CN213781262U - Live broadcast room - Google Patents

Abstract

The utility model relates to a live broadcast room, which comprises a first display component, a second display component, an audio acquisition component, a first camera component and a first network module; the first display assembly, the audio acquisition assembly and the first camera assembly are respectively connected with the first network module; the second display component is configured to display a demonstration picture; the first camera shooting assembly is configured to shoot towards the second display assembly and collect images in the direction of the second display assembly; the first network module is configured to transmit the image collected by the first camera shooting assembly and the audio data collected by the audio collecting assembly to the remote terminal device for playing, and transmit the image collected by the remote terminal device to the first display assembly for displaying. Can overcome and to accomplish among the prior art that the mr sees student "face-to-face" immersive teacher and student interactive experience's problem to realize mr and student real-time interactive online discussion, promote the teaching effect.

Description

Live broadcast room

Technical Field

The utility model relates to a live room technical field especially relates to a live room.

Background

The existing online live broadcast class, especially the class of more than a dozen people, is the online education form with the highest utilization rate of the public school and the education and culture mechanism. But the online class of whole trade all has the teacher to see the problem of student at present to two drawbacks have been exposed: the teacher can not see the real-time feedback of the learning state of the students, and can not know how to adjust the teaching action of the teacher, and can only press the camera to give a lecture on duty, so that the teaching effect is greatly influenced; since the students know that the teachers can not see the students, the class taking behavior is not restricted, and the learning effect is difficult to ensure.

SUMMERY OF THE UTILITY MODEL

To solve the above technical problem or at least partially solve the above technical problem, the present disclosure provides a live broadcast room.

The present disclosure provides a live broadcast room, which includes: the device comprises a first display assembly, a second display assembly, an audio acquisition assembly, a first camera assembly and a first network module;

the first display assembly, the audio acquisition assembly and the first camera assembly are respectively connected with the first network module;

the second display component is configured to display a demonstration picture;

the first camera shooting assembly is configured to shoot towards the second display assembly and collect images in the direction of the second display assembly;

the first network module is configured to transmit the image collected by the first camera shooting assembly and the audio data collected by the audio collecting assembly to the remote terminal device for playing, and transmit the image collected by the remote terminal device to the first display assembly for displaying.

Further, the first display assembly includes an arcuate LED display screen that is curved in a direction away from the second display assembly.

Further, the first camera assembly comprises a tracking camera and a panoramic camera; wherein the content of the first and second substances,

the tracking camera is configured to track and shoot a main broadcast positioned between the second display assembly and the tracking camera;

the panoramic camera is configured to capture a panoramic image of the second display assembly and the anchor.

Furthermore, the live broadcast room also comprises a second camera shooting assembly and monitoring equipment, and the second camera shooting assembly and the monitoring equipment are respectively connected with the first network module;

the second camera shooting assembly is arranged between the second display assembly and the first camera shooting assembly, is configured to shoot towards the first display assembly and collects images in the direction of the first display assembly;

the first network module is also configured to send the image obtained by shooting by the second camera shooting component to the monitoring equipment;

the monitoring device is configured to monitor a screen on the first display assembly.

Furthermore, the live broadcast room also comprises a multimedia platform;

the multimedia platform is arranged between the first camera shooting assembly and the second display assembly.

Furthermore, the live broadcast room also comprises an illumination assembly and illumination control equipment, wherein the illumination assembly is arranged above the multimedia platform;

the lighting control equipment is connected with the lighting assembly and controls the light of the lighting assembly.

Further, the lighting control apparatus includes: a switch control device and a light effect control device; wherein the content of the first and second substances,

the switch control device is configured to control a power switch of the illumination assembly;

the light effect control arrangement is configured to control an illumination effect of the lighting assembly.

Further, the live broadcast room further comprises: the device comprises an audio playing device, an audio processing component and a video processing component; wherein the content of the first and second substances,

the audio playing device, the audio processing component and the video processing component are connected with the first network module;

the audio processing component is configured to perform tuning processing on the audio data acquired by the audio acquisition component and send the audio data after the tuning processing to the first network module, so that the first network module sends the audio data after the tuning processing to the remote terminal equipment;

the audio processing component is also configured to perform tuning processing on the audio data received by the first network module from the remote terminal equipment, and send the audio data after the tuning processing to the audio playing equipment for playing;

the video processing assembly is configured to package and/or selectively process images acquired by the first camera assembly and the second camera assembly, and send the processed images to the first network module, so that the first network module sends the processed images to the remote terminal equipment, and

the video processing assembly is also configured to perform color correction and adjustment processing on the image received by the first network module from the remote terminal device, and send the processed image to the first display assembly for display.

Further, the audio processing component comprises: a digital sound console and a digital audio processor; wherein the content of the first and second substances,

the digital sound console is configured to adjust the volume and time delay of the audio data acquired by the audio acquisition component and the audio data transmitted by the remote terminal equipment;

the digital audio processor is configured to perform optimization processing on the sound quality of the audio data adjusted by the digital sound mixing console.

Further, the video processing component comprises: a first video processing component and a second video processing component; wherein the content of the first and second substances,

the first video processing assembly is configured to carry out color correction and adjustment processing on images acquired by the first camera assembly and the second camera assembly; and/or

Performing special effect switching processing on the images acquired by the first camera shooting assembly and the second camera shooting assembly and the images transmitted by the remote terminal equipment;

the second video processing assembly is configured to perform color correction and adjustment processing on the image transmitted by the far-end terminal device, and transmit the adjusted image to the first display assembly for display.

Compared with the prior art, the technical scheme provided by the embodiment of the disclosure has the following advantages:

by adopting the technical scheme provided by the disclosure, the live broadcast room comprises a first display component, a second display component, an audio acquisition component, a first camera component and a first network module;

the first display assembly, the audio acquisition assembly and the first camera assembly are respectively connected with the first network module; the second display component is configured to display a demonstration picture; the first camera shooting assembly is configured to shoot towards the second display assembly and collect images in the direction of the second display assembly; the first network module is configured to transmit the image collected by the first camera shooting assembly and the audio data collected by the audio collecting assembly to the remote terminal device for playing, and transmit the image collected by the remote terminal device to the first display assembly for displaying. Can overcome among the prior art mr can not see the student, the student knows that mr can not see oneself, and the action of going to class is not retrained, can't accomplish mr see student "face-to-face" immersive teacher and student and alternately experience the problem to realize mr and student real-time interactive online discussion, promote the teaching effect.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

In order to more clearly illustrate the embodiments or technical solutions in the prior art of the present disclosure, the drawings used in the description of the embodiments or prior art will be briefly described below, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive exercise.

Fig. 1 is a schematic structural diagram of a live broadcast room provided in an embodiment of the present disclosure;

fig. 2 is a schematic diagram of a device connection of a live broadcast room provided by an embodiment of the present disclosure;

fig. 3 is a schematic view of another structure of a live broadcast room provided in the embodiment of the present disclosure;

fig. 4 is a schematic diagram of another device connection of a live broadcast room provided by the embodiment of the present disclosure;

fig. 5 is a schematic diagram of another device connection of a live broadcast room provided by an embodiment of the present disclosure;

fig. 6 is a schematic diagram of another device connection in a live broadcast room according to an embodiment of the present disclosure.

Detailed Description

In order that the above objects, features and advantages of the present disclosure may be more clearly understood, aspects of the present disclosure will be further described below. It should be noted that the embodiments and features of the embodiments of the present disclosure may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present disclosure, but the present disclosure may be practiced in other ways than those described herein; it is to be understood that the embodiments disclosed in the specification are only a few embodiments of the present disclosure, and not all embodiments.

In order to facilitate understanding of the technical solutions of the present disclosure, some of the professional techniques related to the present disclosure are explained first:

switching special effects: the method is characterized in that one path of video is selected from multiple paths of video for playing and displaying, and special effects are added into the selected video.

Fig. 1 is a schematic structural diagram of a live broadcast room provided in an embodiment of the present disclosure.

Referring to fig. 1, the live broadcast room 100 includes a first display component 101, a second display component 102, an audio capture component 103, a first camera component 104, and a first network module 105.

The display screens of the first display assembly 101 and the second display assembly 102 are arranged oppositely, and the first camera assembly 104 is arranged between the first display assembly 101 and the second display assembly 102; the second display component 102 is configured to display a presentation.

Specifically, in this embodiment, the first display assembly 101 may include an arc-shaped LED display screen, which is bent toward a direction away from the second display assembly 102; the second display component 102 may include a screen 1, a screen 2 and a screen 3, wherein the screen 1, the screen 2 and the screen 3 are controlled by a host, the screen 1 and the screen 3 may display video data played in a live broadcast, and the screen 2 may be understood as an intelligent blackboard and may display real-time blackboard-writing content; the first camera assembly 104 may include a tracking camera, a panoramic camera; the audio capture component 103 can include at least one of a collar-clip microphone, a handheld microphone, or a microphone built into the second display component for capturing sound in a live room.

It should be noted that the number of screens included in the second display assembly 102 and the display content in the screens can be flexibly set by those skilled in the art according to actual situations, and the embodiment of the present disclosure does not limit this.

Fig. 2 is a schematic diagram of device connection in a live broadcast room according to an embodiment of the present disclosure.

With reference to fig. 2, the first display module 101, the audio capturing module 103 and the first camera module 104 in the live broadcast room 100 are respectively connected to the first network module 105; the first camera assembly 104 is configured to capture images toward the second display assembly 102 (not shown in fig. 2), and capture images of the second display assembly 102; the first network module 105 is configured to transmit the image acquired by the first camera component 104 and the audio data acquired by the audio acquisition component 103 to the remote terminal 201 for playing, and transmit the image acquired by the remote terminal 201 to the first display component 101 for displaying.

Fig. 3 is a schematic structural diagram of a live broadcast room provided in an embodiment of the present disclosure.

With reference to fig. 3, the live broadcast room 100 further includes a second camera assembly 301 and a monitoring device 302.

The second camera assembly 301 is disposed between the second display assembly 102 and the first display assembly 101, the second camera assembly 301 is configured to shoot towards the first display assembly 101, as shown in fig. 4, fig. 4 is a schematic diagram of still another device connection of a live broadcast provided by an embodiment of the present disclosure. The second camera module 301 collects the image in the direction of the first display module 104; the first network module 105 is further configured to send the image captured by the second camera component 301 to the monitoring device 302; the monitoring device 302 is configured to monitor the screen on the first display assembly 101; wherein, the first network module 105 may include a switch and an educational interactive server; the second camera assembly 301 may include a pan-tilt camera.

Illustratively, in the embodiment of the present disclosure, the arc-shaped LED display screen is arranged opposite to the screen 1, the screen 2 and the screen 3, the arc-shaped LED display screen is bent to face away from the display direction of the screen 1, the screen 2 and the screen 3, a tracking camera and a panoramic camera are arranged among the arc-shaped LED display screen, the screen 1, the screen 2 and the screen 3, the tracking camera is configured to perform real-time tracking shooting on teachers positioned among the screen 1, the screen 2, the screen 3 and the tracking camera, the panoramic camera is used for shooting images displayed by the screen 1, the screen 2 and the screen 3 and images of the teachers, meanwhile, a pan-tilt camera is arranged among the tracking camera, the panoramic camera, the screen 1, the screen 2 and the screen 3 and is configured to shoot images on the arc-shaped LED display screen, and sends the above-mentioned photographed image to the monitoring device 302, so that the monitoring device 302 can monitor the image on the arc LED display screen.

In the embodiment of the present disclosure, the switch is used in the live broadcast room 100 to connect with the external network through the network cable, the network signal of the external network is transmitted into the live broadcast room 100 through the switch, and then the network signal in the switch is transmitted to each device through the network cable in the live broadcast room 100 through the network cable, so that the local area network coverage of the live broadcast room is realized.

The switch is a network device capable of performing network transmission and data exchange, and can transmit audio data acquired by the audio acquisition component 103 of the live broadcast room and images acquired by the first camera component 104 and the second camera component 301 to the education interaction server through the local area network, and simultaneously transmit audio data and images of remote terminal equipment received by the education interaction server to the live broadcast room.

The education interaction server can be understood as a device for providing application services, in the process of audio and video transmission, audio data and images are firstly uploaded to the education interaction server through a local area network, and the audio data and the images are synchronously processed through the education interaction server and transmitted to the remote terminal device; or the educational interactive server may perform synchronous processing on the audio data and the video collected in the remote terminal 201, and transmit the audio data and the video of the remote terminal 201 to the live broadcast room.

According to the technical scheme provided by the disclosure, the image acquired by the remote terminal device 201 is transmitted to the first display component 101 for display, so that the problems that in the prior art, a teacher cannot see students, the students know that the teacher cannot see the students, the lessons are not restricted, and the teacher cannot see the interactive experience of the students in a face-to-face immersive manner can be solved, so that the online study of real-time interaction between the teacher and the students can be realized, and the teaching effect can be ensured; the first display assembly 101 is arranged into an arc-shaped LED display screen to realize uniform curved surface change, images are not dragged and are not shaded, and a smooth display curved surface is realized; simultaneously because the design of curved surface screen can let mr be on the spot, can be with far-end student's action all the time to receive the eye ground, help mr in time understand student's learning degree and mood change for mr can in time adjust the teaching strategy to student's state, realizes the quality of on-line teaching.

The tracking camera utilized by the method can automatically focus according to the position of the teacher, can ensure that the image of the teacher can be positioned in the middle of the remote terminal equipment in the clearest state no matter where the teacher is positioned, and ensures the quality of the video image displayed by the teacher; the camera of tracking camera, panorama camera and the other camera of three different scenes of cloud platform camera has been used in the same for can switch panorama, well scene or feature according to mr teaching content needs, can also follow mr's visual angle and start, let every student of distal end can both experience the formation of image picture of oneself in the live room, promote live and experience.

Fig. 5 is a schematic diagram of another device connection in a live broadcast room according to an embodiment of the present disclosure.

In conjunction with fig. 5, the live broadcast room may further include an audio playing device 501, an audio processing component 502, and a video processing component 503; wherein the content of the first and second substances,

an audio playback device 501, an audio processing component 502 and a video processing component 503 are connected to the first network module 105.

The audio processing component 502 is configured to perform tuning processing on the audio data acquired by the audio acquisition component 103, and send the audio data after tuning processing to the first network module 105, so that the first network module 105 sends the audio data after tuning processing to the remote terminal device 201.

The audio processing component 502 is further configured to perform tuning processing on the audio data received by the first network module 105 from the remote terminal device 201, and send the audio data after tuning processing to the audio playing device 501 for playing.

The video processing component 503 is configured to package and/or select the images captured by the first camera component 104 and the second camera component 301, and send the processed images to the first network module 105, so that the first network module 105 sends the processed images to the remote terminal device, and

the video processing component 503 is further configured to perform color correction adjustment processing on the image received by the first network module from the remote terminal device, and send the processed image to the first display component 101 for display.

Specifically, in the embodiment, as shown in fig. 6, a schematic diagram of another device connection of a live broadcast room provided by the embodiment is shown.

The audio playing device 501 includes at least a main sound post 601, a complementary sound 602, a listening box 603, and a sound card 604 built in the host of screen 1, screen 2, and screen 3.

The audio processing component 502 may include a digital mixing console 605 and a digital audio processor 606; wherein the content of the first and second substances,

the digital mixing console 605 is configured to adjust the volume and the time delay of the audio data collected by the audio collection component 103 and the audio data transmitted by the far-end terminal device 201.

The digital audio processor 606 is configured to perform optimization processing on the sound quality of the audio data adjusted 605 by the digital mixing console.

The video processing component 503 may include a first video processing component 607 and a second video processing component 608; wherein the content of the first and second substances,

the first video processing module 607 is configured to perform color correction adjustment processing on the images captured by the first camera module 104 and the second camera module 301; and/or performing special effect switching processing on the images acquired by the first camera assembly 104 and the second camera assembly 301.

The second video processing component 608 is configured to perform color correction adjustment processing on the image transmitted by the remote terminal device, and transmit the adjusted image to the first display component 101 for display.

In this embodiment, the first video processing component may include a video director all-in-one machine, and the second video processing component may include a video stitching processor.

Illustratively, on the basis of fig. 5, after audio data collected by a lapel microphone, a handheld microphone or a microphone built in the second display component 102 is utilized, the collected audio data and the audio data transmitted by the remote terminal 201 are transmitted to the digital console 605 to adjust the volume and the time delay, so as to improve the restorability and the definition of the audio data, and the audio data adjusted by the digital console 605 is transmitted to the digital audio processor 606, the digital audio processor 606 is utilized to perform optimization processing on the sound quality of the audio data adjusted by the digital console 605, such as optimization processing of noise reduction, echo cancellation, feedback cancellation and the like, so as to improve the sound quality, and finally the optimized audio data is played through one of the main sound column 601, the supplementary sound 602, the listening sound box 603 and the sound card 604 built in the host of the screen 1, the screen 2 and the screen 3, or sent to the educational interactive server via a local area network.

On the basis of fig. 5, the images collected by the tracking camera and located between the screen 1, the screen 2, the screen 3 and the tracking camera and tracked in real time by the teacher, the images collected by the panoramic camera and displayed on the screen 1, the screen 2 and the screen 3 and displayed on the teacher, and the images collected by the pan-tilt camera and displayed on the arc LED display screen are transmitted to the video director packaging all-in-one machine for color correction adjustment, video packaging, video selection and/or special effect switching, and the images processed by the video director packaging all-in-one machine are transmitted to the video stitching processor, the images transmitted by the remote terminal 201 are subjected to color correction adjustment in the video stitching processor, and the adjusted images are transmitted to the first display component 101 for display, or the video stitching processor can also divide the images in the video director all-in-one machine into N display units, and the divided images are transmitted to the monitoring device 302 for display, such as a director display screen, a back-up television and the like, or the divided images are sent to an education interaction server through a local area network, and the education interaction server pushes the received audio data and the images to the remote terminal device 201 through the education interaction server for remote students to learn.

According to the technical scheme provided by the disclosure, the second display component 102 is arranged into three screens, so that each teacher can show his or her courseware or writing on a blackboard, and the respective note tracks of the teachers can be recognized at the same time.

Specifically, in one embodiment, the live room 100 may also include a multimedia podium.

A multimedia podium may be disposed between the first camera assembly 104 and the second camera assembly 301.

The live room 100 may also include lighting assemblies and lighting control devices.

The lighting assembly may be disposed above the multimedia platform.

The lighting control equipment is connected with the lighting assembly and controls the light of the lighting assembly.

In particular, in one embodiment, the lighting control apparatus may comprise a switch control device and a light effect control device; wherein the content of the first and second substances,

the switch control means is configured to control a power switch of the illumination assembly.

The light effect control arrangement is configured to control an illumination effect of the lighting assembly.

Wherein, the lighting assembly can comprise an LED three-primary-color cold light lamp; the switch control device can comprise a central control host and a power supply manager; the light effect control device may comprise a computer light console.

The central control host can be configured to control the switch of the power supply manager, and when the switch of the power supply manager is switched on, the central control host controls the switch of the power supply of the LED three-primary-color cold light lamp; the computer light console can be configured to control the lighting effect of the LED three-primary-color cold light lamp aiming at different scenes.

In the technical scheme provided by the disclosure, the LED three-primary-color cold light lamps are arranged around the multimedia platform, the number of the LED three-primary-color cold light lamps can be matched with the size of the multimedia platform and the requirement of a live room, in the embodiment, the LED three-primary-color cold light lamps are arranged around the multimedia platform, and because the LED three-primary-color cold light lamps are controlled by a computer light console to emit light, the light can be diffused in a soft and uniform large area and can be directly emitted light without obvious facula traces, the picture shot by the first camera component 104 is relatively clean and natural, and the natural light effect of an object is more realistically reproduced, because the LED three-primary-color cold light lamps are arranged around the multimedia platform, shadows or the projection of the object generated by the irradiated object can be faded and eliminated, so that a teacher is ensured to stand at any position of the multimedia platform, the light rays can not be changed, so that the contour of the teacher is clear and shadowless; the switch of the LED tricolor cold light lamp is controlled by the computer light console, and the LED tricolor cold light lamp utilizes a halogen tungsten lamp instead of a tungsten filament lamp or a quartz bulb which can generate infrared radiation heat, so discomfort such as dysphoria in the heart, reddish-ear and the like of a teacher can be obviously eliminated, a relaxed environment is created with a cool lighting effect, the live broadcast atmosphere is kept in the best state, and meanwhile, in order to enable a teacher to have free body shape in class as much as possible, the teacher is also provided with an electronic laser pen which has a remote pointing function, and the teacher does not need to be caught in front of a blackboard any more, and can use each position of the multimedia lecture platform in all directions.

In one embodiment, the live broadcast room 100 may further include a second network module, and the second display component 102 is connected to the second network module, so that the teacher can conveniently search for the material and facilitate teaching through the network.

The second network module may include a switch and a wireless router, i.e., a wireless access point.

The wireless access point is connected with the switch to expand the network to form wireless coverage of the live broadcast room, so that all the devices which can be connected with the wireless network in the live broadcast room can be connected with the wireless network, and data sharing in the live broadcast room is realized or the devices in the live broadcast room are controlled; if the mobile terminal equipment is wirelessly connected with the wireless access point, controlling a power switch of the central control host; or control a switch of the video stitching processor 608.

Illustratively, in one embodiment, the live room may further include a control room.

The first network module 105, the audio processing module 502, the video processing component 503, the lighting control device, and the second network module are provided in the control room in the disclosed embodiment.

It is noted that, in this document, relational terms such as "first" and "second," and the like, may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The foregoing are merely exemplary embodiments of the present disclosure, which enable those skilled in the art to understand or practice the present disclosure. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the disclosure. Thus, the present disclosure is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A live broadcast room, characterized in that the live broadcast room comprises: the device comprises a first display assembly, a second display assembly, an audio acquisition assembly, a first camera assembly and a first network module;

the first display component, the audio acquisition component and the first camera component are respectively connected with the first network module;

the second display component is configured to display a presentation screen;

the first camera shooting assembly is configured to shoot towards the second display assembly and collect images in the direction of the second display assembly;

the first network module is configured to transmit the image acquired by the first camera component and the audio data acquired by the audio acquisition component to a remote terminal device for playing, and transmit the image acquired by the remote terminal device to the first display component for displaying.

2. The live room of claim 1, wherein the first display assembly comprises an arcuate LED display screen that curves in a direction away from the second display assembly.

3. The live broadcast room of claim 1, wherein the first camera assembly comprises a tracking camera, a panoramic camera; wherein the content of the first and second substances,

the tracking camera is configured to track and shoot a main broadcast positioned between the second display assembly and the tracking camera;

the panoramic camera is configured to capture panoramic imagery of the second display assembly and the anchor.

4. The live broadcast room according to any one of claims 1-3, further comprising a second camera assembly and a monitoring device, wherein the second camera assembly and the monitoring device are respectively connected to the first network module;

the second camera shooting assembly is arranged between the second display assembly and the first camera shooting assembly, is configured to shoot towards the first display assembly and collects images in the direction of the first display assembly;

the first network module is also configured to send an image obtained by shooting by the second camera shooting component to the monitoring equipment;

the monitoring device is configured to monitor a screen on the first display assembly.

5. A live broadcast room as claimed in claim 1, wherein said live broadcast room further comprises a multimedia podium;

the multimedia platform is arranged between the first camera shooting assembly and the second display assembly.

6. The live broadcast room of claim 5, further comprising a lighting assembly and a lighting control device, the lighting assembly being disposed above the multimedia podium;

the lighting control equipment is connected with the lighting assembly and controls the light of the lighting assembly.

7. A live broadcast room as claimed in claim 6, wherein the lighting control apparatus comprises: a switch control device and a light effect control device; wherein the content of the first and second substances,

the switch control device is configured to control a power switch of the lighting assembly;

the light effect control arrangement is configured to control an illumination effect of the lighting assembly.

8. The live broadcast room of claim 4, further comprising an audio playback device, an audio processing component, and a video processing component; wherein the content of the first and second substances,

the audio playing device, the audio processing component and the video processing component are connected with the first network module;

the audio processing component is configured to perform tuning processing on the audio data acquired by the audio acquisition component and send the audio data after the tuning processing to the first network module, so that the first network module sends the audio data after the tuning processing to the remote terminal device;

the audio processing component is further configured to tune audio data received by the first network module from the remote terminal device, and send the tuned audio data to the audio playing device for playing;

the video processing component is configured to package and/or selectively process the images acquired by the first camera component and the second camera component, and send the processed images to the first network module, so that the first network module sends the processed images to the remote terminal device, and

the video processing component is further configured to perform color correction adjustment processing on the image received by the first network module from the remote terminal device, and send the processed image to the first display component for display.

9. The live broadcast room of claim 8, wherein the audio processing component comprises: a digital sound console and a digital audio processor; wherein the content of the first and second substances,

the digital sound console is configured to adjust the volume and the time delay of the audio data collected by the audio collection component and the audio data transmitted by the remote terminal equipment;

the digital audio processor is configured to perform optimization processing on the tone quality of the audio data adjusted by the digital sound console.

10. The live broadcast room of claim 8, wherein the video processing component comprises: a first video processing component and a second video processing component; wherein the content of the first and second substances,

the first video processing assembly is configured to perform color correction adjustment processing on images acquired by the first camera assembly and the second camera assembly; and/or

Performing special effect switching processing on the images acquired by the first camera shooting assembly and the second camera shooting assembly and the images transmitted by the far-end terminal equipment;

the second video processing assembly is configured to perform color correction adjustment processing on the image transmitted by the far-end terminal device, and transmit the adjusted image to the first display assembly for display.

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