KR101281181B1 - A hybrid multichannel hd image distribution system and the method thereof - Google Patents

Abstract

PURPOSE: Hybrid multi-channel high definition (HD) image distribution system and method are provided to conveniently switch or distribute a HD class image used for new broadcasting environment using user interface environment. CONSTITUTION: A control unit (110) outputs more than one images signals inputted through a first input port, a second input port or an input port and an Ethernet input port including combination of these by switching or distributing with more than first output ports, second output ports or combination of these. The control unit accesses an internet server including a cloud server, a broadcasting provider server or a video on demand (VOD) server. The control unit edits a downloaded image signal into a specific format through broadcasting equipment or internet. The control unit selectively distributes and outputs the edited image signal. [Reference numerals] (100) Hybrid multi-channel HD image distribution system; (110) Control unit; (120) Switch/distribution unit; (130) Ethernet switch; (140) Audio codec; (150,151) HDMI format converter x n; (160) SDI format converter x n; (170) Power source unit

Description

Hybrid multichannel HD image distribution system and method thereof {A HYBRID MULTICHANNEL HD IMAGE DISTRIBUTION SYSTEM AND THE METHOD THEREOF}

The present invention relates to a hybrid multi-channel HD video distribution system and a method thereof, and more particularly, to input a SD video used in a conventional broadcasting environment as well as an HD video used in a new broadcasting environment using a user interface environment. A hybrid multichannel HD video distribution system and method thereof that can be easily switched or distributed.

Recently, Korea and other countries are shifting from analog broadcasting to digital broadcasting. Accordingly, broadcasting equipment manufacturers are rushing to develop HD-class broadcasting equipment.

For example, a broadcasting system includes a video switcher, a video equipment (e.g. video production, video transmission equipment), a transmission equipment, and a receiver (e.g. TV receiver, antenna), among which the video equipment is economical, system installation It should be designed to be flexible for the simplicity of the system and for the expansion of the system and the change of the broadcasting environment in the future, but the recent broadcasting environment is not able to cope with it because the transition from the analog to the HD broadcasting is made immediately. There is this.

In particular, the video switcher equalizes the characteristics of the video signal obtained from a video material such as a camera, a VCR, a character generator, a video input from a relay site or another broadcaster, and then converts the selected video material therefrom, In the case of mixing or processing, the conventional video switcher has a physical limitation on the number of switching channels, and cannot cope with the change of the broadcasting environment because it cannot process HD-quality video, and also has the problem of poor scalability.

On the other hand, as a background art of the present invention, a computer video matrix switcher and a control program used in a closed circuit television system of a computer remote monitoring control method disclosed in Korean Patent Laid-Open No. 10-2001-0025583 (April 2001.04.06.) Although a method of controlling a plurality of CCTV cameras by a program and displaying each camera image on a monitor of a computer is proposed, the background art directly selects a desired camera by an administrator of each station monitoring the CCTV. It is possible to view the image or to control the selected camera, but for example, the administrator (third party) of the first management station outputs the first camera image (any camera image) to the monitor of the second management station (or any management station). It is not about a technology that enables switching or distribution.

In addition, the matrix switcher disclosed in the Republic of Korea Patent Publication No. 10-2010-0002732 (2010.01.07.) And its driving method connects any image device connected to the input terminal and any display device connected to the output terminal by a selection signal, That is, a matrix switcher for performing image switching is proposed, and the background art simply performs a function of switching an image signal and outputting it to an arbitrary display device. If the data format of the video signal is different, that is, it is not proposed to convert the data format of the input video signal into a digital data format suitable for a display device, and there is a difference in the object, configuration, and effect of the present invention. .

The present invention was created to solve the above problems, a hybrid that can easily switch or distribute the SD-grade video used in the existing broadcasting environment, as well as HD-grade video to be used in a new broadcasting environment using a user interface environment. It is an object of the present invention to provide a multi-channel HD video distribution system and a method thereof.

In addition, the present invention is a hybrid multi-channel HD video that can be operated at a low cost and convenient operation without being constrained by the environment, space, and cost by switching the work environment for switching or distribution that was previously operated in hardware based on software It is an object of the present invention to provide a distribution system and a method thereof.

In addition, the present invention is connected to a network environment, such as a server of the Internet (for example, cloud server, broadcaster server, VOD server, etc.) as well as from the video equipment directly downloaded or selectively downloaded and distributed in various formats by downloading the downloaded video through streaming An object of the present invention is to provide a hybrid multichannel HD video distribution system and a method thereof.

In addition, the present invention provides a hybrid multi-channel HD video distribution system and method comprising a user interface environment that the user can conveniently manipulate, switch, mix, or process the input SD or HD video received by switching, distribution Its purpose is to.

Hybrid multi-channel HD video distribution system according to an aspect of the present invention is at least one first input port for receiving a video signal in the HDMI (HD-Media Interface) interface standard, and the video signal in the SDI (Serial Digital Interface) interface standard At least one second input port for receiving a; At least one first output port for outputting a video signal in the HDMI interface standard, and at least one second output port for outputting a video signal in the SDI interface standard; And switching or distributing at least one video signal input through the first input port to the at least one first or second output port, and outputting the at least one video signal input through the second input port. And switching / distributing means for switching or distributing to at least one of the at least one first or second output port and outputting the same, wherein the switching / distributing means has different interface specifications between the input port and the output port. Converts the video signal according to the interface standard of the output port, the first input port and the first output port inputs and outputs an HD video signal through the HDMI interface standard, the second input port and the second output port is the SDI interface A control unit for inputting and outputting an HD or SD video signal through a standard, and controlling the operation of the switching / distributing means; The control unit may further include at least one or more of subtitles, special effects, graphics, animations, the video and another video, or a combination thereof, and process the respective ports by overlapping the switched video. A command related to the switching / distribution or processing of an image is input by communicating with a user interface of the controller, and the status information according to the processing is output, and the command related to the switching / distribution or processing of the image and the processing of the command are received. Input / output status information through an Ethernet interface supporting at least 10/100/1000 Mbps, and the switching / distributing means includes an image processing function for mixing or editing / processing an image signal with another image signal, or separately. The image processor further comprises; the image processor or image processor Converts SD-quality video into HD-quality video or converts HD-quality video to SD-quality video, and inputs the video signals input through the first and second input ports and video signals processed by the switching / distributing means. Is in a different format, or when the format of the video signal output through the switching / distributing means and the first and second output ports is different, a format suitable for processing the video signal by the switching / distributing means, or At least one format converting means for converting or manipulating a format suitable for output through the first and second output ports, respectively, wherein the switching / distributing means is included in an image signal and is input to an audio signal. To output through the audio output port or synthesize the audio signal which is separated from the video signal and input to the video signal And a status display means for outputting through an audio signal and separately inputted or outputted from the video signal, input / output through an audio codec, and displaying a state according to a switching or distribution operation of the switching / distributing means. And outputting the information indicating the state to the user interface to display the operation state of the system in a double manner, wherein the user interface switches devices connected to each input port and output port, and image signals input through the input ports. A switch for dispensing and a switch for mixing or editing / processing the video signal are displayed on the screen, and the switch is operated through an input device such as a mouse or a keyboard, and the operation state according to the operation is displayed as a line or an arrow. User using graphic information and text information It characterized in that display to be seen intuitively.

Hybrid multi-channel HD video distribution method according to an aspect of the present invention comprises the steps of receiving a command related to the switching / distribution or processing of the image through a software-based user interface; Selecting at least one or more input ports and output ports respectively according to the input command; Blending or processing the corresponding images if the instructions include instructions related to mixing or processing the images; If the interface specifications of the selected input port and output port are different from each other, converting the image input through the corresponding input port or the mixed or processed image according to the interface specification of the corresponding output port; And switching / distributing the image converted according to the interface standard of the corresponding output port to a corresponding output port and outputting the at least one HD video signal through an HDMI interface standard. Each input is configured to receive at least one or more SD video signals through the SDI interface standard, and the output port outputs at least one or more HD video signals through the HDMI interface standard, or SDI interface standards And outputting each of at least one or more SD-level video signals through each other, and outputting and displaying the state information according to the processing of the input command to the user interface. Mixing or processing HD-quality videos Or converting the HD image into the SD image, and converting the image according to the interface specification of the output port may include converting the image input to the HDMI interface specification into the SDI interface specification, or the SDI interface specification. And converting the image input to the HDMI interface standard, wherein the user interface includes a device connected to each input port and an output port, a switch for switching or distributing a video signal input through each input port, and the video signal. Displays a switch for blending or editing / processing on the screen, and operates the switch through an input device such as a mouse or a keyboard, and uses the graphic and text information such as a line or an arrow to display the operation state according to the operation. To help users intuitively know Characterized in that play.

The present invention can be easily switched, mixed, or processed to switch or distribute using a user interface environment that converts not only the SD level image used in the existing broadcasting environment but also the HD level image used in the new broadcasting environment based on software. In addition, it is possible to operate at low cost and convenient operation without being constrained by environment, space, and cost. Also, it is possible to access the network environment such as the server of the Internet and download directly or stream the downloaded video in various formats. It has the effect of being edited and distributed.

1 is an exemplary diagram for explaining a hybrid multi-channel HD video distribution system according to an embodiment of the present invention.
FIG. 2 is a block diagram illustrating the operation of a hybrid multichannel HD video distribution system in FIG.
3 is a block diagram showing a detailed configuration of a hybrid multi-channel HD video distribution system in FIG.
4 is a flowchart illustrating a hybrid multichannel HD video distribution method according to an embodiment of the present invention.

Hereinafter, an embodiment of a hybrid multichannel HD video distribution system and a method thereof according to the present invention will be described with reference to the accompanying drawings.

1 is an exemplary diagram for explaining a hybrid multi-channel HD video distribution system according to an embodiment of the present invention.

As shown therein, the hybrid multi-channel HD video distribution system 100 according to an embodiment of the present invention includes at least one or more various input sources (eg, a studio camera, a DECK record, a DVD) including an SD video or an HD video. The present invention is provided by receiving an image provided from a player, another broadcasting channel, a character generator, a server providing an image in a network environment, etc., selecting at least one image input from the input source, and then switching, mixing, or processing the image. It selectively outputs at least one output device (eg, monitor, studio TV, remote lecture projector, etc.) connected to the hybrid multi-channel HD video distribution system according to the example.

Hybrid multi-channel HD video distribution system 100 according to an embodiment of the present invention has a function of simply switching the input SD or HD video to any one of the corresponding output device, at least one corresponding to the input video And a user interface (or graphical user interface) for easily performing the switching function and the distribution function.

Hereinafter, the hybrid multichannel HD video distribution system 100 will be described in more detail.

FIG. 2 is a block diagram illustrating an operation of a hybrid multichannel HD video distribution system in FIG. 1, and as shown in FIG. 1, the hybrid multichannel HD video distribution system 100 includes at least one HD video signal. HD input port for receiving the input, SD input port for receiving at least one or more SD video signal, at least one or more HD output port for outputting the HD video signal, at least one or more SD output for outputting the SD video signal Port, an audio input port for receiving an audio signal corresponding to each of the SD or HD video, and an audio output port for outputting the audio signal.

The HD video signal may be input / output via an HDMI interface or an HD-SDI (HD-Serial Digital Interface) interface, and the SD video signal may be SD-SDI (SD-Serial Digital Interface). Input and output through the interface.

For reference, the HDMI interface is one of digital video / audio interface standards for interfacing between devices such as AV devices and monitors in multimedia such as DVD and PC. The SDI interface is one of an interface standard for transmitting digital video through a coaxial cable, and may implement a high resolution image of at least 720p (1280 x 720).

In addition, the hybrid multi-channel HD video distribution system 100 supports both interlaced (i) and progressive (p), supports 1080i, 1080p Full HD resolution, and supports 1920 x 1080 Full HD resolution. . It also supports RS232 serial communication and Ethernet communication, so it can receive video from local devices (e.g. studio cameras, DECK records, DVD players, other broadcast channels, text generators, etc.), VOD servers connected to the Internet, A specific video may be received through the broadcast server.

In addition, the hybrid multi-channel HD video distribution system 100 implements the distribution system of the received video based on software so that not only the number of desired output ports can be variably determined, but also the number and speed of output streams as desired. The output can be adjusted. That is, the software can be controlled in a graphical user interface (GUI) environment so that the number and speed of input / output ports can be controlled to a desired optimum state within the total capacity of the system.

In addition, the hybrid multi-channel HD video distribution system (hereinafter, referred to as a distribution system for convenience) is mechanically configured to be rack compatible, so if the physical input / output channel is insufficient, the distribution system 100 is added to the rack. You can add as many channels as you want. That is, when the number of devices connected to the input / output ports increases, the number of input / output ports that can be handled by each distribution system 100 is exceeded, so that the distribution system 100 according to the present invention is further extended to each distribution system 100. By cascading (cascading) to the total capacity of the distribution system 100 is configured to easily increase the total capacity. In this case, the user interface may naturally control the entire cascaded system through a communication means including serial communication, Ethernet communication, or a combination thereof.

In addition, the control of the matrix switch based on this software adds subtitle editing, special effects, adding graphics, adding animation, or other images (including new video content, picture-in-picture, or separate 3D video). It is possible to add the caption, special effects, graphics, animations, or other images to the images to be switched so that they can be processed for each port.

Hereinafter, the configuration of the hybrid multichannel HD video distribution system 100 will be described in more detail.

FIG. 3 is a block diagram illustrating a detailed configuration of a hybrid multi-channel HD video distribution system in FIG. 2, and as shown in FIG. 2, the controller 110, the switch / distributor 120, the Ethernet switch 130, and audio. Codec 140, HDMI format converters 150 and 151, SDI format converters 160 and 161, a power supply unit 170 and a status display unit 180 is configured to include.

Here, the control unit 110 is a switch / distribution command (or processing command) of the user through a user interface (or a graphical user interface) installed in any terminal (for example, computer, laptop, tablet PC, smart phone, mobile terminal, etc.) It processes the video switching and distribution. The processing result is output to the user interface through the Ethernet switch 130 to display the current state.

That is, the controller 110 receiving the switch / distribution command controls the corresponding configuration means (for example, the switch / distributor 120) to control the input port (for example, one of the HDMI input port or the SDI input port). Select an image input through the specific input port specified in the command among the images (HD image or SD image) input through the input port, and also specify a specific output port (eg, HDMI output port or SDI output) specified in the command. Output through any one of the ports).

In this case, the selected input image may be mixed or processed through an image input through another input port and the switch / distributor 120 and output. That is, subtitles or special effects may be inserted into the selected input image. For example, the HD video of a camera (not shown) input through HDMI input port # 1 is mixed with the subtitles or special effects of a character generator (not shown) input through HDMI input port # 2, and connected through HDMI output port # 1. A studio TV (not shown) may output a video in which subtitles or special effects are mixed.

Herein, the switch / distribution command (or processing command) may be input through an Ethernet switch 130 supporting at least 10/100/1000 Mbps, and the control unit 110 and the Ethernet switch 130 may use a media independent interface (MII). It can be a communication interface through the Media Independent Interface. In addition, the control unit 110 and each component 120 to 161 in the distribution system 100 may be interfaced through I2C (Inter Integrated Circuit). In this case, each communication interface scheme is merely described as an example and is not intended to be limiting.

The switch / distributor 120 may receive an HD image through an HDMI input port, output an HD image through an HDMI output port, and receive an HD or SD image through an SDI input port, and may output an SDI output. The port can output HD or SD video. In addition, the HD image input through the HDMI input port may be output through the SDI output port, or the HD or SD image input through the SDI input port may be output through the HDMI output port. In addition, the switch / distributor 120 may have a matrix structure and output one input image to a plurality of output devices, or output a plurality of input images to one output device.

In this case, the switch / distributor 120 may directly access a network environment such as a server (for example, a cloud, a broadcaster server, a VOD server, etc.) of the Internet as well as a video device, and may download the video directly or download it through streaming. Under the control of the controller 110, an image downloaded through the video equipment or the Internet can be edited in various formats and selectively distributed.

In addition, the switch / distributor 120 may output a mixed / processed one input image with another input image under the control of the controller 110, or may simply switch or distribute one input image. . That is, the switch / distributor 120 may include an image processing function for mixing and processing images, and although not shown in the drawing, a separate image processor for the image processing (eg, mixing and processing). By further embedding (not shown), it is also possible to convert an SD image into an HD image or convert an HD image into an SD image through the image processor (or an image processing function).

In addition, the image signal input through the input port of the switch / distributor 120 is suitable for processing (eg, switching distribution processing, image processing) by the switch / distributor 120 through format converters 150 and 160. It can be converted to a format (eg A / D conversion) or manipulated. On the contrary, when the converted or manipulated video signal is output through the output port of the switch / distributor 120, the format signal is converted (eg, D / A conversion) or manipulated to the original format through the format converters 151 and 161. Can be output.

Meanwhile, the audio signal may be input or output through the audio port of the switch / distributor 120 or may be input or output through the HDMI or SDI port. That is, the audio signal may be included in the video signal and input, or may be input separately from the video signal. The audio signal separated from the video signal and separately input and output is encoded or decoded through the audio codec 140. Of course, even if the audio signal is included in the video signal, it is also possible to separate and process the audio signal separately during input and output, and conversely, it is also possible to synthesize the input audio signal separately separated from the video signal and output the synthesized video signal. For example, an audio signal input through an audio line may be included in an image output through an HDMI port or may be output, or an audio signal included in an image input through an HDMI / SDI port may be separated and output through an audio line.

The input-side HDMI format converter 150 converts or manipulates an HD video signal input through an HDMI interface into a format suitable for processing (eg, switching distribution processing, image processing) by the switch / distributing unit 120. Enter The output HDMI format converter 151 converts or outputs the video signal output from the switch / distributor 120 back to its original format (or a format suitable for processing by the output device).

In addition, the input side SDI format converter 160 converts or manipulates an HD or SD video signal input through an SDI interface into a format suitable for processing (eg, switching distribution processing, image processing) by the switch / distributor 120. Enter the appropriate port. The output-side SDI format converter 161 converts or manipulates the video signal output from the switch / distributor 120 back to its original format (or a format suitable for processing by the output device) and outputs the same.

In this case, each of the SDI format converters 150 and 151 and the HDMI format converters 160 and 161 may be configured to include a corresponding number corresponding to the number of SDI and HDMI input / output ports (or input / output channels).

The power supply unit 170 is a means for supplying operating power to the hybrid multi-channel HD video distribution system 100 according to the present embodiment, a direct current converted through a commercial AC power (eg AC 220V) and an adapter (not shown) It can receive power (eg DC 24V). And when the AC power is input may include a power supply (eg Switching Mode Power Supply (SMPS)) that can be converted to direct current. If the voltages used by the respective constituent means of the distribution system 100 are different, the power supply unit 170 may provide respective voltages required for driving the constituent means.

The status display / operation unit 180 displays the operation state of the hybrid multi-channel HD video distribution system 100 according to the present embodiment by using at least one display element (not shown) such as an LED (or LCD). May be provided with at least one operation button (or switch) for determining the operating state, or for allowing a user to perform direct manipulation of the distribution system 100.

For example, it is a console and display element equipped with a power switch (PWR switch), input / output port selection buttons, and operation buttons for image mixing / processing processing. It may include. In this case, the buttons (or switches) included in the status display / operation unit 180 are difficult to communicate with each other when the graphic user interface (GUI) installed in the terminal and the communication of the distribution system 100 of the present invention are not connected. In this case, the user can directly control the operation of the distribution system 100.

In addition, the status display / operation unit 180 displays an operation state even when the distribution system 100 is controlled through a user interface (or a graphic user interface). That is, the operation state is displayed on the user interface (or graphic user interface), but the operation state is also displayed through the state display / operation unit 180.

Meanwhile, the user interface (or graphic user interface) is a means for software control of the hybrid multi-channel HD video distribution system 100 according to the present invention, for example, by connecting a plurality of distribution systems 100 in a cascading manner. Increasing the input and output port has the advantage that can be easily responded.

The user interface (or graphical user interface) displays devices connected to input and output ports of the distribution system 100, respectively. Devices connected to each port may simply display only the number and ID, but may include a brief description or an image of each device. In this case, the image is preferably minimized and displayed like a thumbnail image. When an image of the input device is switched or distributed, the switched or distributed output device may be displayed using graphic information such as a line or an arrow so that the user can intuitively know. In addition, an operation switch for editing / mixing / processing the video signal and display information indicating an operation state may be displayed using a graphic (image). Therefore, the user can select the graphic input port (or input device), output port (or output device) and operation switch using an input means such as a keyboard or a mouse, and also edit / mix / process the desired image. Operation can be simply instructed to the dispensing system 100.

4 is a flowchart illustrating a hybrid multi-channel HD video distribution method according to an embodiment of the present invention. As shown in FIG. 4, a switching / distribution command (or processing command) is executed through a graphical user interface (or user interface). When received, the controller 110 controls the switch / distributor 120 according to the command (S101).

That is, the controller 110 analyzes the received switching / distribution command to select a corresponding input port (or input device) and output port (or output device) (S102), and inputs through the corresponding input port. The image is switched / distributed to at least one corresponding output port and output (S105).

In this case, when the switching / distribution command includes a command for image mixing or processing, the corresponding images are mixed or processed before switching / distributing the image (S103). In addition, when the interface standard of the input port and the output port is different, for example, the input port is an image of the HDMI interface standard (or SDI interface standard) is input, the output port is an image of the SDI interface standard (or HDMI interface standard) is output In this case, before switching / distributing the image, the corresponding image is converted according to the interface standard of the output port (S104).

As described above, when the switching / distribution to the at least one corresponding output port (or output device) is completed by switching, mixing, or processing the image of the input port (or input device), the status information is displayed in the graphical user interface (or Output to the user interface) to display the operation state (S106).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, I will understand the point. Accordingly, the technical scope of the present invention should be defined by the following claims.

100: Hybrid multichannel HD video distribution system
110: control unit 120: switch / distribution unit
130: Ethernet switch 140: Audio codec
150, 151: HDMI format converter 160, 161: SDI format converter
170: power supply unit 180: status display / control unit

Claims (15)

At least one first input port for receiving a high definition (HD) level video signal through an HDMI (HD-Multimedia Interface) interface standard and a standard definition (SD) level or HD level video signal through a SDI (Serial Digital Interface) interface standard. At least one second input port for receiving input;
At least one first output port for outputting an HD video signal in the HDMI interface standard and at least one second output port for outputting an SD or HD video signal in the SDI interface standard;
At least one Ethernet input port and Ethernet output port;
The at least one first output port and the second output port according to a command of the controller to control at least one image signal input through the input port including the first input port, the second input port, or a combination thereof and the Ethernet input port; Or switch or distribute output to an output port and an Ethernet output port including a combination thereof;
Connected to video equipment, or connected to a server of the Internet including a cloud server, a broadcaster server and a VOD server, the downloaded video signal is edited and selectively distributed in a specific format through the video equipment or the Internet according to a command of the controller. To;
According to the command of the control unit, the built-in image processing function or additional processor is embedded to mix or process any one input video signal with another input video signal, or to convert the SD video signal to HD video signal HD video signal is converted into SD video signal and outputted, and the mixing or processing is performed by subtitles, special effects, graphics, animation, new video content, PIP, separate 3D video, or a combination thereof. Switching / distributing means, characterized in that it comprises a matrix structure including processing for each port so that other input image including a combination;
When the image signal input through the first input port, the second input port or the Ethernet input port is different from the format of the video signal processed by the switching / distributing means, or the video signal processed by the switching / distributing means and the At least one format converting means for converting a format of the video signal when the format of the video signal output through the first output port, the second output port, or the Ethernet output port is different; And
The at least one video signal input through the input port and the Ethernet input port including the first input port, the second input port or a combination thereof and the at least one first output port, the second output port or a combination thereof Switch or output to an output port and an Ethernet output port, including;
Access to a video facility, or access a server of the Internet including a cloud server, a broadcaster server, and a VOD server to edit the downloaded video signal in a specific format through the video device or the Internet and selectively distribute and output the video signal;
Built-in image processing function or additional processor to mix or process any one input video signal with other input video signal, convert SD video signal to HD video signal or HD video signal Converts and outputs SD video signal, and the mixing or processing is any other input video including subtitles, special effects, graphics, animation, new video content, PIP, separate 3D video, or a combination thereof. Process each port so that it overlaps;
And a controller including a command related to switching / distribution of the video signal or processing thereof and status information according to the processing of the command to be displayed on a user interface screen through an Ethernet switch. Hybrid multichannel HD video distribution system.
delete delete delete delete delete delete The method according to claim 1,
The switching / distributing means separates the input audio signal included in the video signal and outputs it through the audio output port, or separates the input audio signal separated from the video signal into the video signal and outputs it through the video signal output port. ,
And a separate input or output audio signal separated from the video signal is input and output through an audio codec.
The method according to claim 1,
And state display means for displaying a state according to the switching or dispensing operation of the switching / distributing means.
And displaying the operation state of the system by outputting information indicating the state to the user interface as well.
The method according to claim 9,
The user interface includes a device connected to each input port and output port, a switch for switching or distributing image signals input through each input port, and a function of mixing, editing, processing, or a combination thereof. Display the switch to perform on the screen,
The switch is operated by an input device such as a mouse or a keyboard,
And displaying the operation state according to the manipulation on a screen by using graphic information and text information such as a line or an arrow. delete delete delete delete delete

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