CN110833690A - Virtual synchronous all-in-one machine based on-site interaction - Google Patents

Abstract

The invention relates to an integrated machine of virtual synchronization based on site interaction, which comprises a shell; the top surface of the shell is provided with a control panel close to the front position and an installation frame close to the rear position; the installation frame is provided with a virtual character display screen and a field real-time picture display screen; the control panel is provided with a virtual role action switching button, a virtual role control remote control rod, a video output interface and a USB interface; the shell is also provided with a power panel and an audio panel; the power panel is provided with a power interface and a power switch; the audio panel is provided with a field monitoring microphone interface, a background acquisition microphone interface, a background monitoring earphone interface and an audio output interface; a control main board is arranged in the shell. According to the virtual synchronization all-in-one machine based on the field interaction, the field interaction function, the virtual character mouth shape synchronization function and the virtual character control function are integrated into one device, so that on one hand, the operation and control of personnel are facilitated, on the other hand, the space behind a screen can be saved, and the virtual synchronization all-in-one machine can be applied to more scenes.

Description

Virtual synchronous all-in-one machine based on-site interaction

Technical Field

The invention relates to the field of virtual character field interaction, in particular to a virtual synchronization all-in-one machine based on field interaction.

Background

At present, virtual character interaction refers to performing control on a virtual character in a large screen, the performing control of the virtual character generally adopts a computer host as a control host, and also needs to be matched with an operation screen to perform virtual character real-time operation condition feedback, in the aspect of operation, external devices such as a keyboard, a touch screen, a game handle and the like are needed to control the virtual character, and when the devices are applied in an actual scene, a plurality of devices need to be arranged and connected through complex lines, and a larger field is needed to be used as a post-screen operation space; when the space is not enough behind the screen, the operation space needs to be set up in screen one side, and the performance of the virtual character on the large screen is observed and operation is carried out next step, makes operating personnel have to scatter attention, and the large screen is seen to the new line on the one hand, still needs to carry out virtual character's control through peripheral equipment to the underhead on the one hand, and this just makes operating personnel the error, brings not good experience for spectator.

Disclosure of Invention

In order to solve the technical problems, the invention provides an all-in-one machine of virtual synchronization based on field interaction, which integrates the field interaction function, the virtual character mouth shape synchronization function and the virtual character control function into one device, thereby facilitating the operation and control of personnel on one hand, saving the space behind the screen on the other hand and being applicable to more scenes.

The technical scheme adopted by the invention for solving the technical problems is as follows: an integrated machine based on-site interaction virtual synchronization comprises a shell; a control panel is arranged at the position close to the front of the top surface of the shell, and an installation frame is arranged at the position close to the rear; a virtual character display screen is arranged at the left position on the mounting frame, and a field real-time picture display screen is arranged at the right position on the mounting frame; the control panel is provided with a virtual role action switching button at the left position and a virtual role control remote control rod at the lower right position, and the virtual role action switching button is used for controlling the action of a virtual role; the position of the control panel close to the upper right is provided with a video output interface and a USB interface for transmitting data and connecting a field camera; a power panel and an audio panel are arranged on the rear side of the shell; the power panel is provided with a power interface and a power switch; the audio panel is provided with a field monitoring microphone interface, a background acquisition microphone interface, a background monitoring earphone interface and an audio output interface; a control main board is arranged in the shell; the virtual role display screen, the field real-time picture display screen, the virtual role action switching button, the virtual role control remote control rod, the USB interface, the power switch, the field monitoring microphone interface, the background acquisition microphone interface, the background monitoring earphone interface, the audio output interface and the video output interface for connecting a foreground large screen are respectively connected with the control mainboard through lines.

Further, the control main board comprises a data processing module; the system also comprises a virtual character image output module, a field real-time image output module, an audio module, a control instruction module, a power supply module and a data storage module which are connected with the data processing module; the virtual character image output module, the field real-time image output module, the audio module, the control instruction module, the power supply module and the data storage module are respectively connected with the data processing module through lines.

Furthermore, the audio module is connected with the site monitoring microphone interface, the background acquisition microphone interface, the background monitoring earphone interface and the audio output interface respectively, and is used for acquiring the audio data of the site monitoring microphone and the background acquisition microphone respectively, performing sound change processing on the audio data of the background acquisition microphone through the sound change processing of the data processing module, outputting the processed audio data to foreground acoustic equipment, and outputting the processed site monitoring audio to the background monitoring earphone.

Furthermore, the control instruction module is respectively connected with the virtual role action switching button and the virtual role control remote control lever, and is used for acquiring actions of the virtual role action switching button and the virtual role control remote control lever, converting corresponding buttons or actions of the remote control lever into control instructions, and transmitting the control instructions to the data processing module to realize action switching and control of the virtual roles.

Further, the data storage module stores virtual character model data, virtual scene model data, virtual character action data and virtual character mouth shape data.

Further, the data processing module receives the audio data of the audio module and the motion control command data of the control command block, calls corresponding virtual character mouth shape data and corresponding virtual character motion data stored in the data storage module, synthesizes the corresponding virtual character mouth shape data and the corresponding virtual character motion data with the set virtual character model data and virtual scene model data, and outputs image data to the virtual character image output module.

Further, the virtual character image output module is connected with the virtual character display screen and the video output interface through lines and is used for synchronously outputting the virtual character video image to the virtual character display screen and the foreground large screen.

Furthermore, the power module is connected with the power interface and the power switch, and is used for controlling the external power supply and the switch of the power end to provide power for each power utilization module.

Furthermore, a heat radiation fan is further arranged on the side face of the shell and used for radiating heat inside the shell.

The invention has the advantages that: the invention relates to an all-in-one machine of virtual synchronization based on field interaction, which integrates the field interaction function, the virtual character mouth shape synchronization function and the virtual character control function into one device, collects the audio and video of the field to be reflected to background personnel, the background personnel control the action and voice interaction of the virtual character in real time according to the field condition, the voice of the background personnel is processed and output in a sound changing way and is synchronized with the virtual character mouth shape, the virtual synchronization is realized, and the visual experience of the real scene of audiences is provided; the design of the integrated machine reduces the number of equipment and external connecting circuits, has small volume and multiple functions, and saves space behind the screen; the manual positions are close when people look at the device, so that the device is convenient for the operation and control of personnel and reduces the error of the personnel.

Drawings

FIG. 1 is a schematic diagram of an appearance of an embodiment of a virtual synchronization-based all-in-one machine based on field interaction;

FIG. 2 is a schematic rear view of an appearance of an embodiment of a virtual synchronization based on field interaction;

fig. 3 is a schematic diagram of a circuit connection of a control motherboard of an embodiment of a virtual synchronous all-in-one machine based on field interaction;

fig. 4 is a schematic diagram of a use state of a virtual synchronization all-in-one machine based on field interaction according to an embodiment.

Detailed Description

For the purpose of enhancing the understanding of the present invention, the present invention will be described in further detail with reference to the accompanying drawings and examples, which are provided for the purpose of illustration only and are not intended to limit the scope of the present invention.

Examples

As shown in fig. 1 to 3, the present embodiment provides an all-in-one machine for virtual synchronization based on field interaction, which includes ahousing 1; a control panel 2 is arranged at the position, close to the front, of the top surface of theshell 1, and aninstallation frame 3 is arranged at the position, close to the rear, of the top surface of the shell; a virtualcharacter display screen 4 is arranged at the left position on themounting frame 3, and a field real-timepicture display screen 5 is arranged at the right position; a virtual roleaction switching button 6 is arranged at the left position of the control panel 2, and a virtual role controlremote control rod 7 is arranged at the lower right position of the control panel and is used for controlling the action of a virtual role; avideo output interface 19 and aUSB interface 8 for transmitting data and connecting a field camera are arranged at the upper right position of the control panel 2; apower panel 10 and anaudio panel 11 are arranged on the rear side of theshell 1; thepower panel 10 is provided with apower interface 12 and apower switch 13; theaudio panel 11 is provided with a fieldmonitoring microphone interface 15, a backgroundacquisition microphone interface 16, a backgroundmonitoring earphone interface 17 and anaudio output interface 18; a control main board is installed in theshell 1; the virtualcharacter display screen 4, the field real-timepicture display screen 5, the virtual characteraction switching button 6, the virtual character controlremote control rod 7, theUSB interface 8, thepower interface 12, thepower switch 13, the fieldmonitoring microphone interface 15, the backgroundacquisition microphone interface 16, the backgroundmonitoring earphone interface 17, theaudio output interface 18 and thevideo output interface 19 for connecting a foreground large screen are respectively connected with the control mainboard through circuits; the side of thehousing 1 is further provided with a heat dissipation fan 9 for dissipating heat inside the housing.

As shown in fig. 3, in the virtual synchronization all-in-one machine based on field interaction of this embodiment, the control main board includes adata processing module 20; the system also comprises a virtual characterimage output module 21, a field real-timeimage output module 22, anaudio module 23, acontrol instruction module 24, apower supply module 25 and adata storage module 26 which are connected with the data processing module; the virtual characterimage output module 21, the on-site real-timeimage output module 22, theaudio module 23, thecontrol instruction module 24, thepower supply module 25 and thedata storage module 26 are respectively connected with thedata processing module 20 through lines; theaudio module 23 is connected to the sitemonitoring microphone interface 15, the background collectingmicrophone interface 16, the backgroundmonitoring earphone interface 17 and theaudio output interface 18, and is used for collecting the audio data of the site monitoring microphone and the background collecting microphone, respectively, performing a sound change process on the audio data of the background collecting microphone by thedata processing module 20, outputting the processed audio data to a foreground sound device, and outputting the processed site monitoring audio to the background monitoring earphone; thecontrol instruction module 24 is connected with the virtual characteraction switching button 6 and the virtual character controlremote control rod 7 respectively, and is used for acquiring actions of the virtual characteraction switching button 6 and the virtual character controlremote control rod 7, converting corresponding buttons or actions of the remote control rod into control commands, and transmitting the control commands to the data processing module to realize action switching and control of virtual characters; thedata storage module 26 stores virtual character model data, virtual scene model data, virtual character action data and virtual character mouth shape data; thedata processing module 20 receives the audio data of theaudio module 23 and the motion control command data of thecontrol command block 24, calls corresponding virtual character mouth shape data and corresponding virtual character motion data stored in thedata storage module 26, synthesizes the corresponding virtual character mouth shape data and the corresponding virtual character motion data with the set virtual character model data and virtual scene model data, and outputs image data to the virtual character image output module; the virtual characterimage output module 21 is in line connection with the virtualcharacter display screen 4 and thevideo output interface 19, and is used for synchronously outputting virtual character video images to the virtualcharacter display screen 4 and the foreground large screen; thepower module 25 is connected with thepower interface 12 and thepower switch 13, and is used for controlling an external power supply and a power end switch to provide power for each power module.

As shown in fig. 4, when the virtual synchronization all-in-one machine based on field interaction of the present embodiment is used, the field monitoring microphones C are placed in the auditorium a, and the sound boxes D are distributed around the auditorium; arranging a camera J at a position facing an auditorium A, connecting a field monitoring microphone C, a sound box D, the camera J and a front large screen H with an integrated machine L through corresponding interfaces, connecting an earphone E and a microphone F of background personnel with the integrated machine L through corresponding interfaces, and connecting the integrated machine L with a power supply K; and the background personnel can listen and watch at the same time to perform virtual character performance and interact on site at the operation position B.

In addition, since the letter "I" is similar to the number "1", the letter "I" is not shown in fig. 4 to avoid unnecessary trouble.

The above embodiments should not limit the present invention in any way, and all technical solutions obtained by using equivalent alternatives or equivalent transformations fall within the protection scope of the present invention.

Claims (9)

1. The utility model provides an all-in-one of virtual synchronization based on-the-spot interaction which characterized in that: comprises a shell; a control panel is arranged at the position close to the front of the top surface of the shell, and an installation frame is arranged at the position close to the rear; a virtual character display screen is arranged at the left position on the mounting frame, and a field real-time picture display screen is arranged at the right position on the mounting frame; the control panel is provided with a virtual role action switching button at the left position and a virtual role control remote control rod at the lower right position, and the virtual role action switching button is used for controlling the action of a virtual role; the position of the control panel close to the upper right is provided with a video output interface and a USB interface for transmitting data and connecting a field camera; a power panel and an audio panel are arranged on the rear side of the shell; the power panel is provided with a power interface and a power switch; the audio panel is provided with a field monitoring microphone interface, a background acquisition microphone interface, a background monitoring earphone interface and an audio output interface; a control main board is arranged in the shell; the virtual role display screen, the field real-time picture display screen, the virtual role action switching button, the virtual role control remote control rod, the USB interface, the power switch, the field monitoring microphone interface, the background acquisition microphone interface, the background monitoring earphone interface, the audio output interface and the video output interface for connecting a foreground large screen are respectively connected with the control mainboard through lines.

2. The integrated machine for virtual synchronization based on field interaction according to claim 1, wherein: the control main board comprises a data processing module; the system also comprises a virtual character image output module, a field real-time image output module, an audio module, a control instruction module, a power supply module and a data storage module which are connected with the data processing module; the virtual character image output module, the field real-time image output module, the audio module, the control instruction module, the power supply module and the data storage module are respectively connected with the data processing module through lines.

3. The integrated machine for virtual synchronization based on field interaction according to claim 2, wherein: the audio module is respectively connected with the site monitoring microphone interface, the background acquisition microphone interface, the background monitoring earphone interface and the audio output interface, and is used for respectively acquiring the audio data of the site monitoring microphone and the background acquisition microphone, performing sound change processing on the audio data of the background acquisition microphone by the data processing module, outputting the processed audio data to foreground sound equipment, and simultaneously outputting the site monitoring audio processed by the data processing module to the background monitoring earphone.

4. The integrated machine for virtual synchronization based on field interaction according to claim 3, wherein: the control instruction module is respectively connected with the virtual role action switching button and the virtual role control remote control rod and is used for acquiring the actions of the virtual role action switching button and the virtual role control remote control rod, converting the corresponding button or the action of the remote control rod into a control instruction and transmitting the control instruction to the data processing module to realize the action switching and control of the virtual role.

5. The integrated machine for virtual synchronization based on field interaction of claim 4, wherein: the data storage module stores virtual character model data, virtual scene model data, virtual character action data and virtual character mouth shape data.

6. The integrated machine for virtual synchronization based on field interaction of claim 5, wherein: the data processing module receives the audio data of the audio module and the action control command data of the control command block, calls corresponding virtual character mouth shape data and corresponding virtual character action data stored in the data storage module, synthesizes the corresponding virtual character action data with the set virtual character model data and the set virtual scene model data, and outputs image data to the virtual character image output module.

7. The integrated machine for virtual synchronization based on field interaction according to claim 2, wherein: the virtual character image output module is connected with the virtual character display screen and the video output interface circuit and used for synchronously outputting the virtual character video image to the virtual character display screen and the foreground large screen.

8. The integrated machine for virtual synchronization based on field interaction according to claim 2, wherein: the power module is connected with the power interface and the power switch, is used for controlling an external power supply and a power end switch, and provides power for each power utilization module.

9. The integrated machine for virtual synchronization based on field interaction according to claim 1, wherein: and a heat radiation fan is further arranged on the side surface of the shell and used for radiating heat inside the shell.

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