WO2023240896A1 - Ultra-high-definition video signal processing device and method, and ultra-high-definition video management system - Google Patents
Ultra-high-definition video signal processing device and method, and ultra-high-definition video management system Download PDFInfo
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- WO2023240896A1 WO2023240896A1 PCT/CN2022/129089 CN2022129089W WO2023240896A1 WO 2023240896 A1 WO2023240896 A1 WO 2023240896A1 CN 2022129089 W CN2022129089 W CN 2022129089W WO 2023240896 A1 WO2023240896 A1 WO 2023240896A1
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- definition video
- video signal
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- 238000000034 method Methods 0.000 title abstract description 21
- 238000004891 communication Methods 0.000 claims description 35
- 238000003672 processing method Methods 0.000 claims description 15
- 238000005516 engineering process Methods 0.000 description 8
- 230000003993 interaction Effects 0.000 description 8
- 238000010586 diagram Methods 0.000 description 6
- 238000004171 remote diagnosis Methods 0.000 description 4
- 230000009286 beneficial effect Effects 0.000 description 3
- 230000005540 biological transmission Effects 0.000 description 3
- WHXSMMKQMYFTQS-UHFFFAOYSA-N Lithium Chemical compound [Li] WHXSMMKQMYFTQS-UHFFFAOYSA-N 0.000 description 1
- 230000002452 interceptive effect Effects 0.000 description 1
- 229910052744 lithium Inorganic materials 0.000 description 1
- 230000002194 synthesizing effect Effects 0.000 description 1
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Classifications
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N21/00—Selective content distribution, e.g. interactive television or video on demand [VOD]
- H04N21/40—Client devices specifically adapted for the reception of or interaction with content, e.g. set-top-box [STB]; Operations thereof
- H04N21/43—Processing of content or additional data, e.g. demultiplexing additional data from a digital video stream; Elementary client operations, e.g. monitoring of home network or synchronising decoder's clock; Client middleware
- H04N21/44—Processing of video elementary streams, e.g. splicing a video clip retrieved from local storage with an incoming video stream or rendering scenes according to encoded video stream scene graphs
- H04N21/4402—Processing of video elementary streams, e.g. splicing a video clip retrieved from local storage with an incoming video stream or rendering scenes according to encoded video stream scene graphs involving reformatting operations of video signals for household redistribution, storage or real-time display
- H04N21/440218—Processing of video elementary streams, e.g. splicing a video clip retrieved from local storage with an incoming video stream or rendering scenes according to encoded video stream scene graphs involving reformatting operations of video signals for household redistribution, storage or real-time display by transcoding between formats or standards, e.g. from MPEG-2 to MPEG-4
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N7/00—Television systems
- H04N7/01—Conversion of standards, e.g. involving analogue television standards or digital television standards processed at pixel level
- H04N7/0125—Conversion of standards, e.g. involving analogue television standards or digital television standards processed at pixel level one of the standards being a high definition standard
Definitions
- the present application relates to the field of video technology, and in particular to an ultra-high-definition video signal processing device, method, and ultra-high-definition video management system.
- the main purpose of this application is to provide an ultra-high-definition video signal processing device, method, and ultra-high-definition video management system, aiming to solve the technical problem of poor flexibility of ultra-high-definition video display in the existing technology.
- the ultra-high-definition video signal processing device includes:
- An ultra-high-definition video decoding module is used to decode the received ultra-high-definition video signal and obtain at least one decoded signal;
- An image processing module connected to the ultra-high-definition video decoding module, used to perform image processing on each of the decoded signals to obtain at least one signal to be encoded;
- An ultra-high-definition video encoding module connected to the image processing module, is used to obtain display parameters of at least one display device, and encode or transcode each of the signals to be encoded according to the display parameters to obtain at least one video signal to be displayed.
- each of the video signals to be displayed carries the identification code of the corresponding display device.
- the image processing includes image cutting processing
- the image processing module includes:
- An image cutting unit is configured to perform image cutting processing on each of the decoded signals based on preset image cutting rules to obtain at least one signal to be encoded.
- the image processing includes image overlay processing
- the image processing module includes:
- An image superposition unit configured to obtain target specification information and target position information corresponding to each of the decoded signals, and perform image superposition processing on each of the decoded signals based on the target specification information and target position information corresponding to each of the decoded signals.
- the ultra-high-definition video signal processing device further includes a communication module.
- the communication module is communicatively connected to the cloud server and/or at least one ultra-high-definition video signal acquisition device, and is used to receive data from the cloud server and/or each The ultra-high-definition video signal is sent by the ultra-high-definition video signal collection device.
- the ultra-high-definition video encoding module is also connected to the communication module, and is used to upload each of the video signals to be displayed to the cloud server through the communication module.
- the ultra-high-definition video signal processing device further includes a power supply module configured to provide power to the ultra-high-definition video signal processing device.
- the ultra-high definition video signal processing device further includes:
- a storage module is connected to the ultra-high-definition video encoding module and used to store each of the video signals to be displayed.
- the ultra-high-definition video management system includes:
- At least one ultra-high-definition video signal collection device used to collect ultra-high-definition video signals
- the ultra-high-definition video signal processing equipment as described above, the ultra-high-definition video signal processing equipment is communicatively connected to each of the ultra-high-definition video signal collection equipment through Gigabit network and/or 5G, and the ultra-high-definition video signal processing equipment is connected through Gigabit network and/or 5G.
- At least one display device is used to output and display video signals to be displayed.
- the ultra-high-definition video signal collection device includes an ultra-high-definition camera and/or an ultra-high-definition screen recording device.
- This application also provides an ultra-high-definition video signal processing method, which is applied to the ultra-high-definition video signal processing equipment as described above and includes the following steps:
- the signals to be encoded corresponding to each of the display devices are encoded or transcoded according to the display parameters of the display devices to obtain at least one video signal to be displayed, and each of the video signals to be displayed carries the information of the corresponding display device. identification code.
- This application provides an ultra-high-definition video signal processing device, method, and ultra-high-definition video management system.
- the ultra-high-definition video decoding module Through the ultra-high-definition video decoding module, the received ultra-high-definition video signal is decoded to obtain at least one decoded signal, realizing the signal source.
- One or more ultra-high-definition video signals generated are subjected to unified decoding processing and reception management, and then the image processing module performs image processing on each of the decoded signals to obtain at least one signal to be encoded, realizing the decoding of one or more signal sources.
- the high-definition video signal processing equipment connects the signal source and the display device to realize unified decoding, image processing and encoding of one or more ultra-high-definition video signals generated by one or multiple signal sources, and realizes the unification of ultra-high-definition video signals.
- Processing and management so that the processing, transmission and display of ultra-high definition video signals are no longer limited to a single collection device and display device, but can be flexibly transmitted and displayed between various collection devices and display devices, thus It can be flexibly applied to practical application scenarios such as multi-terminal interaction, multi-source or multi-display terminals, and overcomes the technical problem of poor flexibility in ultra-high definition video display in the existing technology.
- Figure 1 is a schematic structural diagram of an embodiment of ultra-high definition video signal processing equipment in this application.
- Figure 2 is a schematic scene diagram of an implementation manner for image cutting processing on each of the decoded signals in this application;
- Figure 3 is a schematic scene diagram of an implementation method for performing image superposition processing on each of the decoded signals in this application;
- Figure 4 is a schematic scene diagram of an implementation mode of the ultra-high-definition video signal processing device in this application;
- FIG. 5 is a schematic structural diagram of an embodiment of the ultra-high definition video management system in this application.
- FIG. 6 is a schematic flowchart of an embodiment of the ultra-high definition video signal processing method in this application.
- an embodiment of the present application provides an ultra-high-definition video signal processing device.
- the ultra-high-definition video signal processing device 10 at least includes: an ultra-high-definition video decoding module. 11.
- the ultra-high-definition video decoding module 11 can establish a wired communication connection or a wireless communication connection with at least one ultra-high-definition video signal collection device, such as a 5G network wireless connection, Gigabit network wired connection, etc.
- the ultra-high-definition video signal processing device further includes a communication module.
- the communication module is communicatively connected to the cloud server and/or at least one ultra-high-definition video signal acquisition device, and is used to receive data from the cloud server and/or each The ultra-high-definition video signal is sent by the ultra-high-definition video signal collection device.
- the ultra-high-definition video signal processing device further includes a communication module.
- the communication module includes a 5G communication module and/or at least one network interface.
- the 5G communication module is used to communicate with the cloud server and/or Each of the ultra-high-definition video signal collection devices establishes a wireless communication connection through the 5G network, and the network interface is used to establish a wired communication connection with the cloud server and/or each of the ultra-high-definition video signal collection equipment through Ethernet, and then receives One or more ultra-high-definition video signals sent by the cloud server and/or each of the ultra-high-definition video signal collection devices, the communication module is connected to the ultra-high-definition video decoding module 11, and the received ultra-high-definition video The signal is sent to the ultra-high definition video decoding module 11 for decoding.
- the ultra-high-definition video signal processing equipment can often only transmit signals to the ultra-high-definition video signal acquisition equipment and display equipment within a short distance through the communication module, and through the cloud server, it can obtain Longer-distance ultra-high-definition video signals, signal processing and output display, thereby achieving higher definition and higher quality remote interaction, improving digital education, video conferencing, remote diagnosis, etc. that use video as a medium to obtain and transmit information.
- the quality of digital interaction methods, and in the process of remote interaction it is often difficult to ensure that the peer video signal can definitely match the display requirements of the local display device.
- the quality of the output display may be affected due to poor adaptability, for example
- the video format does not match, the image size does not match the screen size, the resolution or refresh rate does not match, etc. Therefore, the video signal uploaded to the cloud server by the opposite end is decoded, image processed and encoded through the ultra-high definition video signal processing equipment. , which can make the video signal better match the actual needs of the local display device.
- the image processing module 12 can be connected to the ultra-high-definition video decoding module 11, receive each of the decoded signals obtained after decoding by the ultra-high-definition video decoding module 11, and decode each of the decoded signals according to a preset image processing method.
- the signal is subjected to image processing to obtain at least one signal to be encoded, wherein the preset image processing method is an image processing method for ultra-high-definition video signals, including cutting an image into multiple partial images and splicing multiple images. Or superimpose and combine to form a whole image, adjust the size of the image or adjust the saturation, brightness and other image parameters of the image, etc.
- the image processing method can be the method set by default in the ultra-high-definition video signal processing device, or It may be an image processing method determined based on user operation obtained through application software corresponding to the ultra-high definition video signal processing device.
- the image processing includes image cutting processing
- the image processing module includes:
- An image cutting unit is configured to perform image cutting processing on each of the decoded signals based on preset image cutting rules to obtain at least one signal to be encoded.
- the image processing includes image cutting processing
- the image processing module includes an image cutting unit.
- the image cutting unit performs image cutting on each of the decoded signals based on preset image cutting rules.
- the application software corresponding to the ultra-high-definition video signal processing equipment obtains the image processing method determined based on user operations.
- the step of performing image cutting processing on each of the decoded signals based on a preset image cutting rule includes: obtaining the number of the display devices corresponding to each of the decoded signals, and determining each Whether the number of display devices corresponding to one decoded signal is more than one. If it is determined that in each of the decoded signals, there is an image to be processed corresponding to more than one display device, through the application software corresponding to the ultra-high-definition video signal processing device. The user is prompted to determine whether to perform image cutting processing on the image to be processed by inputting a control instruction. If it is determined to perform image cutting processing on the image to be processed based on the user operation information, the user is prompted to input a control instruction through the application software.
- the cutting position corresponding to the image to be processed and the target display device for output display corresponding to each partial image after cutting according to the At the cutting position, the image to be processed is cut into at least one partial image, and each partial image carries the identification code of its corresponding target display device, so that each of the target display devices can output and display its corresponding partial image.
- Accurate cutting and directional display of images wherein the partial image is a part of the image to be processed obtained after the image to be processed is segmented according to the cutting position, and all partial images can be combined into a complete image to be processed.
- the complete image to be processed is output and displayed through each of the display devices.
- the target display device corresponding to the image to be processed includes display A, display B, display C and display D. Based on the user operation information, it is determined to cut the image to be processed in a field shape, and cut The final partial image A corresponds to display A, partial image B corresponds to display B, partial image C corresponds to display C, and partial image D corresponds to display D.
- partial image A, partial image B, partial image C and partial image Image D and display partial image A through display A, display partial image B through display B, display partial image C through display C, and display partial image D through display D.
- multiple monitors can output and display parts of a complete video at the same time, thereby realizing the output of the complete video, which can increase the video display area while ensuring the video display quality. Clarity.
- the image processing includes image overlay processing
- the image processing module includes:
- An image superposition unit configured to obtain target specification information and target position information corresponding to each of the decoded signals, and perform image superposition processing on each of the decoded signals based on the target specification information and target position information corresponding to each of the decoded signals.
- the image processing includes image superposition processing
- the image processing module includes an image superposition unit.
- the image superposition unit obtains target specification information and target position information corresponding to each of the decoded signals, Based on the target specification information and target location information corresponding to each of the decoded signals, image superposition processing is performed on each of the decoded signals, wherein the target specification information and target location information corresponding to each of the decoded signals may be the
- the default setting in the ultra-high-definition video signal processing device may also be determined based on user operations through the application software corresponding to the ultra-high-definition video signal processing device.
- the target specification information and target location information corresponding to each of the decoded signals are obtained, and based on the target specification information and target location information corresponding to each of the decoded signals, each of the decoded signals is obtained.
- the step of performing image superposition processing on signals includes: obtaining the number of decoded signals corresponding to each of the display devices, and determining whether the number of decoded signals corresponding to each of the display devices exceeds one.
- the software inputs control instructions (for example, through remote control input, selection or input in the display interface, etc.) to determine the superimposed display mode of the images to be processed corresponding to each of the decoded signals.
- all The image to be processed corresponding to the decoded signal corresponding to the first target display device is subjected to image overlay processing, wherein the overlay display method includes combination display or switching display, and the image overlay processing includes image combination processing and image switching processing, etc.
- the combination is displayed by superimposing or splicing the images to be processed in the same display area, and synthesizing the superimposed or spliced images to be processed into an image to be encoded.
- each of the images to be processed is The images to be processed are output and displayed in their respective display areas.
- the signal collection, transmission, processing and output corresponding to each of the images to be processed are independent of each other and do not interfere with each other.
- the switching display is to set one of the images to be processed as the image to be encoded, and when the video switching instruction is received, the image to be encoded is switched to the switching instruction.
- Figure 3 is a schematic diagram of a scene for performing image combination processing on the images to be processed.
- Image A, image B, and image C all correspond to the same target.
- the display device can jointly perform output display on the target display device after processing the position and specifications of the image A, the image B and the image C to be processed.
- the layer position of the image A to be processed is in the image to be processed.
- the layer position of B is the upper layer, so the part of the image B that overlaps with the image A will be blocked by the image A.
- the image A, the image B, or the image C are If any signal is interrupted, it cannot be output and displayed.
- the images to be processed that are not interrupted by other signals will continue to be output and displayed.
- various actual situations in digital interaction processes such as digital teaching, video conferencing, and remote diagnosis can be flexibly dealt with.
- video images can be displayed simultaneously during the lecture.
- Lecture PPT PowerPoint, presentation software
- the teacher's lecture screen During the teacher's question session, you can switch the teacher's lecture screen to the screen where the students answering the questions answer the questions.
- the speaker's speech video screen and PPT display screen can be switched to the video screen corresponding to the new speaker.
- the ultra-high-definition video encoding module 13 can be connected to the image processing module 12 to receive each of the signals to be encoded obtained after image processing by the image processing module 12.
- the ultra-high-definition video encoding module 13 can pass high-definition video encoding. Establish a communication connection with at least one display device through a multimedia interface or wireless connection, and obtain corresponding display parameters from each of the display devices.
- the high-definition multimedia interface includes HDMI (High Definition Multimedia Interface (High Definition Multimedia Interface) 2.1, HDMI2.0 and/or DP (Display Port, Display Interface) interface, etc., and then determine each signal according to the preset corresponding relationship between each of the signals to be encoded and each of the display devices.
- Each of the to-be-encoded signals is encoded or transcoded according to the corresponding display parameters of each of the to-be-encoded signals to obtain at least one to-be-displayed video signal, each of the to-be-displayed videos
- the signals carry the identification codes of respective corresponding display devices, so that the display devices can identify the video signals to be displayed for output and display respectively through the identification codes, thereby realizing the management and directional output of each of the video signals to be displayed.
- the identification code is a code that can uniquely identify the display device. It can be a model, barcode, serial number, etc.
- the determined signal to be encoded to be output and displayed by display device A is encoded into a video signal a to be displayed in the format of 8K@60fps, and the identification of display device A is written in the video signal a to be displayed.
- the corresponding relationship of the display device may be the corresponding relationship set by default in the ultra-high-definition video signal processing device, or may be the corresponding relationship determined based on user operations obtained through the application software corresponding to the ultra-high-definition video signal processing device. relation.
- the ultra-high-definition video encoding module 13 is also connected to the communication module, and is used to upload each of the video signals to be displayed to the cloud server through the communication module.
- the ultra-high-definition video encoding module 13 is also connected to the communication module to send each of the video signals to be displayed to the communication module, and then through the communication module, each of the video signals to be displayed is sent to the communication module.
- the video signal to be displayed is uploaded to the cloud server.
- the opposite end has an 8K display device but does not have complete image processing or processing for 8K video signals, Coding and decoding performance, after the local end completes the decoding, image processing and encoding of the ultra-high-definition video signal, and then uploads it to the server, it can better ensure the quality of the video signal output and displayed by the opposite end.
- the ultra-high-definition video signal processing device further includes a power supply module configured to provide power to the ultra-high-definition video signal processing device.
- the ultra-high-definition video signal processing equipment further includes a power supply module for providing power to each module in the ultra-high-definition video signal processing equipment to ensure that the ultra-high-definition video signal processing equipment
- the power supply module can be connected to an external power supply through the power interface, and/or store the electric energy of the external power supply through the power interface.
- the power supply module can be a charging IC module,
- the charging IC module can be a lithium battery.
- the ultra-high definition video signal processing device further includes:
- a storage module is connected to the ultra-high-definition video encoding module and used to store each of the video signals to be displayed.
- the ultra-high-definition video signal processing device further includes a storage module.
- the storage module is connected to the ultra-high-definition video encoding module.
- the ultra-high-definition video is received.
- the encoding module encodes the processed video signals to be displayed, and stores each of the video signals to be displayed, wherein the video storage instruction can be a default setting in the ultra-high definition video signal processing device, for example, automatic storage after encoding is completed, It may also be a user operation instruction obtained through the application software corresponding to the ultra-high-definition video signal processing device.
- a video is generated based on the user's operation of selecting to store or record a video in the application software corresponding to the ultra-high-definition video signal processing device.
- the storage module the recording, storage and management of ultra-high-definition video signals can be more flexibly realized, and thus more flexibly applicable to modern remote conferencing, teaching, live broadcast and other application scenarios, which can effectively reduce the need for background guidance equipment.
- the ultra-high definition video signal processing device 10 is provided with two gigabit network interfaces, wherein the gigabit network interface 1 is connected to the ultra-high definition video signal acquisition device, and the gigabit network interface 1 is connected to the ultra-high definition video signal acquisition device.
- Network interface 2 is connected to the cloud server, and the ultra-high definition video signal processing device has a CPU (central processing unit, central processing unit) and GPU (graphics processing unit, graphics processor), supports 8K audio and video encoding, and can support 8K video encoding formats of 8K@60fps and 8K@13fps.
- the ultra-high-definition video signal processing device 10 is provided with two HDMI output interfaces HDMI 21 and HDMI 22 can directly support 8K video output.
- LT8711 is designed through two channels of eDP.
- the DP to HDMI module composed of chips realizes the output of two channels of HDMI audio and video signals. These two channels can be directly connected to a 4K display screen, thereby directly enabling the system to support 4-screen output display.
- a storage device 50 is provided on the ultra-high-definition video signal processing device 10 .
- the storage device 50 is connected through a SATA (Serial Advanced Technology Attachment) interface.
- a built-in hard disk can be designed to facilitate the storage of video and other content.
- the ultra-high-definition video management system 40 includes the ultra-high-definition video signal processing device 10 as described above, and at least one ultra-high-definition video signal acquisition device. device 20 and at least one display device 30, wherein,
- the ultra-high-definition video signal collection equipment is used to collect ultra-high-definition video signals
- the ultra-high-definition video signal collection device 20 includes an ultra-high-definition camera and/or an ultra-high-definition screen recording device.
- the ultra-high-definition camera is used to capture ultra-high-definition video to obtain ultra-high-definition video corresponding to the ultra-high-definition video.
- Video signal, the ultra-high-definition screen recording device is used to record ultra-high-definition screen recording images, and obtain ultra-high-definition video signals corresponding to the ultra-high-definition screen recording images;
- the ultra-high-definition video signal processing device 10 is communicatively connected to each of the ultra-high-definition video signal collection devices 20 through a Gigabit network and/or 5G.
- the ultra-high-definition video signal processing device 10 communicates with each other through a high-definition multimedia interface and/or A digital display interface, communicatively connected to at least one display device 30;
- the display device 30 is used to output and display video signals to be displayed, including an 8K display, a 4K display or a 2K display, etc.
- the video display system provided by this application adopts the video display method in the above embodiment to solve the technical problem of poor flexibility of ultra-high definition video display in the prior art.
- the beneficial effects of the video display system provided by the embodiments of the present application are the same as those of the video display method provided by the above-mentioned embodiments, and other technical features in the video display system are the same as those disclosed by the above-mentioned embodiments. The characteristics are the same and will not be repeated here.
- embodiments of the present application also provide an ultra-high-definition video signal processing method.
- the ultra-high-definition video signal processing method is applied to the ultra-high-definition video signal processing device as described above, and includes the following steps:
- Step S10 decode the received ultra-high definition video signal to obtain at least one decoded signal
- Step S20 perform image processing on each of the decoded signals to obtain at least one signal to be encoded
- Step S30 Obtain the display parameters of at least one display device and the video signals to be displayed corresponding to each of the display devices;
- Step S40 Encode or transcode the signals to be encoded corresponding to each of the display devices according to the display parameters of the display device to obtain at least one video signal to be displayed.
- Each of the video signals to be displayed carries a corresponding Displays the device identification code.
- the ultra-high-definition video signal processing method provided by this application is applied to the ultra-high-definition video signal processing equipment as mentioned above, and solves the technical problem of poor flexibility of ultra-high-definition video display in the existing technology.
- the beneficial effects of the ultra-high-definition video signal processing method provided by the embodiments of the present application are the same as those of the ultra-high-definition video signal processing equipment provided by the above-mentioned embodiments, and other aspects of the ultra-high-definition video signal processing method are The technical features are the same as those disclosed in the above embodiments and will not be described again.
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Abstract
The present application discloses an ultra-high-definition video signal processing device and method, and an ultra-high-definition video management system. The ultra-high-definition video signal processing device comprises: an ultra-high-definition video decoding module used for decoding a received ultra-high-definition video signal to obtain at least one decoded signal; an image processing module connected to the ultra-high-definition video decoding module, and used for performing image processing on each decoded signal to obtain at least one signal to be encoded; and an ultra-high-definition video encoding module connected to the image processing module, and used for obtaining display parameters of at least one display device and encoding or transcoding, according to the display parameters, each signal to be encoded, so as to obtain at least one video signal to be displayed, wherein each video signal to be displayed carries an identification code of the display device corresponding thereto.
Description
本申请要求于2022年6月14日申请的、申请号为202210668293.5的中国专利申请的优先权,其全部内容通过引用结合在本申请中。This application claims priority to the Chinese patent application with application number 202210668293.5 filed on June 14, 2022, the entire content of which is incorporated into this application by reference.
本申请涉及视频技术领域,尤其涉及一种超高清视频信号处理设备、方法以及超高清视频管理系统。The present application relates to the field of video technology, and in particular to an ultra-high-definition video signal processing device, method, and ultra-high-definition video management system.
随着科技的发展,数字教育、视频会议、远程诊断等以视频为媒介获取和传递信息的数字化互动方式日益兴起,为了准确获取和传递信息,人们对于视频清晰度的要求越来越高,现有技术的1180P视频的分辨率已经满足不了现代数字教育、视频会议、远程诊断等数字化互动方式的实际需求了,超高清视频显示设备和超高清视频信号采集设备随之出现,然而,目前通常是通过超高清视频显示设备直接与超高清视频信号采集设备一对一连接,来进行超高清视频的输出显示,限制性较大,难以灵活适用于多端互动、多源或多显示终端等实际应用场景的实际需求。With the development of science and technology, digital interactive methods that use video as a medium to obtain and transmit information, such as digital education, video conferencing, and remote diagnosis, are increasingly emerging. In order to accurately obtain and transmit information, people have higher and higher requirements for video clarity. Nowadays, The resolution of technical 1180P video can no longer meet the actual needs of modern digital education, video conferencing, remote diagnosis and other digital interaction methods. Ultra-high-definition video display equipment and ultra-high-definition video signal acquisition equipment have emerged subsequently. However, currently, usually The ultra-high-definition video display device is directly connected one-to-one to the ultra-high-definition video signal acquisition device to output and display the ultra-high-definition video. This is very restrictive and difficult to flexibly apply to practical application scenarios such as multi-terminal interaction, multi-source or multi-display terminals. actual needs.
本申请的主要目的在于提供一种超高清视频信号处理设备、方法以及超高清视频管理系统,旨在解决现有技术超高清视频显示的灵活性较差的技术问题。The main purpose of this application is to provide an ultra-high-definition video signal processing device, method, and ultra-high-definition video management system, aiming to solve the technical problem of poor flexibility of ultra-high-definition video display in the existing technology.
为实现上述目的,本申请提供一种超高清视频信号处理设备,所述超高清视频信号处理设备包括:In order to achieve the above purpose, this application provides an ultra-high-definition video signal processing device. The ultra-high-definition video signal processing device includes:
超高清视频解码模块,用于对接收到的超高清视频信号进行解码,得到至少一个解码信号;An ultra-high-definition video decoding module is used to decode the received ultra-high-definition video signal and obtain at least one decoded signal;
图像处理模块,与所述超高清视频解码模块连接,用于对各所述解码信号进行图像处理,得到至少一个待编码信号;An image processing module, connected to the ultra-high-definition video decoding module, used to perform image processing on each of the decoded signals to obtain at least one signal to be encoded;
超高清视频编码模块,与所述图像处理模块连接,用于获取至少一个显示设备的显示参数,根据所述显示参数对各所述待编码信号进行编码或转码,得到至少一个待显示视频信号,各所述待显示视频信号中携带有各自对应的显示设备的标识码。An ultra-high-definition video encoding module, connected to the image processing module, is used to obtain display parameters of at least one display device, and encode or transcode each of the signals to be encoded according to the display parameters to obtain at least one video signal to be displayed. , each of the video signals to be displayed carries the identification code of the corresponding display device.
在一实施例中,所述图像处理包括图像切割处理,所述图像处理模块包括:In one embodiment, the image processing includes image cutting processing, and the image processing module includes:
图像切割单元,用于基于预设的图像切割规则,对各所述解码信号进行图像切割处理,得到至少一个待编码信号。An image cutting unit is configured to perform image cutting processing on each of the decoded signals based on preset image cutting rules to obtain at least one signal to be encoded.
在一实施例中,所述图像处理包括图像叠加处理,所述图像处理模块包括:In one embodiment, the image processing includes image overlay processing, and the image processing module includes:
图像叠加单元,用于获取各所述解码信号各自对应的目标规格信息和目标位置信息,基于各所述解码信号各自对应的目标规格信息和目标位置信息,对各所述解码信号进行图像叠加处理。An image superposition unit, configured to obtain target specification information and target position information corresponding to each of the decoded signals, and perform image superposition processing on each of the decoded signals based on the target specification information and target position information corresponding to each of the decoded signals. .
在一实施例中,所述超高清视频信号处理设备还包括通讯模块,所述通讯模块与云服务器和/或至少一个超高清视频信号采集设备通信连接,用于接收云服务器和/或各所述超高清视频信号采集设备发送的超高清视频信号。In one embodiment, the ultra-high-definition video signal processing device further includes a communication module. The communication module is communicatively connected to the cloud server and/or at least one ultra-high-definition video signal acquisition device, and is used to receive data from the cloud server and/or each The ultra-high-definition video signal is sent by the ultra-high-definition video signal collection device.
在一实施例中,所述超高清视频编码模块,还与所述通讯模块连接,用于将各所述待显示视频信号,通过所述通讯模块上传至所述云服务器。In one embodiment, the ultra-high-definition video encoding module is also connected to the communication module, and is used to upload each of the video signals to be displayed to the cloud server through the communication module.
在一实施例中,所述超高清视频信号处理设备还包括供电模块,用于向所述超高清视频信号处理设备供电。In one embodiment, the ultra-high-definition video signal processing device further includes a power supply module configured to provide power to the ultra-high-definition video signal processing device.
在一实施例中,所述超高清视频信号处理设备还包括:In one embodiment, the ultra-high definition video signal processing device further includes:
存储模块,与所述超高清视频编码模块连接,用于存储各所述待显示视频信号。A storage module is connected to the ultra-high-definition video encoding module and used to store each of the video signals to be displayed.
本申请还提供一种超高清视频管理系统,所述超高清视频管理系统包括:This application also provides an ultra-high-definition video management system. The ultra-high-definition video management system includes:
至少一个超高清视频信号采集设备,用于采集超高清视频信号;At least one ultra-high-definition video signal collection device used to collect ultra-high-definition video signals;
如上所述的超高清视频信号处理设备,所述超高清视频信号处理设备通过千兆网络和/或5G,与各所述超高清视频信号采集设备通信连接,所述超高清视频信号处理设备通过高清多媒体接口和/或高清数字显示接口,与至少一个显示设备通信连接;The ultra-high-definition video signal processing equipment as described above, the ultra-high-definition video signal processing equipment is communicatively connected to each of the ultra-high-definition video signal collection equipment through Gigabit network and/or 5G, and the ultra-high-definition video signal processing equipment is connected through Gigabit network and/or 5G. A high-definition multimedia interface and/or a high-definition digital display interface, communicating with at least one display device;
至少一个显示设备,用于输出显示待显示视频信号。At least one display device is used to output and display video signals to be displayed.
在一实施例中,所述超高清视频信号采集设备包括超高清摄像头和/或超高清屏幕录制设备。In one embodiment, the ultra-high-definition video signal collection device includes an ultra-high-definition camera and/or an ultra-high-definition screen recording device.
本申请还提供一种超高清视频信号处理方法,所述超高清视频信号处理方法应用于如上所述的超高清视频信号处理设备,包括以下步骤:This application also provides an ultra-high-definition video signal processing method, which is applied to the ultra-high-definition video signal processing equipment as described above and includes the following steps:
对接收到的超高清视频信号进行解码,得到至少一个解码信号;Decode the received ultra-high definition video signal to obtain at least one decoded signal;
对各所述解码信号进行图像处理,得到至少一个待编码信号Perform image processing on each of the decoded signals to obtain at least one signal to be encoded
获取至少一个显示设备的显示参数,以及各所述显示设备各自对应的待显示视频信号;Obtain the display parameters of at least one display device and the video signals to be displayed corresponding to each of the display devices;
根据所述显示设备的显示参数对各所述显示设备各自对应的待编码信号进行编码或转码,得到至少一个待显示视频信号,各所述待显示视频信号中携带有各自对应的显示设备的标识码。The signals to be encoded corresponding to each of the display devices are encoded or transcoded according to the display parameters of the display devices to obtain at least one video signal to be displayed, and each of the video signals to be displayed carries the information of the corresponding display device. identification code.
本申请提供了一种超高清视频信号处理设备、方法以及超高清视频管理系统,通过超高清视频解码模块,对接收到的超高清视频信号进行解码,得到至少一个解码信号,实现了对信号源产生的一个或多个超高清视频信号进行统一的解码处理和接收管理,进而通过图像处理模块对各所述解码信号进行图像处理,得到至少一个待编码信号,实现了对一个或多个信号源进行统一的图像处理,进而通过超高清视频编码模块,获取至少一个显示设备的显示参数,根据所述显示参数对各所述待编码信号进行编码或转码,得到至少一个待显示视频信号,各所述待显示视频信号中携带有各自对应的显示设备的标识码,实现了超高清视频信号的统一编码处理,以及向一个或多个显示设备进行输出显示的输出管理,即,本申请通过超高清视频信号处理设备连接信号源和显示设备,实现了对一个或多个信号源产生的一个或多个超高清视频信号进行统一的解码、图像处理和编码,实现了对超高清视频信号的统一处理和管理,进而使得超高清视频信号的处理、传输和显示不再受限于单一的采集设备和显示设备之间,而可以在各个采集设备和显示设备之间灵活地进行传输和显示,进而可以灵活地适用于多端互动、多源或多显示终端等实际应用场景中,克服了现有技术超高清视频显示的灵活性较差的技术问题。This application provides an ultra-high-definition video signal processing device, method, and ultra-high-definition video management system. Through the ultra-high-definition video decoding module, the received ultra-high-definition video signal is decoded to obtain at least one decoded signal, realizing the signal source. One or more ultra-high-definition video signals generated are subjected to unified decoding processing and reception management, and then the image processing module performs image processing on each of the decoded signals to obtain at least one signal to be encoded, realizing the decoding of one or more signal sources. Perform unified image processing, and then obtain the display parameters of at least one display device through the ultra-high-definition video encoding module, encode or transcode each of the signals to be encoded according to the display parameters, and obtain at least one video signal to be displayed, each of which The video signals to be displayed carry identification codes of corresponding display devices, realizing unified encoding processing of ultra-high-definition video signals and output management of output display to one or more display devices. That is, this application uses ultra-high-definition video signals. The high-definition video signal processing equipment connects the signal source and the display device to realize unified decoding, image processing and encoding of one or more ultra-high-definition video signals generated by one or multiple signal sources, and realizes the unification of ultra-high-definition video signals. Processing and management, so that the processing, transmission and display of ultra-high definition video signals are no longer limited to a single collection device and display device, but can be flexibly transmitted and displayed between various collection devices and display devices, thus It can be flexibly applied to practical application scenarios such as multi-terminal interaction, multi-source or multi-display terminals, and overcomes the technical problem of poor flexibility in ultra-high definition video display in the existing technology.
此处的附图被并入说明书中并构成本说明书的一部分,示出了符合本申请的实施例,并与说明书一起用于解释本申请的原理。The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the application and together with the description, serve to explain the principles of the application.
为了更清楚地说明本申请实施例或现有技术中的技术方案,下面将对实施例或现有技术描述中所需要使用的附图作简单地介绍,显而易见地,对于本领域普通技术人员而言,在不付出创造性劳动性的前提下,还可以根据这些附图获得其他的附图。In order to more clearly explain the embodiments of the present application or the technical solutions in the prior art, the following will briefly introduce the drawings needed to describe the embodiments or the prior art. Obviously, for those of ordinary skill in the art, It is said that other drawings can be obtained based on these drawings without exerting creative labor.
图1为本申请中超高清视频信号处理设备一实施例的结构示意图;Figure 1 is a schematic structural diagram of an embodiment of ultra-high definition video signal processing equipment in this application;
图2为本申请中对各所述解码信号进行图像切割处理的一种可实施方式的场景示意图;Figure 2 is a schematic scene diagram of an implementation manner for image cutting processing on each of the decoded signals in this application;
图3为本申请中对各所述解码信号进行图像叠加处理的一种可实施方式的场景示意图;Figure 3 is a schematic scene diagram of an implementation method for performing image superposition processing on each of the decoded signals in this application;
图4为本申请中超高清视频信号处理设备的一种可实施方式的场景示意图;Figure 4 is a schematic scene diagram of an implementation mode of the ultra-high-definition video signal processing device in this application;
图5为本申请中超高清视频管理系统一实施例的结构示意图;Figure 5 is a schematic structural diagram of an embodiment of the ultra-high definition video management system in this application;
图6为本申请中超高清视频信号处理方法一实施例的流程示意图。Figure 6 is a schematic flowchart of an embodiment of the ultra-high definition video signal processing method in this application.
本申请目的实现、功能特点及优点将结合实施例,参照附图做进一步说明。The realization of the purpose, functional features and advantages of the present application will be further described with reference to the embodiments and the accompanying drawings.
为使本申请的上述目的、特征和优点能够更加明显易懂,下面将结合本申请实施例中的附图,对本申请实施例中的技术方案进行清楚、完整地描述。显然,所描述的实施例仅仅是本申请一部分实施例,而不是全部的实施例。基于本申请中的实施例,本领域普通技术人员在没有作出创造性劳动的前提下所获得的所有其它实施例,均属于本申请保护的范围。In order to make the above objects, features and advantages of the present application more obvious and easy to understand, the technical solutions in the embodiments of the present application will be clearly and completely described below in conjunction with the drawings in the embodiments of the present application. Obviously, the described embodiments are only some of the embodiments of the present application, but not all of the embodiments. Based on the embodiments in this application, all other embodiments obtained by those of ordinary skill in the art without any creative work shall fall within the scope of protection of this application.
本申请实施例提供一种超高清视频信号处理设备,在本申请超高清视频信号处理设备的一实施例中,参照图1,所述超高清视频信号处理设备10至少包括:超高清视频解码模块11、图像处理模块12和超高清视频编码模块13,其中,所述超高清视频解码模块11,可以与至少一个超高清视频信号采集设备建立有线通信连接或无线通信连接,例如5G网络无线连接、千兆网络有线连接等,进而可以将从各所述超高清视频信号采集设备接收到的超高清视频信号进行解码,得到至少一个解码信号。An embodiment of the present application provides an ultra-high-definition video signal processing device. In an embodiment of the ultra-high-definition video signal processing device of the present application, referring to FIG. 1 , the ultra-high-definition video signal processing device 10 at least includes: an ultra-high-definition video decoding module. 11. Image processing module 12 and ultra-high-definition video encoding module 13, wherein the ultra-high-definition video decoding module 11 can establish a wired communication connection or a wireless communication connection with at least one ultra-high-definition video signal collection device, such as a 5G network wireless connection, Gigabit network wired connection, etc., and then the ultra-high-definition video signals received from each of the ultra-high-definition video signal collection devices can be decoded to obtain at least one decoded signal.
在一实施例中,所述超高清视频信号处理设备还包括通讯模块,所述通讯模块与云服务器和/或至少一个超高清视频信号采集设备通信连接,用于接收云服务器和/或各所述超高清视频信号采集设备发送的超高清视频信号。In one embodiment, the ultra-high-definition video signal processing device further includes a communication module. The communication module is communicatively connected to the cloud server and/or at least one ultra-high-definition video signal acquisition device, and is used to receive data from the cloud server and/or each The ultra-high-definition video signal is sent by the ultra-high-definition video signal collection device.
在本实施例中,所述超高清视频信号处理设备还包括通讯模块,所述通讯模块包括5G通讯模块和/或至少一个网络接口,所述5G通讯模块用于与所述云服务器和/或各所述超高清视频信号采集设备通过5G网络建立无线通信连接,所述网络接口用于与所述云服务器和/或各所述超高清视频信号采集设备通过以太网建立有线通信连接,进而接收云服务器和/或各所述超高清视频信号采集设备发送的一个或多个超高清视频信号,所述通讯模块与所述超高清视频解码模块11连接,将接收到的各所述超高清视频信号发送至所述超高清视频解码模块11进行解码。In this embodiment, the ultra-high-definition video signal processing device further includes a communication module. The communication module includes a 5G communication module and/or at least one network interface. The 5G communication module is used to communicate with the cloud server and/or Each of the ultra-high-definition video signal collection devices establishes a wireless communication connection through the 5G network, and the network interface is used to establish a wired communication connection with the cloud server and/or each of the ultra-high-definition video signal collection equipment through Ethernet, and then receives One or more ultra-high-definition video signals sent by the cloud server and/or each of the ultra-high-definition video signal collection devices, the communication module is connected to the ultra-high-definition video decoding module 11, and the received ultra-high-definition video The signal is sent to the ultra-high definition video decoding module 11 for decoding.
在本实施例中,所述超高清视频信号处理设备通过通讯模块往往只能与本端叫近距离范围内的超高清视频信号采集设备和显示设备进行信号传输,而通过云服务器,可以获取到更远距离的超高清视频信号,并进行信号处理和输出显示,进而实现更高清晰度和更高品质的远程互动,提高数字教育、视频会议、远程诊断等以视频为媒介获取和传递信息的数字化互动方式的品质,且在远程互动的过程中,往往难以保证对端视频信号一定能匹配本端显示设备的显示需求,若直接输出显示可能由于适应性较差而影响输出显示的质量,例如视频格式不匹配、图像大小和屏幕大小不匹配、分辨率或刷新率不匹配等,故,通过所述超高清视频信号处理设备对对端上传至云服务器的视频信号进行解码、图像处理和编码,可以使得视频信号更加匹配本端显示设备的实际需求。In this embodiment, the ultra-high-definition video signal processing equipment can often only transmit signals to the ultra-high-definition video signal acquisition equipment and display equipment within a short distance through the communication module, and through the cloud server, it can obtain Longer-distance ultra-high-definition video signals, signal processing and output display, thereby achieving higher definition and higher quality remote interaction, improving digital education, video conferencing, remote diagnosis, etc. that use video as a medium to obtain and transmit information. The quality of digital interaction methods, and in the process of remote interaction, it is often difficult to ensure that the peer video signal can definitely match the display requirements of the local display device. If the display is directly output, the quality of the output display may be affected due to poor adaptability, for example The video format does not match, the image size does not match the screen size, the resolution or refresh rate does not match, etc. Therefore, the video signal uploaded to the cloud server by the opposite end is decoded, image processed and encoded through the ultra-high definition video signal processing equipment. , which can make the video signal better match the actual needs of the local display device.
所述图像处理模块12,可以与所述超高清视频解码模块11连接,接收所述超高清视频解码模块11解码后得到的各所述解码信号,根据预设的图像处理方法对各所述解码信号进行图像处理,得到至少一个待编码信号,其中,所述预设的图像处理方法是对超高清视频信号进行图像处理的方法,包括将一个图像切割成多个局部图像、将多个图像拼接或叠加组合成一个整体图像、对图像进行规格尺寸的调整或者调整图像的饱和度、亮度等图像参数等,所述图像处理方法可以是所述超高清视频信号处理设备中默认设置的方法,也可以是通过所述超高清视频信号处理设备对应的应用软件,获取的根据用户操作确定的图像处理方法。The image processing module 12 can be connected to the ultra-high-definition video decoding module 11, receive each of the decoded signals obtained after decoding by the ultra-high-definition video decoding module 11, and decode each of the decoded signals according to a preset image processing method. The signal is subjected to image processing to obtain at least one signal to be encoded, wherein the preset image processing method is an image processing method for ultra-high-definition video signals, including cutting an image into multiple partial images and splicing multiple images. Or superimpose and combine to form a whole image, adjust the size of the image or adjust the saturation, brightness and other image parameters of the image, etc. The image processing method can be the method set by default in the ultra-high-definition video signal processing device, or It may be an image processing method determined based on user operation obtained through application software corresponding to the ultra-high definition video signal processing device.
在一实施例中,所述图像处理包括图像切割处理,所述图像处理模块包括:In one embodiment, the image processing includes image cutting processing, and the image processing module includes:
图像切割单元,用于基于预设的图像切割规则,对各所述解码信号进行图像切割处理,得到至少一个待编码信号。An image cutting unit is configured to perform image cutting processing on each of the decoded signals based on preset image cutting rules to obtain at least one signal to be encoded.
在本实施例中,具体地,所述图像处理包括图像切割处理,所述图像处理模块包括图像切割单元,所述图像切割单元基于预设的图像切割规则,对各所述解码信号进行图像切割处理,得到至少一个待编码信号,其中,所述预设的图像切割规则为对图像进行切割的切割方式,可以是所述超高清视频信号处理设备中默认设置的方法,也可以是通过所述超高清视频信号处理设备对应的应用软件,获取的根据用户操作确定的图像处理方法。In this embodiment, specifically, the image processing includes image cutting processing, and the image processing module includes an image cutting unit. The image cutting unit performs image cutting on each of the decoded signals based on preset image cutting rules. Processing to obtain at least one signal to be encoded, wherein the preset image cutting rule is a cutting method for cutting the image, which can be the method set by default in the ultra-high definition video signal processing device, or can be through the The application software corresponding to the ultra-high-definition video signal processing equipment obtains the image processing method determined based on user operations.
在一种可实施的方式中,所述基于预设的图像切割规则,对各所述解码信号进行图像切割处理的步骤包括:获取各所述解码信号对应的所述显示设备的数量,判断每一个解码信号对应的显示设备的数量是否超过一个,若确定在各所述解码信号中,存在对应的显示设备的数量超过一个的待处理图像,通过所述超高清视频信号处理设备对应的应用软件提示用户通过输入控制指令的方式,确定是否对所述待处理图像进行图像切割处理,若基于用户操作信息确定对所述待处理图像进行图像切割处理,则提示用户通过所述应用软件输入控制指令(例如,通过遥控器输入、在显示界面中选择或输入等)的方式,确定所述待处理图像对应的切割位置以及切割后各所述局部图像对应的进行输出显示的目标显示设备,根据所述切割位置,将所述待处理图像切割成至少一个局部图像,每个局部图像携带有各自对应的目标显示设备的标识码,以供各所述目标显示设备输出显示各自对应的局部图像,实现图像的准确切割和定向显示,其中,所述局部图像是所述待处理图像根据所述切割位置分割后得到的所述待处理图像的一部分,全部局部图像可以组合成完整的待处理图像。In an implementable manner, the step of performing image cutting processing on each of the decoded signals based on a preset image cutting rule includes: obtaining the number of the display devices corresponding to each of the decoded signals, and determining each Whether the number of display devices corresponding to one decoded signal is more than one. If it is determined that in each of the decoded signals, there is an image to be processed corresponding to more than one display device, through the application software corresponding to the ultra-high-definition video signal processing device. The user is prompted to determine whether to perform image cutting processing on the image to be processed by inputting a control instruction. If it is determined to perform image cutting processing on the image to be processed based on the user operation information, the user is prompted to input a control instruction through the application software. (For example, through remote control input, selection or input in the display interface, etc.), determine the cutting position corresponding to the image to be processed and the target display device for output display corresponding to each partial image after cutting, according to the At the cutting position, the image to be processed is cut into at least one partial image, and each partial image carries the identification code of its corresponding target display device, so that each of the target display devices can output and display its corresponding partial image. Accurate cutting and directional display of images, wherein the partial image is a part of the image to be processed obtained after the image to be processed is segmented according to the cutting position, and all partial images can be combined into a complete image to be processed.
若基于用户操作信息确定不对所述待处理图像进行图像切割处理,则分别通过各所述显示设备输出显示完整的所述待处理图像。If it is determined based on the user operation information that the image to be processed is not to be image cut, the complete image to be processed is output and displayed through each of the display devices.
在一种可实施的方式在,参照图2,待处理图像对应的目标显示设备包括显示器A、显示器B、显示器C和显示器D,基于用户操作信息确定将待处理图像呈田字形切割,且切割后的局部图像A对应于显示器A,局部图像B对应于显示器B,局部图像C对应于显示器C,局部图像D对应于显示器D,即可得到局部图像A、局部图像B、局部图像C和局部图像D,并通过显示器A输出显示局部图像A,通过显示器B输出显示局部图像B,通过显示器C输出显示局部图像C,通过显示器D输出显示局部图像D。In an implementable manner, referring to Figure 2, the target display device corresponding to the image to be processed includes display A, display B, display C and display D. Based on the user operation information, it is determined to cut the image to be processed in a field shape, and cut The final partial image A corresponds to display A, partial image B corresponds to display B, partial image C corresponds to display C, and partial image D corresponds to display D. We can obtain partial image A, partial image B, partial image C and partial image Image D, and display partial image A through display A, display partial image B through display B, display partial image C through display C, and display partial image D through display D.
在本实施例中,通过图像切割的方式,可以通过多台显示器同时输出显示一个完整视频的局部的方式,实现完整视频的输出,可在增大视频显示面积的情况下,同时保证视频显示的清晰度。In this embodiment, through image cutting, multiple monitors can output and display parts of a complete video at the same time, thereby realizing the output of the complete video, which can increase the video display area while ensuring the video display quality. Clarity.
在一实施例中,所述图像处理包括图像叠加处理,所述图像处理模块包括:In one embodiment, the image processing includes image overlay processing, and the image processing module includes:
图像叠加单元,用于获取各所述解码信号各自对应的目标规格信息和目标位置信息,基于各所述解码信号各自对应的目标规格信息和目标位置信息,对各所述解码信号进行图像叠加处理。An image superposition unit, configured to obtain target specification information and target position information corresponding to each of the decoded signals, and perform image superposition processing on each of the decoded signals based on the target specification information and target position information corresponding to each of the decoded signals. .
在本实施例中,具体地,所述图像处理包括图像叠加处理,所述图像处理模块包括图像叠加单元,所述图像叠加单元获取各所述解码信号各自对应的目标规格信息和目标位置信息,基于各所述解码信号各自对应的目标规格信息和目标位置信息,对各所述解码信号进行图像叠加处理,其中,各所述解码信号各自对应的目标规格信息和目标位置信息,可以是所述超高清视频信号处理设备中默认设置的,也可以是通过所述超高清视频信号处理设备对应的应用软件,根据用户操作确定的。In this embodiment, specifically, the image processing includes image superposition processing, and the image processing module includes an image superposition unit. The image superposition unit obtains target specification information and target position information corresponding to each of the decoded signals, Based on the target specification information and target location information corresponding to each of the decoded signals, image superposition processing is performed on each of the decoded signals, wherein the target specification information and target location information corresponding to each of the decoded signals may be the The default setting in the ultra-high-definition video signal processing device may also be determined based on user operations through the application software corresponding to the ultra-high-definition video signal processing device.
在一种可实施的方式中,所述获取各所述解码信号各自对应的目标规格信息和目标位置信息,基于各所述解码信号各自对应的目标规格信息和目标位置信息,对各所述解码信号进行图像叠加处理的步骤包括:获取各所述显示设备对应的所述解码信号的数量,判断各所述显示设备对应的所述解码信号的数量是否超过一个,若确定在各所述显示设备中,存在对应的解码信号的数量超过一个的第一目标显示设备,则说明所述第一目标显示设备需要输出显示超过一个解码信号,则提示用户通过所述超高清视频信号处理设备对应的应用软件输入控制指令(例如,通过遥控器输入、在显示界面中选择或输入等)的方式,确定各所述解码信号对应的待处理图像的叠加显示方式,根据用户确定的叠加显示方式,对所述第一目标显示设备对应的解码信号对应的待处理图像进行图像叠加处理,其中,所述叠加显示方式包括组合显示或切换显示等,所述图像叠加处理包括图像组合处理和图像切换处理等,所述组合显示为将各所述待处理图像叠加或拼接在同一个显示区域内,将叠加或拼接后的各所述待处理图像合成一个待编码图像,在所述待编码图像中,各所述待处理图像分别在各自所属的显示区域进行输出显示,各所述待处理图像对应的信号采集、传输、处理和输出相互独立,互不干扰,例如,当其中一个待处理图像因信号等原因导致中断,其他未中断的待处理图像仍可以继续输出显示;所述切换显示为将其中一个待处理图像设置为待编码图像,当接收到视频切换指令时,再将待编码图像切换至切换指令对应的待处理图像的画面。In an implementable manner, the target specification information and target location information corresponding to each of the decoded signals are obtained, and based on the target specification information and target location information corresponding to each of the decoded signals, each of the decoded signals is obtained. The step of performing image superposition processing on signals includes: obtaining the number of decoded signals corresponding to each of the display devices, and determining whether the number of decoded signals corresponding to each of the display devices exceeds one. If it is determined that the number of decoded signals corresponding to each of the display devices is , if there is a first target display device with more than one corresponding decoded signal, it means that the first target display device needs to output and display more than one decoded signal, and the user is prompted to use the corresponding application of the ultra-high-definition video signal processing device. The software inputs control instructions (for example, through remote control input, selection or input in the display interface, etc.) to determine the superimposed display mode of the images to be processed corresponding to each of the decoded signals. According to the superimposed display mode determined by the user, all The image to be processed corresponding to the decoded signal corresponding to the first target display device is subjected to image overlay processing, wherein the overlay display method includes combination display or switching display, and the image overlay processing includes image combination processing and image switching processing, etc., The combination is displayed by superimposing or splicing the images to be processed in the same display area, and synthesizing the superimposed or spliced images to be processed into an image to be encoded. In the image to be encoded, each of the images to be processed is The images to be processed are output and displayed in their respective display areas. The signal collection, transmission, processing and output corresponding to each of the images to be processed are independent of each other and do not interfere with each other. For example, when one of the images to be processed is due to signal or other reasons, Causes an interruption, and other uninterrupted images to be processed can still continue to be output and displayed; the switching display is to set one of the images to be processed as the image to be encoded, and when the video switching instruction is received, the image to be encoded is switched to the switching instruction. The corresponding picture of the image to be processed.
在一种可实施的方式中,参照图3,图3为对所述待处理图像进行图像组合处理的场景示意图,待处理图像A、待处理图像B和待处理图像C均对应于同一个目标显示设备,通过对待处理图像A、待处理图像B和待处理图像C进行位置和规格处理后,可以共同在目标显示设备上进行输出显示,其中,待处理图像A的图层位置在待处理图像B的图层位置的更上层,故而待处理图像B中与待处理图像A重叠的部分,会被待处理图像A遮挡,另外,若待处理图像A、待处理图像B或待处理图像C中任何一个信号中断,无法输出显示,其他信号未中断的待处理图像仍会继续输出显示。In an implementable manner, refer to Figure 3, which is a schematic diagram of a scene for performing image combination processing on the images to be processed. Image A, image B, and image C all correspond to the same target. The display device can jointly perform output display on the target display device after processing the position and specifications of the image A, the image B and the image C to be processed. Among them, the layer position of the image A to be processed is in the image to be processed. The layer position of B is the upper layer, so the part of the image B that overlaps with the image A will be blocked by the image A. In addition, if the image A, the image B, or the image C are If any signal is interrupted, it cannot be output and displayed. The images to be processed that are not interrupted by other signals will continue to be output and displayed.
在本实施例中,通过图像叠加处理,可以灵活应对数字教学、视频会议、远程诊断等数字化互动过程中的各种实际情形,例如,在数字教学过程中,视频画面在讲课过程中可以同时显示讲课PPT(PowerPoint,演示文稿软件)和老师的讲课画面,在老师提问环节,则可以将老师的讲课画面切换至回答问题的学生回答问题的画面,在视频会议中,当发言人变更了之后,发言人的发言视频画面和PPT展示画面都可以切换至新的发言人对应的视频画面。In this embodiment, through image overlay processing, various actual situations in digital interaction processes such as digital teaching, video conferencing, and remote diagnosis can be flexibly dealt with. For example, in the digital teaching process, video images can be displayed simultaneously during the lecture. Lecture PPT (PowerPoint, presentation software) and the teacher's lecture screen. During the teacher's question session, you can switch the teacher's lecture screen to the screen where the students answering the questions answer the questions. In the video conference, when the speaker changes, The speaker's speech video screen and PPT display screen can be switched to the video screen corresponding to the new speaker.
所述超高清视频编码模块13,可以与所述图像处理模块12连接,接收所述图像处理模块12图像处理之后得到的各所述待编码信号,所述超高清视频编码模块13,可以通过高清多媒体接口或无线连接的方式与至少一个显示设备建立通信连接,从各所述显示设备获取各自对应的显示参数,所述高清多媒体接口包括HDMI(High
Definition Multimedia Interface,高清多媒体接口)2.1、HDMI2.0和/或DP(Display Port,显示接口)接口等,进而根据预设的各所述待编码信号与各所述显示设备的对应关系,确定各所述待编码信号各自对应的显示参数,根据各所述待编码信号各自对应的显示参数对各所述待编码信号进行编码或转码,得到至少一个待显示视频信号,各所述待显示视频信号中携带有各自对应的显示设备的标识码,以供显示设备通过所述标识码识别各自输出显示的待显示视频信号,进而实现对各所述待显示视频信号的管理和定向输出,所述标识码为可以对显示设备进行唯一标识的代码,可以是型号、条形码、序列号等,例如,若显示设备A的显示分辨率为8K分辨率且刷新率为60fps(Frame Per Second,画面每秒传输帧数),则将确定的要通过显示设备A输出显示的待编码信号编码为8K@60fps格式的待显示视频信号a,并在所述待显示视频信号a中写入显示设备A的标识码,使得所述待显示视频信号a通过显示设备A进行输出显示,其中,所述显示参数包括分辨率、刷新率和/或图像规格等,所述预设的各所述待编码信号与各所述显示设备的对应关系,可以是所述超高清视频信号处理设备中默认设置的对应关系,也可以是通过所述超高清视频信号处理设备对应的应用软件,获取的根据用户操作确定的对应关系。The ultra-high-definition video encoding module 13 can be connected to the image processing module 12 to receive each of the signals to be encoded obtained after image processing by the image processing module 12. The ultra-high-definition video encoding module 13 can pass high-definition video encoding. Establish a communication connection with at least one display device through a multimedia interface or wireless connection, and obtain corresponding display parameters from each of the display devices. The high-definition multimedia interface includes HDMI (High
Definition Multimedia Interface (High Definition Multimedia Interface) 2.1, HDMI2.0 and/or DP (Display Port, Display Interface) interface, etc., and then determine each signal according to the preset corresponding relationship between each of the signals to be encoded and each of the display devices. Each of the to-be-encoded signals is encoded or transcoded according to the corresponding display parameters of each of the to-be-encoded signals to obtain at least one to-be-displayed video signal, each of the to-be-displayed videos The signals carry the identification codes of respective corresponding display devices, so that the display devices can identify the video signals to be displayed for output and display respectively through the identification codes, thereby realizing the management and directional output of each of the video signals to be displayed. The identification code is a code that can uniquely identify the display device. It can be a model, barcode, serial number, etc. For example, if the display resolution of display device A is 8K resolution and the refresh rate is 60fps (Frame Per Second, picture per second) transmission frame number), then the determined signal to be encoded to be output and displayed by display device A is encoded into a video signal a to be displayed in the format of 8K@60fps, and the identification of display device A is written in the video signal a to be displayed. code, so that the video signal a to be displayed is output and displayed through the display device A, wherein the display parameters include resolution, refresh rate and/or image specifications, etc., and the preset signals a to be encoded are related to each The corresponding relationship of the display device may be the corresponding relationship set by default in the ultra-high-definition video signal processing device, or may be the corresponding relationship determined based on user operations obtained through the application software corresponding to the ultra-high-definition video signal processing device. relation.
在一实施例中,所述超高清视频编码模块13,还与所述通讯模块连接,用于将各所述待显示视频信号,通过所述通讯模块上传至所述云服务器。In one embodiment, the ultra-high-definition video encoding module 13 is also connected to the communication module, and is used to upload each of the video signals to be displayed to the cloud server through the communication module.
在本实施例中,具体地,所述超高清视频编码模块13,还与所述通讯模块连接,将各所述待显示视频信号发送至所述通讯模块,进而通过所述通讯模块,将各所述待显示视频信号上传至所述云服务器。In this embodiment, specifically, the ultra-high-definition video encoding module 13 is also connected to the communication module to send each of the video signals to be displayed to the communication module, and then through the communication module, each of the video signals to be displayed is sent to the communication module. The video signal to be displayed is uploaded to the cloud server.
在本实施例中,由于在远程互动过程中,往往难以保证每一端的信号处理设备都具有相同的处理性能,若对端具有8K显示设备,但不具有完善的处理8K视频信号的图像处理或编解码性能,在本端完成超高清视频信号的解码、图像处理和编码之后,再上传服务器,能够较好地保证对端输出显示的视频信号的品质。In this embodiment, during the remote interaction process, it is often difficult to ensure that the signal processing equipment at each end has the same processing performance. If the opposite end has an 8K display device but does not have complete image processing or processing for 8K video signals, Coding and decoding performance, after the local end completes the decoding, image processing and encoding of the ultra-high-definition video signal, and then uploads it to the server, it can better ensure the quality of the video signal output and displayed by the opposite end.
在一实施例中,所述超高清视频信号处理设备还包括供电模块,用于向所述超高清视频信号处理设备供电。In one embodiment, the ultra-high-definition video signal processing device further includes a power supply module configured to provide power to the ultra-high-definition video signal processing device.
在本实施例中,具体地,所述超高清视频信号处理设备还包括供电模块,用于向所述超高清视频信号处理设备中各个模块进行供电,以保证所述超高清视频信号处理设备中各个模块的正常使用,所述供电模块可以通过电源接口与外部电源连接,和/或通过电源接口存储外部电源的电能,在一种可实施的方式中,所述供电模块可以为充电IC模块,充电IC模块可以为锂电池。In this embodiment, specifically, the ultra-high-definition video signal processing equipment further includes a power supply module for providing power to each module in the ultra-high-definition video signal processing equipment to ensure that the ultra-high-definition video signal processing equipment For the normal use of each module, the power supply module can be connected to an external power supply through the power interface, and/or store the electric energy of the external power supply through the power interface. In an implementable manner, the power supply module can be a charging IC module, The charging IC module can be a lithium battery.
在一实施例中,所述超高清视频信号处理设备还包括:In one embodiment, the ultra-high definition video signal processing device further includes:
存储模块,与所述超高清视频编码模块连接,用于存储各所述待显示视频信号。A storage module is connected to the ultra-high-definition video encoding module and used to store each of the video signals to be displayed.
在本实施例中,具体地,所述超高清视频信号处理设备还包括存储模块,所述存储模块与所述超高清视频编码模块连接,当接收到视频存储指令时,接收所述超高清视频编码模块编码处理后的待显示视频信号,并存储各所述待显示视频信号,其中,所述视频存储指令可以是所述超高清视频信号处理设备中默认设置的,例如编码完成后自动存储,也可以是通过所述超高清视频信号处理设备对应的应用软件,获取的用户操作指令,例如,根据用户在所述超高清视频信号处理设备对应的应用软件选择存储或录制视频的操作,生成视频存储指令。通过存储模块,可以更加灵活地实现超高清视频信号的录制、存储和管理,进而更加灵活地适用于现代远程会议、教学、直播等应用场景,可以有效降低对后台导播设备的需求。In this embodiment, specifically, the ultra-high-definition video signal processing device further includes a storage module. The storage module is connected to the ultra-high-definition video encoding module. When a video storage instruction is received, the ultra-high-definition video is received. The encoding module encodes the processed video signals to be displayed, and stores each of the video signals to be displayed, wherein the video storage instruction can be a default setting in the ultra-high definition video signal processing device, for example, automatic storage after encoding is completed, It may also be a user operation instruction obtained through the application software corresponding to the ultra-high-definition video signal processing device. For example, a video is generated based on the user's operation of selecting to store or record a video in the application software corresponding to the ultra-high-definition video signal processing device. Store instructions. Through the storage module, the recording, storage and management of ultra-high-definition video signals can be more flexibly realized, and thus more flexibly applicable to modern remote conferencing, teaching, live broadcast and other application scenarios, which can effectively reduce the need for background guidance equipment.
在一种可实施的方式中,参照图4,在所述超高清视频信号处理设备10上设有两路千兆网络接口,其中千兆网络接口1连接到超高清视频信号采集设备,千兆网络接口2连到云服务器,所述超高清视频信号处理设备具有CPU(central
processing unit,中央处理器)和GPU(graphics
processing unit,图形处理器),支持8K音视频编码,可支持8K视频编码格式为8K@60fps和8K@13fps,在所述超高清视频信号处理设备10上设有两路HDMI输出接口HDMI 21和HDMI 22,可直接支持8K视频的输出,为兼顾应用,能在一个最简系统支持4个HDMI接口视频输出,并便于理解本系统对显示的兼容、灵活性,通过两路eDP分别设计有LT8711芯片组成的DP转HDMI模块,实现两路HDMI音视频信号的输出,此两路可直接连接4K显示屏,进而可直接实现系统支持4屏输出显示,在所述超高清视频信号处理设备10上设有存储装置50,存储装置50通过SATA(Serial Advanced Technology Attachment,串行高级技术附件)接口连接,可设计内置硬盘,便于视频等内容的存储。In an implementable manner, referring to Figure 4, the ultra-high definition video signal processing device 10 is provided with two gigabit network interfaces, wherein the gigabit network interface 1 is connected to the ultra-high definition video signal acquisition device, and the gigabit network interface 1 is connected to the ultra-high definition video signal acquisition device. Network interface 2 is connected to the cloud server, and the ultra-high definition video signal processing device has a CPU (central
processing unit, central processing unit) and GPU (graphics
processing unit, graphics processor), supports 8K audio and video encoding, and can support 8K video encoding formats of 8K@60fps and 8K@13fps. The ultra-high-definition video signal processing device 10 is provided with two HDMI output interfaces HDMI 21 and HDMI 22 can directly support 8K video output. In order to take into account the application, it can support 4 HDMI interface video outputs in a simplest system, and it is easy to understand the compatibility and flexibility of this system for display. LT8711 is designed through two channels of eDP. The DP to HDMI module composed of chips realizes the output of two channels of HDMI audio and video signals. These two channels can be directly connected to a 4K display screen, thereby directly enabling the system to support 4-screen output display. On the ultra-high-definition video signal processing device 10 A storage device 50 is provided. The storage device 50 is connected through a SATA (Serial Advanced Technology Attachment) interface. A built-in hard disk can be designed to facilitate the storage of video and other content.
进一步地,本申请实施例还提供一种超高清视频管理系统40,参照图5,所述超高清视频管理系统40包括如上所述的超高清视频信号处理设备10、至少一个超高清视频信号采集设备20和至少一个显示设备30,其中,Further, embodiments of the present application also provide an ultra-high-definition video management system 40. Referring to Figure 5, the ultra-high-definition video management system 40 includes the ultra-high-definition video signal processing device 10 as described above, and at least one ultra-high-definition video signal acquisition device. device 20 and at least one display device 30, wherein,
所述超高清视频信号采集设备,用于采集超高清视频信号;The ultra-high-definition video signal collection equipment is used to collect ultra-high-definition video signals;
在一实施例中,所述超高清视频信号采集设备20包括超高清摄像头和/或超高清屏幕录制设备,所述超高清摄像头用于拍摄超高清视频,得到所述超高清视频对应的超高清视频信号,所述超高清屏幕录制设备用于录制超高清录屏图像,得到所述超高清录屏图像对应的超高清视频信号;In one embodiment, the ultra-high-definition video signal collection device 20 includes an ultra-high-definition camera and/or an ultra-high-definition screen recording device. The ultra-high-definition camera is used to capture ultra-high-definition video to obtain ultra-high-definition video corresponding to the ultra-high-definition video. Video signal, the ultra-high-definition screen recording device is used to record ultra-high-definition screen recording images, and obtain ultra-high-definition video signals corresponding to the ultra-high-definition screen recording images;
所述超高清视频信号处理设备10,通过千兆网络和/或5G,与各所述超高清视频信号采集设备20通信连接,所述超高清视频信号处理设备10通过高清多媒体接口和/或高清数字显示接口,与至少一个显示设备30通信连接;The ultra-high-definition video signal processing device 10 is communicatively connected to each of the ultra-high-definition video signal collection devices 20 through a Gigabit network and/or 5G. The ultra-high-definition video signal processing device 10 communicates with each other through a high-definition multimedia interface and/or A digital display interface, communicatively connected to at least one display device 30;
所述显示设备30,用于输出显示待显示视频信号,包括8K显示器、4K显示器或2K显示器等。The display device 30 is used to output and display video signals to be displayed, including an 8K display, a 4K display or a 2K display, etc.
本申请提供的视频显示系统,采用上述实施例中的视频显示方法,解决了现有技术超高清视频显示的灵活性较差的技术问题。与现有技术相比,本申请实施例提供的视频显示系统的有益效果与上述实施例提供的视频显示方法的有益效果相同,且该视频显示系统中的其他技术特征与上述实施例方法公开的特征相同,在此不做赘述。The video display system provided by this application adopts the video display method in the above embodiment to solve the technical problem of poor flexibility of ultra-high definition video display in the prior art. Compared with the existing technology, the beneficial effects of the video display system provided by the embodiments of the present application are the same as those of the video display method provided by the above-mentioned embodiments, and other technical features in the video display system are the same as those disclosed by the above-mentioned embodiments. The characteristics are the same and will not be repeated here.
进一步地,本申请实施例还提供一种超高清视频信号处理方法,参照图6,所述超高清视频信号处理方法应用于如上所述的超高清视频信号处理设备,包括以下步骤:Further, embodiments of the present application also provide an ultra-high-definition video signal processing method. Referring to Figure 6, the ultra-high-definition video signal processing method is applied to the ultra-high-definition video signal processing device as described above, and includes the following steps:
步骤S10,对接收到的超高清视频信号进行解码,得到至少一个解码信号;Step S10, decode the received ultra-high definition video signal to obtain at least one decoded signal;
步骤S20,对各所述解码信号进行图像处理,得到至少一个待编码信号;Step S20, perform image processing on each of the decoded signals to obtain at least one signal to be encoded;
步骤S30,获取至少一个显示设备的显示参数,以及各所述显示设备各自对应的待显示视频信号;Step S30: Obtain the display parameters of at least one display device and the video signals to be displayed corresponding to each of the display devices;
步骤S40,根据所述显示设备的显示参数对各所述显示设备各自对应的待编码信号进行编码或转码,得到至少一个待显示视频信号,各所述待显示视频信号中携带有各自对应的显示设备的标识码。Step S40: Encode or transcode the signals to be encoded corresponding to each of the display devices according to the display parameters of the display device to obtain at least one video signal to be displayed. Each of the video signals to be displayed carries a corresponding Displays the device identification code.
本申请提供的超高清视频信号处理方法,应用于如上所述的超高清视频信号处理设备,解决了现有技术超高清视频显示的灵活性较差的技术问题。与现有技术相比,本申请实施例提供的超高清视频信号处理方法的有益效果与上述实施例提供的超高清视频信号处理设备的有益效果相同,且该超高清视频信号处理方法中的其他技术特征与上述实施例方法公开的特征相同,在此不做赘述。The ultra-high-definition video signal processing method provided by this application is applied to the ultra-high-definition video signal processing equipment as mentioned above, and solves the technical problem of poor flexibility of ultra-high-definition video display in the existing technology. Compared with the existing technology, the beneficial effects of the ultra-high-definition video signal processing method provided by the embodiments of the present application are the same as those of the ultra-high-definition video signal processing equipment provided by the above-mentioned embodiments, and other aspects of the ultra-high-definition video signal processing method are The technical features are the same as those disclosed in the above embodiments and will not be described again.
以上仅为本申请的优选实施例,并非因此限制本申请的专利范围,凡是利用本申请说明书及附图内容所作的等效结构或等效流程变换,或直接或间接运用在其他相关的技术领域,均同理包括在本申请的专利处理范围内。The above are only preferred embodiments of the present application, and are not intended to limit the patent scope of the present application. Any equivalent structure or equivalent process transformation made using the contents of the description and drawings of the present application may be directly or indirectly used in other related technical fields. , are all similarly included in the patent processing scope of this application.
Claims (15)
- 一种超高清视频信号处理设备,其中,所述超高清视频信号处理设备包括:An ultra-high-definition video signal processing device, wherein the ultra-high-definition video signal processing device includes:超高清视频解码模块,用于对接收到的超高清视频信号进行解码,得到至少一个解码信号;An ultra-high-definition video decoding module is used to decode the received ultra-high-definition video signal and obtain at least one decoded signal;图像处理模块,与所述超高清视频解码模块连接,用于对各所述解码信号进行图像处理,得到至少一个待编码信号;An image processing module, connected to the ultra-high-definition video decoding module, used to perform image processing on each of the decoded signals to obtain at least one signal to be encoded;超高清视频编码模块,与所述图像处理模块连接,用于获取至少一个显示设备的显示参数,根据所述显示参数对各所述待编码信号进行编码或转码,得到至少一个待显示视频信号,各所述待显示视频信号中携带有各自对应的显示设备的标识码。An ultra-high-definition video encoding module, connected to the image processing module, is used to obtain display parameters of at least one display device, and encode or transcode each of the signals to be encoded according to the display parameters to obtain at least one video signal to be displayed. , each of the video signals to be displayed carries the identification code of the corresponding display device.
- 如权利要求1所述的超高清视频信号处理设备,其中,所述图像处理包括图像切割处理,所述图像处理模块包括:The ultra-high-definition video signal processing device according to claim 1, wherein the image processing includes image cutting processing, and the image processing module includes:图像切割单元,用于基于预设的图像切割规则,对各所述解码信号进行图像切割处理,得到至少一个待编码信号。An image cutting unit is configured to perform image cutting processing on each of the decoded signals based on preset image cutting rules to obtain at least one signal to be encoded.
- 如权利要求1所述的超高清视频信号处理设备,其中,所述图像处理包括图像叠加处理,所述图像处理模块包括:The ultra-high-definition video signal processing device as claimed in claim 1, wherein the image processing includes image overlay processing, and the image processing module includes:图像叠加单元,用于获取各所述解码信号各自对应的目标规格信息和目标位置信息,基于各所述解码信号各自对应的目标规格信息和目标位置信息,对各所述解码信号进行图像叠加处理。An image superposition unit, configured to obtain target specification information and target position information corresponding to each of the decoded signals, and perform image superposition processing on each of the decoded signals based on the target specification information and target position information corresponding to each of the decoded signals. .
- 如权利要求1所述的超高清视频信号处理设备,其中,所述超高清视频信号处理设备还包括通讯模块,所述通讯模块与云服务器和/或至少一个超高清视频信号采集设备通信连接,用于接收云服务器和/或各所述超高清视频信号采集设备发送的超高清视频信号。The ultra-high-definition video signal processing device according to claim 1, wherein the ultra-high-definition video signal processing device further includes a communication module, the communication module is communicatively connected with the cloud server and/or at least one ultra-high-definition video signal collection device, Used to receive ultra-high-definition video signals sent by the cloud server and/or each of the ultra-high-definition video signal collection devices.
- 如权利要求1所述的超高清视频信号处理设备,其中,所述超高清视频信号处理设备还包括通讯模块,所述通讯模块包括5G通讯模块和/或至少一个网络接口。The ultra-high-definition video signal processing device according to claim 1, wherein the ultra-high-definition video signal processing device further includes a communication module, and the communication module includes a 5G communication module and/or at least one network interface.
- 如权利要求5所述的超高清视频信号处理设备,其中,所述5G通讯模块用于与所述云服务器和/或各所述超高清视频信号采集设备通过5G网络建立无线通信连接,所述网络接口用于与所述云服务器和/或各所述超高清视频信号采集设备通过以太网建立有线通信连接。The ultra-high-definition video signal processing device according to claim 5, wherein the 5G communication module is used to establish a wireless communication connection with the cloud server and/or each of the ultra-high-definition video signal collection devices through a 5G network, and the The network interface is used to establish a wired communication connection with the cloud server and/or each of the ultra-high definition video signal collection devices through Ethernet.
- 如权利要求5所述的超高清视频信号处理设备,其中,所述通讯模块与所述超高清视频解码模块连接,将接收到的各所述超高清视频信号发送至所述超高清视频解码模块进行解码。The ultra-high-definition video signal processing device according to claim 5, wherein the communication module is connected to the ultra-high-definition video decoding module and sends each received ultra-high-definition video signal to the ultra-high-definition video decoding module. to decode.
- 如权利要求4所述的超高清视频信号处理设备,其中,所述超高清视频编码模块,还与所述通讯模块连接,用于将各所述待显示视频信号,通过所述通讯模块上传至所述云服务器。The ultra-high-definition video signal processing device according to claim 4, wherein the ultra-high-definition video encoding module is also connected to the communication module for uploading each of the video signals to be displayed to the communication module through the communication module. The cloud server.
- 如权利要求1所述的超高清视频信号处理设备,其中,所述超高清视频信号处理设备还包括供电模块,用于向所述超高清视频信号处理设备供电。The ultra-high-definition video signal processing device according to claim 1, wherein the ultra-high-definition video signal processing device further includes a power supply module for supplying power to the ultra-high-definition video signal processing device.
- 如权利要求1所述的超高清视频信号处理设备,其中,所述超高清视频信号处理设备还包括:The ultra-high-definition video signal processing device as claimed in claim 1, wherein the ultra-high-definition video signal processing device further includes:存储模块,与所述超高清视频编码模块连接,用于存储各所述待显示视频信号。A storage module is connected to the ultra-high-definition video encoding module and is used to store each of the video signals to be displayed.
- 如权利要求10所述的超高清视频信号处理设备,其中,在所述超高清视频信号处理设备上设有两路千兆网络接口,第一千兆网络接口连接到超高清视频信号采集设备,第二千兆网络接口连接到云服务器。The ultra-high-definition video signal processing device as claimed in claim 10, wherein the ultra-high-definition video signal processing device is provided with two Gigabit network interfaces, and the first Gigabit network interface is connected to the ultra-high-definition video signal collection device, The second Gigabit network interface connects to the cloud server.
- 一种超高清视频管理系统,其中,所述超高清视频管理系统包括:An ultra-high-definition video management system, wherein the ultra-high-definition video management system includes:至少一个超高清视频信号采集设备,用于采集超高清视频信号;At least one ultra-high-definition video signal collection device used to collect ultra-high-definition video signals;如权利要求1至11任一项所述的超高清视频信号处理设备,所述超高清视频信号处理设备通过千兆网络和/或5G,与各所述超高清视频信号采集设备通信连接,所述超高清视频信号处理设备通过高清多媒体接口和/或高清数字显示接口,与至少一个显示设备通信连接;The ultra-high-definition video signal processing device according to any one of claims 1 to 11, the ultra-high-definition video signal processing device is communicatively connected to each of the ultra-high-definition video signal collection devices through a gigabit network and/or 5G, so The ultra-high-definition video signal processing equipment communicates with at least one display device through a high-definition multimedia interface and/or a high-definition digital display interface;至少一个显示设备,用于输出显示待显示视频信号。At least one display device is used to output and display video signals to be displayed.
- 如权利要求12所述的超高清视频管理系统,其中,所述超高清视频信号采集设备包括超高清摄像头和/或超高清屏幕录制设备。The ultra-high-definition video management system according to claim 12, wherein the ultra-high-definition video signal collection device includes an ultra-high-definition camera and/or an ultra-high-definition screen recording device.
- 如权利要求13所述的超高清视频管理系统,其中,所述超高清摄像头用于拍摄超高清视频,得到所述超高清视频对应的超高清视频信号,所述超高清屏幕录制设备用于录制超高清录屏图像,得到所述超高清录屏图像对应的超高清视频信号。The ultra-high-definition video management system as claimed in claim 13, wherein the ultra-high-definition camera is used to shoot ultra-high-definition videos to obtain ultra-high-definition video signals corresponding to the ultra-high-definition videos, and the ultra-high-definition screen recording equipment is used to record Ultra-high-definition screen recording images are obtained to obtain ultra-high-definition video signals corresponding to the ultra-high-definition screen recording images.
- 一种超高清视频信号处理方法,其中,所述超高清视频信号处理方法应用于如权利要求1至11任一项所述的超高清视频信号处理设备,包括以下步骤:An ultra-high-definition video signal processing method, wherein the ultra-high-definition video signal processing method is applied to the ultra-high-definition video signal processing equipment as described in any one of claims 1 to 11, including the following steps:对接收到的超高清视频信号进行解码,得到至少一个解码信号;Decode the received ultra-high definition video signal to obtain at least one decoded signal;对各所述解码信号进行图像处理,得到至少一个待编码信号Perform image processing on each of the decoded signals to obtain at least one signal to be encoded获取至少一个显示设备的显示参数,以及各所述显示设备各自对应的待显示视频信号;Obtain the display parameters of at least one display device and the video signals to be displayed corresponding to each of the display devices;根据所述显示设备的显示参数对各所述显示设备各自对应的待编码信号进行编码或转码,得到至少一个待显示视频信号,各所述待显示视频信号中携带有各自对应的显示设备的标识码。The signals to be encoded corresponding to each of the display devices are encoded or transcoded according to the display parameters of the display devices to obtain at least one video signal to be displayed, and each of the video signals to be displayed carries the information of the corresponding display device. identification code.
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---|---|---|---|---|
CN101764982A (en) * | 2008-12-23 | 2010-06-30 | 康佳集团股份有限公司 | Method and device for processing high-definition video image |
JP2011176571A (en) * | 2010-02-24 | 2011-09-08 | Nippon Telegr & Teleph Corp <Ntt> | Multi-resolution video encoding method, multi-resolution video decoding method, multi-resolution video encoding device, multi-resolution video decoding device, and program |
CN108737746A (en) * | 2018-05-04 | 2018-11-02 | 威创集团股份有限公司 | Signal processing method, device, computer equipment and storage medium |
CN110119263A (en) * | 2019-05-09 | 2019-08-13 | 深圳吉迪思电子科技有限公司 | The method and device of image is shown in a kind of display array |
CN114979777A (en) * | 2022-06-14 | 2022-08-30 | 深圳创维-Rgb电子有限公司 | Ultra-high-definition video signal processing device and method and ultra-high-definition video management system |
Family Cites Families (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105379258A (en) * | 2013-07-14 | 2016-03-02 | Lg电子株式会社 | Method and apparatus for transmitting and receiving ultra high-definition broadcasting signal for expressing high-quality color in digital broadcasting system |
CN108566553B (en) * | 2018-04-25 | 2020-12-04 | 威盛电子股份有限公司 | Video wall media playing system, method and control server |
CN211557374U (en) * | 2020-04-26 | 2020-09-22 | 湖南安元信息科技有限公司 | 4K ultra-high definition video control device |
CN212543942U (en) * | 2020-06-01 | 2021-02-12 | 广东视腾电子科技有限公司 | High-definition video transmitting device and high-definition video transmitting system |
CN111711859A (en) * | 2020-06-28 | 2020-09-25 | 北京奇艺世纪科技有限公司 | Video image processing method, system and terminal equipment |
CN111930326A (en) * | 2020-06-30 | 2020-11-13 | 西安万像电子科技有限公司 | Image processing method, device and system |
CN111741274B (en) * | 2020-08-25 | 2020-12-29 | 北京中联合超高清协同技术中心有限公司 | Ultrahigh-definition video monitoring method supporting local amplification and roaming of picture |
CN112099744A (en) * | 2020-08-26 | 2020-12-18 | 西安万像电子科技有限公司 | Image display method, device and system |
CN113573111B (en) * | 2021-07-15 | 2024-05-17 | 康佳集团股份有限公司 | 8K ultra-high definition video conversion screen pointing system and screen pointing method |
-
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Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101764982A (en) * | 2008-12-23 | 2010-06-30 | 康佳集团股份有限公司 | Method and device for processing high-definition video image |
JP2011176571A (en) * | 2010-02-24 | 2011-09-08 | Nippon Telegr & Teleph Corp <Ntt> | Multi-resolution video encoding method, multi-resolution video decoding method, multi-resolution video encoding device, multi-resolution video decoding device, and program |
CN108737746A (en) * | 2018-05-04 | 2018-11-02 | 威创集团股份有限公司 | Signal processing method, device, computer equipment and storage medium |
CN110119263A (en) * | 2019-05-09 | 2019-08-13 | 深圳吉迪思电子科技有限公司 | The method and device of image is shown in a kind of display array |
CN114979777A (en) * | 2022-06-14 | 2022-08-30 | 深圳创维-Rgb电子有限公司 | Ultra-high-definition video signal processing device and method and ultra-high-definition video management system |
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