature information; inputting the first virtual scene, the first virtual object and the preset module database into a first recognition model to obtain a first virtual scene module; obtaining a matching module set according to the first virtual scene module, the first scene content information and the preset module database; inputting the first element and the matching module set into a second recognition model to obtain a first matching module; inputting the second elements, the up to Nth elements and the matching module set into the second recognition model respectively to obtain a second matching module and the up to Nth matching module; obtaining a first scene combination module according to the first matching module, the second matching module and the Nth matching module; and obtaining first display information according to the first scene combination module and the first virtual scene module.

Having thus described the general principles of the present application, various non-limiting embodiments thereof will now be described in detail with reference to the accompanying drawings.

Example one

As shown in fig. 1, an embodiment of the present application provides a method for modularly generating and displaying virtual scene content, where the method includes:

step S100: obtaining a first virtual scene, the first virtual scene comprising a first virtual object;

step S200: obtaining first scene content information, wherein the scene content information comprises virtual interaction information executed on the first virtual object;

in particular, the first virtual scene is a corresponding virtual scene when generated based on the virtual scene, such as a real estate virtual scene including a first virtual object, therefore, scene content information in the first virtual scene is constructed by collecting the virtual interaction information of the first virtual object, and further, the interaction mode and the like are known when the first scene content information is obtained, so that an essential operation mode is provided for the building module later, wherein, in the process of obtaining the first virtual scene, information about the scene needs to be collected for model making, the specific content of data acquisition comprises acquisition and display of corresponding photos, which is convenient for comparison with real objects when the model is built, so as to arrange data of all directions and angles, and modeling is further completed, so that the technical effects of really constructing a virtual scene and improving the display accuracy and the reality degree are achieved.

Step S300: obtaining first content element information according to the first scene content information, wherein the first content element information comprises a first element, a second element and an nth element, and N is a natural number not less than 2;

specifically, corresponding content element information is obtained according to the first scene content information, for example, in a process of performing related display of real estate, the content of a display object includes a plurality of element information, and each element information of houses, greenery, lights, fountains, and the like, wherein the content elements in the first scene content information may be analyzed according to a specific display object to determine a specific element number, specifically, the specific number of the elements is 2 or more than 2, so that the division of the content elements has usability, thereby dividing a complex scene in a virtual environment, thereby providing content information for subsequent scene module matching, increasing the rate of modularization matching, and reducing the response time.

Step S400: obtaining a preset module database, wherein the preset module database comprises a plurality of virtual scene building modules, and each virtual scene building module comprises unique identification feature information;

specifically, the preset module database is a module constructed by a plurality of virtual scenes, that is, the preset module database includes a plurality of virtual scene construction modules for product display, including a first virtual scene construction module, a second virtual scene construction module, and the like, and in order to better call and manage the virtual scenes, each of the scenes is provided with a unique identification feature for effective management of the multiple scenes, wherein the unique identification feature is set so as to represent characteristics of the virtual scene itself and not to coincide with characteristics of other virtual scenes, further, each of the scenes in the virtual scene construction module needs to be constructed by collecting modeling data of itself, and therefore, the scene construction module may include a deletion module, and a deletion module, And updating, adding and other operation means, thereby achieving the characteristic management of a plurality of virtual scene building modules.

Step S500: inputting the first virtual scene, the first virtual object and the preset module database into a first recognition model to obtain a first virtual scene module;

specifically, the first virtual scene is the basic scene information of the constructed scene and the interactive mode based on the virtual environment, the first virtual object is the corresponding interactive object of the first virtual scene, the preset module data is the virtual scene construction module including the unique identifier, and then the input of the identification model is performed according to the virtual scene basis, the interactive object and the corresponding module construction design, wherein the first identification model is the model constructed based on the neural network, the neural network is an operation model formed by interconnecting a large number of neurons, the output of the network is expressed according to a logic strategy of the connection mode of the network, the effective scene identification is completed by inputting data to the elements in the virtual scene and the elements of the virtual object, and further the output first virtual scene module has more accuracy, the technical effects of improving the intelligence of identification and the accuracy of virtual scene module generation so as to improve the intelligent processing level of virtual scene data are achieved.

Step S600: obtaining a matching module set according to the first virtual scene module, the first scene content information and the preset module database;

specifically, the first virtual scene module obtained based on the virtual object, the virtual scene and the corresponding scene module construction method, because the first virtual scene module is output according to the logic training identification which can only be corresponded after the first identification model is completed, and further, according to the corresponding scene content information and the virtual scene construction logic in the preset module database, the logic matching relationship aiming at the scene content is completed, and further, the corresponding matching module set is obtained, further, because the matching module set further establishes the corresponding mapping and calling relationship according to the scene content information and the filling and corresponding virtual scene construction logic, and further, the generation of the modularized display scene can generate the corresponding information according to the logic rule, thereby achieving the modularized content matching based on the virtual scene and the object, the time threshold for establishing the virtual display is shortened, and the technical effect of virtual display efficiency is improved.

Step S700: inputting the first element and the matching module set into a second recognition model to obtain a first matching module;

specifically, the second recognition model is different from the first recognition model, the first recognition model is mainly used for recognizing elements of a virtual scene and a virtual object, so as to complete a process of filling a virtual scene model construction logic to obtain a corresponding virtual scene module, the second recognition model is used for respectively recognizing content elements in the first scene content, so as to establish a logical mapping relationship between the content elements and the matching module set, so as to obtain the first matching module, further, the first matching module includes a corresponding matching module for the first content elements, so as to match the corresponding virtual scene module according to the first elements, and the virtual scene module includes a virtual scene operation, a virtual interactive object and scene content related to the first elements, thereby achieving the technical effects of completing the adjustment and optimization of the modules and further improving the display effect,

step S800: inputting the second elements, the up to Nth elements and the matching module set into the second recognition model respectively to obtain a second matching module and the up to Nth matching module;

step S900: obtaining a first scene combination module according to the first matching module, the second matching module and the Nth matching module;

specifically, the first content element information in the first scene content includes a first element, a second element, and an nth element, where N is a natural number not less than 2, in the previous step, a first matching module obtained by identifying based on the first element is further obtained by identifying based on the second element, a second matching module is obtained by identifying based on the second element, a third matching module is obtained by identifying based on the third element, and so on, the nth matching module obtained by identifying based on the nth element enters a matching module capable of being established according to the content element, so that the matching process of the modules is correspondingly completed according to the elements, that is, the current scene is specifically analyzed, the identification of the content and the elements is completed on the basis of determining the scene, and the relevant operation is correspondingly obtained. Furthermore, the first scene combination module completes the combination of the corresponding matching modules according to the plurality of elements, so as to provide a scene matching basis for the subsequent module analysis and optimize the matching generation of the modules.

Step S1000: and obtaining first display information according to the first scene combination module and the first virtual scene module.

Specifically, relevant display information is correspondingly obtained according to the first scene combination module and the first virtual scene module, further, a displayed demand element is completed by determining relevant display attribute information, traversal is carried out from the first scene combination module according to the demand element, and a corresponding matching module is obtained, so that the technical effects of modularized content matching based on virtual scenes and objects and improvement of display effect are achieved.

Further, after obtaining the first display information, step S1000 in the embodiment of the present application further includes:

step S1010: obtaining a first demand instruction, wherein the first demand instruction comprises a demand element;

step S1020: obtaining display module interface information according to the first scene combination module and the first virtual scene module;

step S1030: acquiring a first demand module according to the module interface information, the demand elements and the preset module database;

step S1040: obtaining a second combination module according to the first demand module, the first scene combination module and the first virtual scene module;

step S1050: and obtaining second display information according to the second combination module.

Specifically, the first requirement instruction is used for describing and inputting requirement elements required for displaying object information, further selecting corresponding module interface information through a determined scene combination mode and virtual scene and virtual corresponding module construction, matching the first requirement on all matching modules included in the elements, reading or sending event messages of nodes in a three-dimensional scene through the interface information so as to communicate with an object and finish user requirements, and achieving interaction with the virtual object, because the first display information is obtained by displaying an interactive object through the constructed first virtual scene module and performing matching identification on the display scene, the second combination module is a combination module obtained based on the requirement of the display object, and further completing modularized matching generation according to the second combination module to obtain the second display information, by combining and adding contents in the playing process, the time threshold for establishing virtual display is shortened, and the adjustment and optimization of the module are completed, so that the technical effect of the display effect is improved.

Further, in step S400 of obtaining the preset module database in the embodiment of the present application, the method further includes:

step S410: obtaining a preset module construction method;

step S420: acquiring virtual scene element information;

step S430: obtaining element data through big data according to the virtual scene element information;

step S440: constructing the virtual scene construction module according to the element data and the preset module construction method;

step S450: constructing a plurality of virtual scene constructing modules;

step S460: and constructing the preset module database through all the virtual scene construction modules.

Specifically, the preset module database comprises a plurality of virtual scene construction modules, each virtual scene construction module comprises unique identification feature information, specifically, each virtual scene element information is acquired based on data acquisition of a big data platform and is correspondingly stored, and corresponding scene construction is further completed according to a preset module construction method, wherein the preset module construction method is a three-dimensional modeling process according to a preset module construction method, so that different modeling methods need to be acquired, the preset module construction method comprises a module construction logic, and when the preset module construction logic is met, the corresponding modeling method is adopted for model construction, so that the modeling effect is higher. Therefore, the plurality of virtual scene building modules are subjected to storage analysis of unique feature identifiers to build the preset module database, the module database can be further updated, increased and decreased at any time, and element modules of the same type can be increased according to the use degree of a user, so that the display effect is improved, and the timely updating performance and the continuous optimization capability in the module database are further ensured.

Further, before obtaining the first scene combination module according to the first matching module, the second matching module, and up to the nth matching module, step S900 in this embodiment of the present application further includes:

step S910: respectively obtaining module interface information of the first matching module, the second matching module and the Nth matching module;

step S920: judging whether the interface information of all modules is matched;

step S930: and when the matching is carried out, the first scene combination module is obtained according to the first matching module, the second matching module and the Nth matching module.

Specifically, because the virtual reality technology is a combination of simulation technology and computer graphics man-machine interface technology multimedia technology sensing technology, network technology, etc., and has cross technology, and the means and method for interaction between the virtual scene and the outside are different according to the demonstration process of the virtual scene, generally speaking, the external interface carries out interaction control on the object in the virtual scene, i.e. the object description in the scene has a certain coordinate value fixed point, and the relationship between the object and the object is not an absolute position in the space, therefore, the interface matching judgment between the modules needs to be carried out on all matching modules, when the interface information of all modules is matched, the relationship between the object and the object can carry out more suitable expression on the interrelation of various things between the virtual worlds, and the obtained modules are subjected to the judgment of the interface matching condition, the interface can be executed under the unified condition, so that the quality of the virtual environment construction of the complex scene is ensured, the adaptability of the mutual combination between the first scene combination modules is further improved, and the technical effect of improving the scene connectivity is achieved.

Further, after obtaining the first requirement module, step S1030 in the embodiment of the present application further includes:

step S1031: when the first requirement module does not exist, obtaining display addition identification information;

step S1032: acquiring a display adding module instruction according to the display adding identification information;

step S1033: obtaining a display module construction method according to the display adding module instruction;

step S1034: and constructing a first display demand module according to the demand elements and the display module interface information by using the display module construction method.

Specifically, the first demand module is obtained based on basic attribute information of a displayed object, if the first demand module does not exist, a certain demand element or a plurality of demand element module libraries which represent object display are not available, so that the display process can be carried out or on-site addition can be carried out, the display module can be added according to an adding instruction by using the obtained display adding identification information, further, the module updating and addition of insufficient demand elements are completed by obtaining a model building method corresponding to the display module, the corresponding display demand module is built by using the display module building method, the content can be correspondingly added and optimized in a virtual environment, and the technical effects of adjusting and optimizing the modules and further improving the display effect are achieved.

Further, after obtaining the first display information, the embodiment S1000 of the present application further includes:

step S1060: obtaining a first deletion request;

step S1070: acquiring first deletion element information according to the first deletion request;

step S1080: obtaining a request matching module according to the first deleted element information, the first scene combination module and the first virtual scene module;

step S1090: and obtaining a first deleting instruction according to the first deleting request and the request matching module, wherein the first deleting instruction is used for deleting the request matching module.

In particular, the first deletion request is a specific operational capability included in the virtual environment exposure system, i.e., in addition to adding content during the presentation, content may also be deleted, such as in a constructed scene element, some elements have poor using effect or display effect, so that the deleted elements can be correspondingly optimized and deleted, wherein, the dynamic process of some scenes exists in the process of generating and showing the scenes, therefore, can be displayed after the corresponding system is exported, the effect is checked, the display correction of the autonomous playing is completed, thereby ensuring that each element such as model, material and the like is accurate and has no error, for example, the display of the reflection effect, the transparent effect or the dynamic scene is not in accordance with the expected requirement, completing the modification of the corresponding parameters, and further achieves the technical effect of continuously updating and optimizing the display quality by adding the modular display function.

Further, the step S500 of inputting the first virtual scene, the first virtual object, and the preset module database into a first recognition model to obtain a first virtual scene module further includes:

step S510: obtaining a virtual scene element according to the first virtual scene;

step S520: obtaining a virtual object element according to the first virtual object;

step S530: obtaining a virtual element set according to the virtual scene elements and the virtual object elements;

step S540: inputting the virtual element set and the preset module database into the first recognition model, wherein the first recognition model is obtained by training convergence through multiple groups of training data, and each group of data in the multiple groups of training data comprises the virtual element set, the preset module database and identification information of a first virtual scene module with an identification matched with the virtual element set;

step S550: obtaining output information of the first recognition model, wherein the output information comprises the first virtual scene module.

Specifically, the virtual element set is obtained by extracting elements from a virtual scene and a virtual object, the virtual element set and the preset module database are input into the first recognition model, and further, the first virtual scene module is input into each group of training data as supervision data for supervision learning, the first recognition model is a model established based on a neural network model, the neural network is an operation model formed by interconnection of a large number of neurons, and the output of the network is expressed according to a logic strategy of the connection mode of the network. Further, the training process is essentially a supervised learning process, each of the plurality of sets of training data includes the virtual element set, the preset module database, and identification information identifying a first virtual scene module matched with the virtual element set, the first recognition model performs continuous self-correction and adjustment until an obtained output result is consistent with the identification information, the supervised learning of the set of data is finished, and the supervised learning of the next set of data is performed. When the output information of the first recognition model reaches the preset accuracy rate/reaches the convergence state, the supervised learning process is ended, the first virtual scene module is more accurately output through the training of the first recognition model, and the technical effect of intelligent data analysis is achieved.

To sum up, the method and the system for modularly generating and displaying the virtual scene content provided by the embodiment of the present application have the following technical effects:

1. because the method adopts the steps of constructing a first virtual scene, obtaining virtual interaction information executed by a first virtual object in the virtual scene, generating first scene content information, further obtaining a plurality of content element information from a first element, a second element to an N element according to the first scene content information, further obtaining a preset module database comprising a plurality of virtual scene constructing modules, wherein the virtual scene constructing modules have unique identification characteristic information, further identifying a strict virtual scene, the virtual object and the preset module database to obtain a corresponding virtual scene module, further obtaining a matching module set according to the virtual scene module, the scene content and the preset module database generated by identification, performing content matching according to the N elements to obtain a corresponding matching module, further obtaining a first scene combination module, and finally generating corresponding display information from the scene combination module and the virtual scene module, the display module generation mode is established, the modularized content matching based on the virtual scene and the object is achieved, the time threshold for establishing the virtual display is shortened, the adjustment and optimization of the module are completed, and the technical effect of improving the display effect is further achieved.

2. Due to the fact that the modules are added and deleted according to specific display requirements, the display effect of the corresponding matching modules is optimized and adjusted continuously by means of the added elements and the deleted elements, and the technical effect that the adjustment optimization of the modules is achieved by adding the modularized display function, and then the display effect is improved is achieved.

3. Due to the fact that the judgment of the interface matching condition of the obtained modules is carried out, the execution can be carried out under the condition that the interfaces are unified, the quality of the virtual environment construction of the complex scene is guaranteed, the adaptability of the mutual combination between the first scene combination modules is further improved, and the technical effect of improving the scene connectivity is achieved.

Example two

Based on the same inventive concept as the method for modularly generating and displaying the virtual scene content in the foregoing embodiment, the present invention further provides a system for modularly generating and displaying the virtual scene content, as shown in fig. 2, the system includes:

a first obtaining unit 11, configured to obtain a first virtual scene, where the first virtual scene includes a first virtual object;

a second obtaining unit 12, where the second obtaining unit 12 is configured to obtain first scene content information, where the scene content information includes virtual interaction information performed on the first virtual object;

a third obtaining unit 13, configured to obtain first content element information according to the first scene content information, where the first content element information includes a first element, a second element, and up to an nth element, where N is a natural number not less than 2;

a fourth obtaining unit 14, where the fourth obtaining unit 14 is configured to obtain a preset module database, where the preset module database includes a plurality of virtual scene building modules, and each virtual scene building module includes unique identification feature information;

a first input unit 15, where the first input unit 15 is configured to input the first virtual scene, the first virtual object, and the preset module database into a first recognition model to obtain a first virtual scene module;

a fifth obtaining unit 16, where the fifth obtaining unit 16 is configured to obtain a matching module set according to the first virtual scene module, the first scene content information, and the preset module database;

a sixth obtaining unit 17, where the sixth obtaining unit 17 is configured to input the first element and the matching module set into a second recognition model to obtain a first matching module;

a second input unit 18, where the second input unit 18 is configured to input the second elements, up to the nth element, and the matching module set into the second recognition model, respectively, to obtain a second matching module, up to the nth matching module;

a seventh obtaining unit 19, where the seventh obtaining unit 19 is configured to obtain a first scene combination module according to the first matching module, the second matching module, and the nth matching module;

an eighth obtaining unit 20, where the eighth obtaining unit 20 is configured to obtain first display information according to the first scene combination module and the first virtual scene module.

Further, the system further comprises:

a ninth obtaining unit for obtaining a preset module construction method;

a tenth obtaining unit configured to obtain element data from big data according to the virtual scene element information;

a first constructing unit, configured to construct the virtual scene constructing module according to the element data and the preset module constructing method;

a second constructing unit configured to construct a plurality of the virtual scene constructing modules;

and the third construction unit is used for constructing the preset module database through all the virtual scene construction modules.

Further, the system further comprises:

an eleventh obtaining unit, configured to obtain module interface information of the first matching module, the second matching module, and up to an nth matching module, respectively;

a twelfth obtaining unit, configured to determine whether all the module interface information is matched;

a thirteenth obtaining unit, configured to, when matching, obtain the first scene combination module according to the first matching module, the second matching module, and up to an nth matching module.

Further, the system further comprises:

a fourteenth obtaining unit, configured to obtain a first demand instruction, where the first demand instruction includes a demand element;

a fifteenth obtaining unit, configured to obtain display module interface information according to the first scene combination module and the first virtual scene module;

a sixteenth obtaining unit, configured to obtain a first requirement module according to the module interface information, the requirement element, and the preset module database;

a seventeenth obtaining unit, configured to obtain a second combination module according to the first requirement module, the first scene combination module, and the first virtual scene module;

an eighteenth obtaining unit, configured to obtain second display information according to the second combination module.

Further, the system further comprises:

a nineteenth obtaining unit, configured to obtain display addition identification information when the first requirement module does not exist;

a twentieth obtaining unit, configured to obtain a display addition module instruction according to the display addition identification information;

a twenty-first obtaining unit, configured to obtain a display module construction method according to the display addition module instruction;

a twenty-second obtaining unit, configured to construct, by using the display module construction method, the first display requirement module according to the requirement element and the display module interface information.

Further, the system further comprises:

a second generating unit for obtaining a first deletion request;

a twenty-third obtaining unit configured to obtain first deletion element information according to the first deletion request;

a twenty-fourth obtaining unit, configured to obtain a preset noise threshold;

a twenty-fifth obtaining unit, configured to obtain a request matching module according to the first deleted element information, the first scene combination module, and the first virtual scene module;

a twenty-sixth obtaining unit, configured to obtain a first deletion instruction according to the first deletion request and the request matching module, where the first deletion instruction is used to delete the request matching module.

Further, the system further comprises:

a twenty-seventh obtaining unit, configured to obtain a virtual scene element according to the first virtual scene;

a twenty-eighth obtaining unit configured to obtain a virtual object element from the first virtual object;

a twenty-ninth obtaining unit, configured to obtain a virtual element set according to the virtual scene element and the virtual object element;

a third input unit, configured to input the virtual element set and the preset module database into the first recognition model, where the first recognition model is obtained by training convergence through multiple sets of training data, and each set of data in the multiple sets of training data includes the virtual element set, the preset module database, and identification information identifying a first virtual scene module that matches the virtual element set;

a twenty-sixth obtaining unit, configured to obtain output information of the first recognition model, where the output information includes the first virtual scene module.

Various changes and specific examples of the method for modularly generating and displaying the virtual scene content in the first embodiment of fig. 1 are also applicable to the system for modularly generating and displaying the virtual scene content in the present embodiment, and through the foregoing detailed description of the method for modularly generating and displaying the virtual scene content, those skilled in the art can clearly know the method for implementing the system for modularly generating and displaying the virtual scene content in the present embodiment, so for the sake of brevity of the description, detailed descriptions are not repeated here.

Exemplary electronic device

The electronic device of the embodiment of the present application is described below with reference to fig. 3.

Fig. 3 illustrates a schematic structural diagram of an electronic device according to an embodiment of the present application.

Based on the inventive concept of the method for modularly generating and displaying the virtual scene content in the foregoing embodiments, the present invention further provides a system for modularly generating and displaying the virtual scene content, in which a computer program is stored, and when the computer program is executed by a processor, the computer program implements the steps of any one of the methods for modularly generating and displaying the virtual scene content.

Where in fig. 3 a bus architecture (represented by bus 300), bus 300 may include any number of interconnected buses and bridges, bus 300 linking together various circuits including one or more processors, represented by processor 302, and memory, represented by memory 304. The bus 300 may also link together various other circuits such as peripherals, voltage regulators, power management circuits, and the like, which are well known in the art, and therefore, will not be described any further herein. A bus interface 305 provides an interface between the bus 300 and the receiver 301 and transmitter 303. The receiver 301 and the transmitter 303 may be the same element, i.e., a transceiver, providing a means for communicating with various other systems over a transmission medium.

The processor 302 is responsible for managing the bus 300 and general processing, and the memory 304 may be used for storing data used by the processor 302 in performing operations.

The embodiment of the invention provides a method for modularly generating and displaying virtual scene content, wherein the method comprises the following steps: obtaining a first virtual scene, the first virtual scene comprising a first virtual object; obtaining first scene content information, wherein the scene content information comprises virtual interaction information executed on the first virtual object; obtaining first content element information according to the first scene content information, wherein the first content element information comprises a first element, a second element and an nth element, and N is a natural number not less than 2; obtaining a preset module database, wherein the preset module database comprises a plurality of virtual scene building modules, and each virtual scene building module comprises unique identification feature information; inputting the first virtual scene, the first virtual object and the preset module database into a first recognition model to obtain a first virtual scene module; obtaining a matching module set according to the first virtual scene module, the first scene content information and the preset module database; inputting the first element and the matching module set into a second recognition model to obtain a first matching module; inputting the second elements, the up to Nth elements and the matching module set into the second recognition model respectively to obtain a second matching module and the up to Nth matching module; obtaining a first scene combination module according to the first matching module, the second matching module and the Nth matching module; and obtaining first display information according to the first scene combination module and the first virtual scene module. The technical problems that in the prior art, the reaction threshold value is not rapid enough in the virtual scene display process, and the display optimization method aiming at different requirements is not perfect enough, so that the display effect is influenced are solved, the modularized content matching based on the virtual scene and the object is achieved, the time threshold value for establishing the virtual display is shortened, and the adjustment and optimization of the module are completed, so that the technical effect of improving the display effect is improved.

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

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including an instruction system which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks. While preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all such alterations and modifications as fall within the scope of the invention.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (9)

1. A modular generation display method of virtual scene content is provided, wherein the method comprises the following steps:

obtaining a first virtual scene, the first virtual scene comprising a first virtual object;

obtaining first scene content information, wherein the scene content information comprises virtual interaction information executed on the first virtual object;

obtaining first content element information according to the first scene content information, wherein the first content element information comprises a first element, a second element and an nth element, and N is a natural number not less than 2;

obtaining a preset module database, wherein the preset module database comprises a plurality of virtual scene building modules, and each virtual scene building module comprises unique identification feature information;

inputting the first virtual scene, the first virtual object and the preset module database into a first recognition model to obtain a first virtual scene module;

obtaining a matching module set according to the first virtual scene module, the first scene content information and the preset module database;

inputting the first element and the matching module set into a second recognition model to obtain a first matching module;

inputting the second elements, the up to Nth elements and the matching module set into the second recognition model respectively to obtain a second matching module and the up to Nth matching module;

obtaining a first scene combination module according to the first matching module, the second matching module and the Nth matching module;

and obtaining first display information according to the first scene combination module and the first virtual scene module.

2. The method of claim 1, wherein the obtaining a preset module database comprises:

obtaining a preset module construction method;

acquiring virtual scene element information;

obtaining element data through big data according to the virtual scene element information;

constructing the virtual scene construction module according to the element data and the preset module construction method;

constructing a plurality of virtual scene constructing modules;

and constructing the preset module database through all the virtual scene construction modules.

3. The method of claim 1, wherein before obtaining the first scene combination module according to the first matching module, the second matching module, and up to the nth matching module, the method comprises:

respectively obtaining module interface information of the first matching module, the second matching module and the Nth matching module;

judging whether the interface information of all modules is matched;

and when the matching is carried out, the first scene combination module is obtained according to the first matching module, the second matching module and the Nth matching module.

4. The method of claim 1, wherein obtaining the first presence information comprises:

obtaining a first demand instruction, wherein the first demand instruction comprises a demand element;

obtaining display module interface information according to the first scene combination module and the first virtual scene module;

acquiring a first demand module according to the module interface information, the demand elements and the preset module database;

obtaining a second combination module according to the first demand module, the first scene combination module and the first virtual scene module;

and obtaining second display information according to the second combination module.

5. The method of claim 4, wherein said obtaining a first demand module comprises:

when the first requirement module does not exist, obtaining display addition identification information;

acquiring a display adding module instruction according to the display adding identification information;

obtaining a display module construction method according to the display adding module instruction;

and constructing a first display demand module according to the demand elements and the display module interface information by using the display module construction method.

6. The method of claim 1, wherein obtaining the first presence information comprises:

obtaining a first deletion request;

acquiring first deletion element information according to the first deletion request;

obtaining a request matching module according to the first deleted element information, the first scene combination module and the first virtual scene module;

and obtaining a first deleting instruction according to the first deleting request and the request matching module, wherein the first deleting instruction is used for deleting the request matching module.

7. The method of claim 1, wherein the inputting the first virtual scene, the first virtual object, and the preset module database into a first recognition model to obtain a first virtual scene module comprises:

obtaining a virtual scene element according to the first virtual scene;

obtaining a virtual object element according to the first virtual object;

obtaining a virtual element set according to the virtual scene elements and the virtual object elements;

inputting the virtual element set and the preset module database into the first recognition model, wherein the first recognition model is obtained by training convergence through multiple groups of training data, and each group of data in the multiple groups of training data comprises the virtual element set, the preset module database and identification information of a first virtual scene module with an identification matched with the virtual element set;

obtaining output information of the first recognition model, wherein the output information comprises the first virtual scene module.

8. A system for modular generation and presentation of virtual scene content, wherein the system comprises:

a first obtaining unit configured to obtain a first virtual scene, the first virtual scene including a first virtual object;

a second obtaining unit, configured to obtain first scene content information, where the scene content information includes virtual interaction information performed on the first virtual object;

a third obtaining unit configured to obtain first content element information including a first element, a second element, and up to an nth element, where N is a natural number not less than 2, according to the first scene content information;

a fourth obtaining unit, configured to obtain a preset module database, where the preset module database includes multiple virtual scene building modules, and each virtual scene building module includes unique identification feature information;

a first input unit, configured to input the first virtual scene, the first virtual object, and the preset module database into a first recognition model, so as to obtain a first virtual scene module;

a fifth obtaining unit, configured to obtain a matching module set according to the first virtual scene module, the first scene content information, and the preset module database;

a sixth obtaining unit, configured to input the first element and the matching module set into a second recognition model to obtain a first matching module;

a second input unit, configured to input the second element, the up to nth element, and the matching module set into the second recognition model, so as to obtain a second matching module, up to nth matching module;

a seventh obtaining unit, configured to obtain a first scene combination module according to the first matching module, the second matching module, and up to an nth matching module;

an eighth obtaining unit, configured to obtain first display information according to the first scene combination module and the first virtual scene module.

9. A system for modular generation and presentation of virtual scenic content comprising a memory, a processor and a computer program stored on the memory and executable on the processor, wherein the processor implements the steps of the method of any one of claims 1-7 when executing the program.

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