CN116301325A - Virtual-real combined interaction system based on meta universe - Google Patents

Abstract

The invention relates to the technical field of data processing, in particular to a virtual-real combination interactive system based on meta universe, which comprises the following components: the control panel is a main control end of the system and is used for sending out an execution command; the acquisition module is used for acquiring peripheral audio and video data of the system in real time; the AI construction module is used for constructing a virtual artificial model and is configured on the control panel; the analysis module is used for receiving the peripheral audio and video data of the IDE system acquired by the acquisition module in real time and extracting the voice characters in the audio and video data; the invention can make the user experience the universe conveniently and quickly with low cost, and make the system become the physical space for simulating and experiencing any things through the manual editing of the system end user, and the technical proposal provided by the system can also be applied to more social spaces such as urban public spaces, streets, exhibition halls, museums, schools, research institutions, enterprises and the like, and provide virtual experience and release advertisements.

Description

Virtual-real combined interaction system based on meta universe

Technical Field

The invention relates to the technical field of data processing, in particular to a virtual-real combination interactive system based on meta universe.

Background

The word "meta-universe" is more than a business symbol and is itself of little new technology but integrates a vast array of existing technologies. Metauniverse (Metaverse), which is a digital living space constructed by human beings using digital technology, is a virtual world mapped or surpassed by the real world and can interact with the real world, and is provided with a novel social system.

However, most of the technology of the "meta universe" is currently applied to the aspect of game development, but is not practically applied to the daily life of people, and because of the characteristics of the technology of the "meta universe", the technology can bring connection and interaction with the virtual world for people, so that the technology has great commercial application value, but no similar prior art exists at present, and the invention is provided for filling the blank in the field.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects existing in the prior art, the invention provides a virtual-real combined interactive system based on metauniverse, which solves the technical problems in the background art.

Technical proposal

In order to achieve the above purpose, the invention is realized by the following technical scheme:

a meta-universe based virtual-real combined interactive system, comprising:

the control panel is a main control end of the system and is used for sending out an execution command;

the acquisition module is used for acquiring peripheral audio and video data of the system in real time;

the AI construction module is used for constructing a virtual artificial model and is configured on the control panel;

the analysis module is used for receiving the peripheral audio and video data of the IDE system acquired by the acquisition module in real time and extracting the voice characters in the audio and video data;

the skip module is used for acquiring the voice characters extracted by the operation of the analysis module, synchronously skipping the operation of a sub-module storage unit arranged at the lower level of the AI construction module, searching the data content matched with the voice position in the storage unit and sending the data content to the control terminal;

and the conversion module is used for reading the data content sent to the control terminal by the skip module, performing text conversion on the data content and displaying the data content on the control panel.

Still further, the acquisition module is provided with the submodule in the lower level, includes:

the camera module is used for capturing dynamic image data around the control panel in real time;

the audio capturing module is used for capturing audio data sent out by the periphery of the control panel in real time;

the camera module and the audio capture module are both deployed on the control panel, store the data captured in real time, and are provided with a storage period, the storage period is manually set on the control panel through a system end user, and the initial default of the storage period is twenty four hours.

Furthermore, the camera module takes the audio data captured by the audio capturing module as a trigger signal to run in real time.

Further, when the AI construction module builds the virtual artificial model, the AI construction module synchronously analyzes the service scene of the system, and builds the virtual artificial model by applying a sub-module arranged at the lower level of the AI construction module according to the analyzed service scene;

the system service scene analyzed by the AI construction module comprises: medical treatment, commercial supershopping, home office, artificial intelligence interaction.

Still further, the AI building block is provided with a sub-block at a lower level, including:

the identification unit is used for identifying the service scene of the system;

the acquisition unit is used for acquiring the related data content of the system service scene identified by the identification unit;

when the acquisition unit operates, the system service scene related data content acquisition source data channel is synchronously confirmed, and the data content acquisition source data channel comprises: the internet, the manual uploading of the user and the local area network data transmission.

Still further, the identification unit and the acquisition unit are provided with sub-modules at the lower level, including:

the storage unit is used for receiving the related data content of the system service scene acquired by the acquisition unit and storing the data content;

when the storage unit stores the data content, the storage unit synchronously identifies the attribute of the data content and distinguishes and stores the data content by referring to the data of the data content, wherein the attribute of the data content comprises: text data, image data, video data, and data content.

Furthermore, when the analysis module operates, the audio capturing module arranged at the lower stage of the acquisition module triggers the camera module to operate, the audio source target is traced through the camera module according to the audio captured by the audio capturing module, and after tracing to the audio source target, the camera module is driven to move along with the audio source target in real time.

Still further, the analysis module is internally provided with a sub-module, including:

the training unit is used for inputting voice characters for analysis and extraction by the analysis module;

the training unit is used for running the input voice characters and manually inputting the voice characters through a system end user, and after the input voice characters are analyzed and extracted by the analysis module, the analysis module is used for manually configuring the extracted characters and the data content stored in the storage unit.

Further, the skip module is provided with an operation refresh period, the operation refresh period is set through manual editing by a system end user, and the operation refresh period is initially set to be three seconds by default.

Still further, the control panel has the collection module through medium electric connection, the collection module next-level has camera module and audio capture module through medium electric connection, the collection module has AI to construct the module through medium electric connection, AI constructs the module next-level and has identification unit and collection unit through medium electric connection, identification unit and collection unit next-level have the storage unit through medium electric connection, AI constructs the module and has analysis module through medium electric connection, analysis module inside has training unit through medium electric connection, analysis module has jump module and conversion module through medium electric connection.

Advantageous effects

Compared with the known public technology, the technical scheme provided by the invention has the following beneficial effects:

1. the invention provides a virtual-real combined interaction system based on meta universe, which can enable a user to experience meta universe conveniently and quickly in the running process, and can be made into a physical space for simulating and experiencing any things through manual editing of a user at a system end, and the technical scheme provided by the system can be applied to more social spaces such as urban public spaces, streets, exhibition halls, museums, schools, research institutions, enterprises and the like to provide virtual experience and release advertisements.

2. In the running and using process of the system, the system can be adapted to different use scenes through manual setting of a user at the system end, so that the purpose of improving the use applicability of the system is achieved, and in the specific using process, the self-adaptive capturing target of the system can be enabled to act as a service user through capturing audio and video in the service environment of the system, so that the purpose of improving the use experience of the system to the user is achieved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It is evident that the drawings in the following description are only some embodiments of the present invention and that other drawings may be obtained from these drawings without inventive effort for a person of ordinary skill in the art.

FIG. 1 is a schematic diagram of a virtual-real combined interactive system based on meta universe;

reference numerals in the drawings represent respectively: 1. a control terminal; 2. an acquisition module; 21. a camera module; 22. an audio capturing module; 3. an AI construction module; 31. an identification unit; 32. an acquisition unit; 33. a storage unit; 4. an analysis module; 41. a training unit; 5. a jump module; 6. and a conversion module.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It will be apparent that the described embodiments are some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention is further described below with reference to examples.

Example 1

The virtual-real combined interaction system based on meta universe in this embodiment, as shown in fig. 1, includes:

the control panel 1 is a main control end of the system and is used for sending out an execution command;

the acquisition module 2 is used for acquiring peripheral audio and video data of the system in real time;

the AI construction module 3 is used for constructing a virtual artificial model and is configured on the control panel 1;

the analysis module 4 is used for receiving the peripheral audio and video data of the IDE system acquired by the acquisition module 2 in real time and extracting the voice characters in the audio and video data;

the skip module 5 is used for acquiring the extracted voice characters operated by the analysis module 4, synchronously skipping the operation of a sub-module storage unit 33 arranged at the lower level of the AI construction module 3, searching the storage unit 33 for data content matched with the voice position, and sending the data content to the control terminal 1;

the conversion module 6 is configured to read the data content sent by the skip module 5 to the control terminal 1, perform text conversion on the data content, and display the converted data content on the control panel 1.

In this embodiment, the control panel 1 controls the acquisition module 2 to acquire peripheral audio and video data of the system in real time, the AI construction module 3 operates to construct a virtual artificial model and is configured on the control panel 1, the synchronous analysis module 4 receives the peripheral audio and video data of the acquisition module 2 to acquire voice characters in the audio and video data in real time, the skip module 5 acquires the voice characters which are extracted by the operation of the analysis module 4, the sub-module storage unit 33 arranged at the lower stage of the synchronous skip AI construction module 3 operates to search for input contents matched with the voice position in the storage unit 33 and sends the input contents to the control terminal 1, and finally the conversion module 6 operates to read the data contents sent by the skip module 5 to the control terminal 1, and the data contents are displayed on the control panel 1 after being subjected to character conversion.

Example 2

On the implementation level, on the basis of embodiment 1, this embodiment further specifically describes, with reference to fig. 1, a virtual-real combination interactive system based on metauniverse in embodiment 1:

the acquisition module 2 is provided with the submodule in the next stage, includes:

a camera module 21 for capturing dynamic image data around the control panel 1 in real time;

the audio capturing module 22 is configured to capture audio data sent from the periphery of the control panel 1 in real time;

the camera module 21 and the audio capturing module 22 are both disposed on the control panel 1, the camera module 21 and the audio capturing module 22 both store data captured in real time, and a storage period is set, the storage period is manually set on the control panel 1 through a system end user, and the initial default of the storage period is twenty four hours.

As shown in fig. 1, the camera module 21 operates in real time with the audio data captured by the audio capturing module 22 as a trigger signal.

As shown in fig. 1, when the AI building module 3 builds a virtual artificial model, analyzing a system service scene synchronously, and building the virtual artificial model by applying a sub-module arranged at the lower level of the AI building module 3 according to the analyzed service scene;

the system service scenario analyzed by the AI building module 3 includes: medical treatment, commercial supershopping, home office, artificial intelligence interaction.

As shown in fig. 1, the AI building block 3 is provided with sub-blocks at a lower stage, including:

an identifying unit 31 for identifying a system service scenario;

an acquisition unit 32, configured to acquire the system service scene related data content identified by the identification unit 31;

when the acquisition unit 32 operates, the system service scene related data content acquisition source data channels are synchronously confirmed, and the data content acquisition source data channels comprise: the internet, the manual uploading of the user and the local area network data transmission.

As shown in fig. 1, the identifying unit 31 and the collecting unit 32 are provided with sub-modules at a lower stage, including:

a storage unit 33, configured to receive the data content related to the system service scenario collected by the collection unit 32 and store the data content;

the storage unit 33 synchronously identifies attributes of the data content when storing the data content, and distinguishes and stores the data content with reference to the data of the data content, wherein the attributes of the data content include: text data, image data, video data, and data content.

Example 3

On the implementation level, on the basis of embodiment 1, this embodiment further specifically describes, with reference to fig. 1, a virtual-real combination interactive system based on metauniverse in embodiment 1:

when the analysis module 4 operates, the camera module 21 is triggered to operate by the audio capturing module 22 arranged at the lower stage of the acquisition module 2, the audio source target is traced by the camera module 21 according to the audio captured by the audio capturing module 22, and after the audio source target is traced, the camera module 21 is driven to move along with the audio source target in real time.

As shown in fig. 1, the analysis module 4 is internally provided with a sub-module, including:

a training unit 41, configured to input phonetic characters for analysis and extraction by the analysis module 4;

the training unit 41 performs manual input of the input voice text by the system end user, and after the input voice text is analyzed and extracted by the analysis module 4, the system end user manually configures the analysis module 4 to analyze and extract the text and the data content stored in the storage unit 33.

As shown in fig. 1, the skip module 5 is provided with an operation refresh period, and the operation refresh period is set by manual editing by a system end user, and the operation refresh period is initially set as three seconds by default.

As shown in fig. 1, the control panel 1 is electrically connected with an acquisition module 2 through a medium, the lower stage of the acquisition module 2 is electrically connected with a camera module 21 and an audio capture module 22 through a medium, the acquisition module 2 is electrically connected with an AI construction module 3 through a medium, the lower stage of the AI construction module 3 is electrically connected with a recognition unit 31 and an acquisition unit 32 through a medium, the lower stage of the recognition unit 31 and the acquisition unit 32 is electrically connected with a storage unit 33 through a medium, the AI construction module 3 is electrically connected with an analysis module 4 through a medium, the inside of the analysis module 4 is electrically connected with a training unit 41 through a medium, and the analysis module 4 is electrically connected with a skip module 5 and a conversion module 6 through a medium.

In summary, through the system in the above embodiment, the user can use the experience universe with convenience and low cost, and through the manual editing of the user at the system end, the system can become a physical space for simulating and experiencing anything, and the technical scheme provided by the system can also be applied to more social spaces such as urban public spaces, streets, exhibition halls, museums, schools, research institutions, enterprises and the like, so as to provide virtual experience and release advertisements; in addition, in the running and using process of the system, the system can be adapted to different use scenes through manual setting of a user at the system end, so that the purpose of improving the use applicability of the system is achieved, in the specific using process, the self-adaptive capturing target of the system can be enabled to act as a service user through capturing audio and video in the service environment of the system, and the purpose of improving the use experience of the system to the user is achieved.

The above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. A meta-universe based virtual-real combined interactive system, comprising:

the control panel (1) is a main control end of the system and is used for sending out an execution command;

the acquisition module (2) is used for acquiring peripheral audio and video data of the system in real time;

an AI construction module (3) for constructing a virtual artificial model configured on the control panel (1);

the analysis module (4) is used for receiving the peripheral audio and video data of the IDE system acquired by the acquisition module (2) in real time and extracting the voice characters in the audio and video data;

the skip module (5) is used for acquiring the extracted voice characters operated by the analysis module (4), synchronously skipping the operation of a submodule storage unit (33) arranged at the lower level of the AI construction module (3), searching the data content matched with the voice position in the storage unit (33) and sending the data content to the control terminal (1);

the conversion module (6) is used for reading the data content sent by the skip module (5) to the control terminal (1), and displaying the data content on the control panel (1) after performing text conversion on the data content.

2. The virtual-real combination interactive system based on metauniverse according to claim 1, wherein the acquisition module (2) is provided with a sub-module at a lower level, comprising:

the camera module (21) is used for capturing dynamic image data around the control panel (1) in real time;

the audio capturing module (22) is used for capturing audio data sent out by the periphery of the control panel (1) in real time;

the camera module (21) and the audio capture module (22) are both arranged on the control panel (1), the camera module (21) and the audio capture module (22) are both used for storing data captured in real time, a storage period is set, the storage period is manually set on the control panel (1) through a system end user, and the initial default of the storage period is twenty four hours.

3. The virtual-real combination interactive system based on metauniverse according to claim 2, wherein the camera module (21) operates in real time by taking audio data captured by the audio capturing module (22) as a trigger signal.

4. The virtual-real combination interactive system based on metauniverse according to claim 1, wherein the AI building module (3) synchronously analyzes a system service scene when building a virtual artificial model, and builds the virtual artificial model by applying a submodule arranged at the lower level of the AI building module (3) according to the analyzed service scene;

the system service scene analyzed by the AI construction module (3) comprises: medical treatment, commercial supershopping, home office, artificial intelligence interaction.

5. The virtual-real combined interaction system based on metauniverse according to claim 1, wherein the AI building module (3) is provided with a sub-module at a lower level, and comprises:

an identification unit (31) for identifying a system service scenario;

the acquisition unit (32) is used for acquiring the related data content of the system service scene identified by the identification unit (31);

when the acquisition unit (32) operates, the system service scene related data content acquisition source data channel is synchronously confirmed, and the data content acquisition source data channel comprises: the internet, the manual uploading of the user and the local area network data transmission.

6. The virtual-real combination interactive system based on metauniverse according to claim 1, wherein the identification unit (31) and the acquisition unit (32) are provided with sub-modules at a lower level, comprising:

the storage unit (33) is used for receiving the related data content of the system service scene acquired by the acquisition unit (32) and storing the data content;

wherein, the storage unit (33) synchronously identifies the attribute of the data content when storing the data content, and distinguishes and stores the data content by referring to the data of the data content, and the attribute of the data content comprises: text data, image data, video data, and data content.

7. The virtual-real combination interactive system based on metauniverse according to claim 1, wherein when the analysis module (4) operates, the camera module (21) is triggered to operate by the audio capturing module (22) arranged at the lower stage of the acquisition module (2), the audio source target is traced by the camera module (21) according to the audio captured by the audio capturing module (22), and after tracing to the audio source target, the camera module (21) is driven to move along with the audio source target in real time.

8. The virtual-real combination interactive system based on metauniverse according to claim 1, characterized in that said analysis module (4) is internally provided with sub-modules comprising:

the training unit (41) is used for inputting voice characters for analysis and extraction by the analysis module (4);

the training unit (41) operates the input voice characters to be manually input through a system end user, and after the input voice characters are analyzed and extracted by the analysis module (4), the analysis module (4) analyzes the extracted characters and the data content stored in the storage unit (33) are manually configured by the system end user.

9. The virtual-real combined interactive system based on metauniverse according to claim 1, characterized in that the jump module (5) is provided with an operation refresh period, the operation refresh period is set by manual editing of a system end user, and the operation refresh period is initially set to three seconds by default.

10. The virtual-real combination interactive system based on metauniverse according to claim 1, wherein the control panel (1) is electrically connected with an acquisition module (2) through a medium, the lower stage of the acquisition module (2) is electrically connected with a camera module (21) and an audio capturing module (22) through the medium, the acquisition module (2) is electrically connected with an AI construction module (3) through the medium, the lower stage of the AI construction module (3) is electrically connected with an identification unit (31) and an acquisition unit (32) through the medium, the lower stage of the identification unit (31) and the acquisition unit (32) is electrically connected with a storage unit (33) through the medium, the AI construction module (3) is electrically connected with an analysis module (4) through the medium, the inside of the analysis module (4) is electrically connected with a training unit (41) through the medium, and the analysis module (4) is electrically connected with a skip module (5) and a conversion module (6).

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