JP2014003438A - Video display device, video system, and video display method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a video display device, a video system, and a video display method which, even when cables for video transmission are incorrectly connected, can display divided video in correct display areas respectively.SOLUTION: When position information specifying which one of display areas 231 to 234 video from video data held in each frame buffer 221 to 224 should be displayed in, is given to a video path change unit 220 from a second control unit 210, a frame buffer holding the video data corresponding to the position information outputs the video data which it holds to a display area specified by the position information. At this time, even when HDMI transmitters 150 to 180 and HDMI receivers 250 to 280 are incorrectly connected by HDMI cables 155 to 185, divided video data are respectively output to display areas 231 to 234 appropriately.

Description

  The present invention relates to a video display device, a video system, and a video display method, and more particularly, to a video display device, a video system, and a video display method for displaying a video composed of a plurality of divided videos.

  In recent years, with the spread of video display devices such as liquid crystal televisions capable of displaying digital video, video display connected from video output devices such as personal computers via HDMI cables compliant with the HDMI (High Definition Multimedia Interface) standard There are increasing opportunities to use video systems that display video by transmitting video data to the device.

  A high-resolution monitor such as 4K2K having a resolution four times that of full high-definition has been developed for practical use. If such a high-resolution monitor is used as a display unit of a video display device, it is necessary to transmit a large amount of video data from the video output device via an HDMI cable. However, if there is only one HDMI cable connecting the video output device and the video display device, a sufficient data transfer rate cannot be ensured, so that the amount of video data transmitted to the video output device is small. Less. For this reason, even if the video display device includes a high-resolution monitor, it cannot display a high-resolution video.

  Therefore, the video data is divided into a plurality of data, the video output device and the video display device are connected by a plurality of HDMI cables, and the divided video data is simultaneously transmitted to the video display devices through the HDMI cables. As a result, a sufficient data transfer rate can be secured, so that the video display device can display a high-resolution video.

  Further, in Patent Document 1, in a video system configured by a video output device and a video display device, a control command is transmitted from the video display device to the video output device when simultaneously displaying a plurality of videos on the video display device. Thus, a video system is disclosed in which the video display device determines the video resolution and the like.

JP 2010-108372 A

  If the number of HDMI cables connecting the output terminal of the video output device and the input terminal of the video display device increases, there is a high possibility that the connection of each HDMI cable is wrong. For example, when the video data is divided into two and these video data are respectively transmitted to the video display device via two HDMI cables, there are only two combinations for connecting the HDMI cables. Therefore, when the viewer recognizes that the video displayed on the video display device is not displayed at the correct position, the video divided into two is displayed at the correct position by replacing the HDMI cable. Is done.

  However, when the number of HDMI cables is four, there are a total of 24 combinations for connecting the HDMI cables. For this reason, even if the user sees the video displayed on the video display device and finds that the connection of the HDMI cable is wrong, the replacement work of the HDMI cable necessary for the correct connection becomes complicated. The replacement work becomes more complicated as the number of HDMI cables increases.

  FIG. 1A is a diagram illustrating an image when four HDMI cables are correctly connected in the conventional video system, and FIG. 1B is a diagram illustrating two of the four HDMI cables. It is a figure which shows an image | video when is connected by mistake. As shown in FIG. 1A, if all the HDMI cables 755 are correctly connected, each video divided and transmitted from the video output device 700 is correctly displayed in each display area 831 to 834 of the display unit 830. Since it is displayed, the viewer can correctly recognize the video. However, as shown in FIG. 1B, if two of the four HDMI cables 755 are connected by mistake, the video that should originally be displayed in the display area 831 is displayed in the display area 834. Conversely, a video to be displayed in the display area 834 is displayed in the display area 831. Thus, if the connection of the HDMI cable 755 is wrong, the video transmitted by the wrong HDMI cable 755 is displayed in a display area that is different from the display area that should be originally displayed. It cannot be recognized correctly.

  Moreover, the video system described in Patent Document 1 is a system that displays a plurality of independent videos on a video display device. This video system allows the viewer to correctly recognize the video displayed in each display area even if the display area where the video is to be displayed is wrong, so even if the HDMI cable is connected incorrectly It does not have a function of displaying the divided images in the display area that should be displayed.

  Therefore, the present invention provides a video display device, a video system, and a video display method capable of displaying each divided video in a correct display area even when a cable for transmitting a video is incorrectly connected. The purpose is to provide.

The first invention is connected to a video output device by a plurality of transmission cables capable of transmitting video data and control information divided into a plurality of data, and is transmitted from the video output device by the plurality of transmission cables. A video display device for displaying a video represented by the divided video data on a display unit including a plurality of display areas,
A plurality of video receivers each receiving the divided video data output from the video output device;
A plurality of control information receiving units that respectively receive the divided control information output from the video output device corresponding to the divided video data;
A control unit for acquiring position information for designating the display area for displaying the video from the control information received by the plurality of control information receiving units;
A video path changing unit that gives video data received by the plurality of video receiving units to the display unit;
The video path changing unit displays the video of the divided video data respectively given from the plurality of video receiving units in the display area designated by the position information given from the control unit. And giving the divided video data to the display unit,
The display unit displays the video represented by the divided video data in the plurality of display areas based on the position information.

According to a second invention, in the first invention,
The video path changing unit includes a plurality of frame buffers for holding the divided video data,
The plurality of video receiving units are respectively connected to the plurality of frame buffers on a one-to-one basis,
Each of the plurality of frame buffers is connected to the plurality of display areas.

According to a third invention, in the first invention,
The video path changing unit includes a plurality of frame buffers for holding the divided video data,
Each of the plurality of video reception units is connected to one of the plurality of frame buffers,
The plurality of frame buffers are respectively connected to the plurality of display areas on a one-to-one basis.

According to a fourth invention, in the first invention,
The video path changing unit includes a plurality of frame buffers for holding the divided video data,
Each of the plurality of video reception units is connected to one of the plurality of frame buffers,
Each of the plurality of frame buffers is connected to the plurality of display areas.

According to a fifth invention, in the first invention,
The control information is CEC information.

According to a sixth invention, in the first invention,
The control information is HEC information.

According to a seventh invention, in the first invention,
The control information is info frame information.

According to an eighth aspect of the present invention, there are provided a plurality of video transmission units that respectively output a plurality of divided video data, and a plurality of control information transmission units that respectively output a plurality of control information corresponding to the plurality of divided video data. A video display device including:
A video display device according to any one of the first to seventh inventions;
One video transmission unit and control information transmission unit of the plurality of video transmission units and the plurality of control information transmission units, one video reception unit and a control information reception unit of the plurality of video reception units and the plurality of control information reception units A video system comprising a plurality of transmission cables connecting the
The video display device acquires the plurality of divided video data transmitted from the video output device based on position information that is acquired from the plurality of control information and specifies a position of a display unit that displays a video. Each of the display areas is displayed in a plurality of divided display areas.

In a ninth aspect of the present invention, video data divided into a plurality of data and connected to a video output device by a plurality of cables capable of transmitting control information and video data transmitted from the video output device by the plurality of cables. A video display method for displaying a video represented by a display unit comprising a plurality of divided screens,
Receiving each of the divided video data output from the video output device by a plurality of video receivers;
Receiving the control information corresponding to the divided video data output from the video output device by a plurality of control information receiving units, respectively;
Obtaining position information for designating a display area for displaying the video from the control information received by the control information receiving unit;
Providing the divided video data to the display unit such that the video of the divided video data provided from the plurality of video receiving units is displayed in the display area specified by the position information. When,
And displaying the video represented by the divided video data in the divided display area based on the position information.

  According to the first aspect of the present invention, if position information specifying which of the plurality of display areas should display the video of the divided video data is given from the control unit to the video path changing unit, the video path changing unit The video data given from the plurality of video receiving units to the video path changing unit is output to the display area specified by the position information. In this case, even if the transmission cable for transmitting the video data from the video output device is incorrectly connected, the divided video data is output to an appropriate display area. Thus, the viewer can correctly recognize the high-resolution video displayed on the high-resolution display unit.

  According to the second aspect, the plurality of frame buffers included in the video path changing unit and the plurality of display areas do not correspond one-to-one. However, if position information specifying which of the plurality of display areas should display the image data of the image data held in each frame buffer is given from the control unit to the image path changing unit, the image data corresponding to the position information The frame buffer that holds the image data outputs the held video data to the display area specified by the position information. In this case, the video display device outputs the divided video data to an appropriate display area even if the transmission cable is incorrectly connected. Thus, the viewer can correctly recognize the high-resolution video displayed on the high-resolution display unit.

  According to the third aspect, the plurality of video receiving units and the plurality of frame buffers included in the video path changing unit do not correspond one-to-one. However, the plurality of frame buffers and the plurality of display areas are connected in a one-to-one correspondence. Therefore, if position information that specifies in which display area the video of the divided video data should be displayed is given from the control unit to the video path changing unit, each video data given from the plurality of video receiving units is The video is held in a frame buffer connected to the display area where the video is to be displayed, and further output to the display area. Thus, the viewer can correctly recognize the high-resolution video displayed on the high-resolution display unit.

  According to the fourth aspect, the plurality of video receivers and the plurality of frame buffers, and the plurality of frame buffers and the plurality of display areas do not correspond one-to-one. Therefore, video data given from a plurality of video receiving units is held in one of the frame buffers, and position information specifying a display area in which video of the held video data is to be displayed is given from the control unit to each frame buffer. If so, the frame buffer holding the video data corresponding to the position information outputs the video data to the display area specified by the position information. Thus, the viewer can correctly recognize the high-resolution video displayed on the high-resolution display unit.

  According to the fifth aspect of the invention, the position information specifying the display area in which the video of the divided video data is to be displayed is included in the CEC data and transmitted to the control information receiving unit, whereby the position information is correctly changed. Can be sent to the department. Thus, the viewer can correctly recognize the high-resolution video displayed on the high-resolution display unit.

  According to the sixth aspect of the invention, the position information specifying the display area in which the video of the divided video data is to be displayed is included in the HEC data and transmitted to the control information receiving unit, so that the position information is correctly changed. Can be sent to the department. Thus, the viewer can correctly recognize the high-resolution video displayed on the high-resolution display unit.

  According to the seventh aspect of the invention, the position information specifying the display area in which the image of the divided image data is to be displayed is included in the info frame data and transmitted to the control information receiving unit, so that the position information is correctly transmitted to the image path It can be sent to the change unit. Thus, the viewer can correctly recognize the high-resolution video displayed on the high-resolution display unit.

  According to the eighth aspect of the invention, the connection of the plurality of transmission cables connecting the video display device that outputs the plurality of divided video data and the video display device according to any one of the first to seventh inventions. Even if a mistake is made, a plurality of video data is output to the designated display area based on the position information output from the video output device. Thus, the divided video data is output to an appropriate display area. As a result, the viewer can correctly recognize the high-resolution video displayed on the high-resolution display unit.

  According to the ninth aspect, the same effect as in the first aspect can be obtained.

(A) is a figure which shows a video when four HDMI cables are correctly connected in the conventional video system, (b) is a connection mistakenly two of the four HDMI cables. It is a figure which shows the image | video when being done. It is a block diagram which shows the structure of the video system which concerns on the 1st Embodiment of this invention. It is a figure which shows the structure of the video path change part of a video display apparatus and the display part which are included in the video system which concerns on the said 1st Embodiment. In the video display device according to the first embodiment, it is a diagram illustrating processing from when the video receiving unit outputs divided video data until video is displayed in each display area of the display unit. It is a figure which shows the process after an image | video receiving part outputs the image | video data divided | segmented until the image | video is displayed on each display area of a display part in the video display apparatus of the 2nd Embodiment of this invention. It is a figure which shows the process after an image | video receiving part outputs the image | video data divided | segmented until the image | video is displayed on each display area of a display part in the video display apparatus of the 3rd Embodiment of this invention. It is a block diagram which shows the structure of the video system which concerns on the 1st modification of the said 1st Embodiment. It is a block diagram which shows the structure of the video system which concerns on the 2nd modification of the said 1st Embodiment.

<1. First Embodiment>
<1.1 Video system configuration>
FIG. 2 is a block diagram showing the configuration of the video system according to the first embodiment of the present invention. As shown in FIG. 2, the video system includes a video output device 100 and a video display device 200. The video output device 100 includes a first control unit 110, a video source 120, and four HDMI transmitters 150 to 180. Each of the HDMI transmitters 150 to 180 includes one of CEC (Consumer Electronics Control) transmission units 151 to 181 (also referred to as “control information transmission unit”) and one of the video transmission units 152 to 182. The video display device 200 includes a second control unit 210 (also referred to as “control unit”), a video path changing unit 220, a display unit 230, and four HDMI receivers 250 to 280. Each of the HDMI receivers 250 to 280 includes one of CEC receiving units (also referred to as “control information receiving units”) 251 to 281 and one of video receiving units 252 to 282, respectively.

  The video source 120 divides the video data representing the video to be displayed on the video display device 200 into four, and outputs these video data to the video transmission units 152 to 182 of the HDMI transmitters 150 to 180, respectively. The first control unit 110 provides CEC data including position information for designating a display area in which each divided video is displayed in the video display device 200 to the CEC transmission units 151 to 181 of the HDMI transmitters 150 to 180.

  The HDMI transmitters 150 to 180 are connected to the HDMI receivers 250 to 280 by any one of four HDMI cables 155 to 185 (also referred to as “transmission cable”). Specifically, the CEC transmission unit 151 of the HDMI transmitter 150 is connected to the CEC reception unit 251 of the HDMI receiver 250 and the video transmission unit 152 is connected to the video reception unit 252 by the HDMI cable 155. Other HDMI transmitters 160 to 180 and HDMI receivers 260 to 280 are connected in the same manner. Thereby, the divided four video data are transmitted from the video transmission units 152 to 182 to the video reception units 252 to 282 connected by the HDMI cables 155 to 185, respectively. CEC data including position information of each video data is transmitted from the CEC transmission units 151 to 181 to the CEC reception units 251 to 281, respectively.

  When the CEC receiving units 251 to 281 receive the CEC data, the CEC receiving units 251 to 281 acquire position information for designating a display area in which the video divided from the CEC data is to be displayed, and output the position information to the second control unit 210. When receiving the divided video data, the video receiving units 252 to 282 output the video data to the video path changing unit 220. The screen of the display unit 230 is divided into four display areas (not shown). Therefore, the second control unit 210 causes the video of the video data provided from the video path changing unit 220 to the display unit 230 to be displayed in a display area designated based on the position information among these display areas. Position information is given to the video path changing unit 220. The video path changing unit 220 outputs each divided video data to the designated display area of the display unit 230 based on the given position information. As a result, a video based on the video data specified by the position information is displayed in each display area of the display unit 230.

<1.2 Control of video data based on position information>
FIG. 3 is a diagram showing the configuration of the video path changing unit and the display unit of the video display device shown in FIG. As shown in FIG. 3, the video path changing unit 220 includes four frame buffers 221 to 224, and the display unit 230 is divided into four display areas 231 to 234. The video data divided into four is held in any one of the frame buffers 221 to 224 and given to any one of the display areas 231 to 234 specified by the position information. In this way, the display unit 230 displays the divided video in the display areas 231 to 234 and displays one video.

  FIG. 4 is a diagram illustrating a process from when the video reception unit outputs the divided video data until the video is displayed in each display area of the display unit in the video display device of the present embodiment. In FIG. 4, the four CEC receivers 251 to 281 shown in FIG. 2 are collectively represented as a CEC receiver 253. The same applies to FIGS. 5 and 6 described later. As shown in FIG. 4, the video receiving units 252 to 282 are connected to the frame buffers 221 to 224 so as to correspond one-to-one. Therefore, the video data received by the video receiving unit 252 is given to the frame buffer 221, and the video data received by the video receiving unit 262 is given to the frame buffer 222. Similarly, video data is supplied from the video receivers 272 and 282 to the frame buffers 223 and 224, respectively.

  On the other hand, the second controller 210 gives the position information of each video data acquired by the CEC receiver 253 to the video path changing unit 220. Each of the frame buffers 221 to 224 is connected to the four display areas 231 to 234. For this reason, the frame buffer 221 can supply video data to any of the four display areas 231 to 234. Similarly, the frame buffers 222 to 224 can supply video data to any of the four display areas 231 to 234.

  When the video data held in the frame buffer 221 is video data to be displayed in the display area 232, position information specifying the display area 232 is given from the second control unit 210 to the frame buffer 221. Upon receiving this position information, the frame buffer 221 outputs the stored video data to the display area 232 as shown in FIG. Similarly, the frame buffer 222 outputs the stored video data to the display area 234 based on the position information given from the second control unit 210, and the frame buffer 223 outputs the stored video data to the display area 231. The frame buffer 224 outputs the held video data to the display area 233.

  4 shows a case where the frame buffer 221 outputs the video data held by the frame buffer 221 to the display area 232, but other display areas 231, 233, 234 can be output to any one of 234. In FIG. 4, such a case is indicated by a dotted arrow. The same applies to the other frame buffers 222-224.

  In this way, the video data output from the video receiving units 252 to 282 are respectively held in the frame buffers 221 to 224 connected to the video receiving units 252 to 282 so as to correspond one-to-one. Then, the frame buffer that holds the video data corresponding to the position information given from the second control unit 210 outputs the held video data to the display area specified by the position information. Thereby, the video of the divided video data is displayed in an appropriate display area.

<1.3 Effect>
According to the first embodiment, the frame buffers 221 to 224 included in the video path changing unit 220 and the display areas 231 to 234 do not correspond one-to-one. However, if position information specifying which display area 231 to 234 should display the video of the video data held in each of the frame buffers 221 to 224 is given from the second control unit 210 to the video path changing unit 220, The frame buffer that holds the video data corresponding to the position information outputs the held video data to the display area specified by the position information. In this case, in the video system according to the present embodiment, even if the connection between the HDMI transmitters 150 to 180 and the HDMI receivers 250 to 280 is incorrect, the divided video data is appropriately handled without replacing the HDMI cables 155 to 185. Can be output to various display areas 231 to 234. Thereby, the viewer can correctly recognize the high-resolution video displayed on the high-resolution display unit 230.

<2. Second Embodiment>
Since the configuration of the video system according to the second embodiment of the present invention is the same as the configuration of the video system shown in FIG. 2, the block diagram showing the configuration of the video system according to this embodiment and the description thereof are omitted.

<2.1 Control of video data based on location information>
FIG. 5 is a diagram illustrating processing from when the video receiving unit outputs the divided video data to when the video is displayed in each display area of the display unit in the video display device of the present embodiment. As shown in FIG. 5, the video receiving units 252 to 282 and the frame buffers 221 to 224 do not correspond one-to-one. Each of the video reception units 252 to 282 is connected to four frame buffers 221 to 224. For example, since the video reception unit 252 is connected to each of the frame buffers 221 to 224, the video data output from the video reception unit 252 is given to any of the frame buffers 221 to 224. Similarly, video data output from the video receiving units 262 to 282 is also given to any of the frame buffers 221 to 224. At this time, to which frame buffer the video data is given is determined based on position information given from the second control unit 210 as described later.

  Unlike the case of the first embodiment, the frame buffers 221 to 224 are connected to the display areas 231 to 234 of the display unit 230 so as to correspond one-to-one. As a result, the video data output from the frame buffer 221 is displayed in the display area 231, and the video data output from the frame buffer 222 is displayed in the display area 232. Similarly, the video data output from the frame buffers 223 and 224 are displayed in the display areas 233 and 234, respectively.

  The second controller 210 gives the video path changing unit 220 the position information of each video data acquired by the CEC receiver 253. Based on the position information, it is determined which of the four frame buffers 221 to 224 should hold the video data given to the video path changing unit 220. In the video path changing unit 220, for example, if the position information given from the second control unit 210 is information specifying the display area 231, the video data of the video to be displayed in the display area 231 is connected to the display area 231. The frame buffer 221 is provided. If the position information is information specifying the display area 232, video data of a video to be displayed in the display area 232 is given to the frame buffer 222 connected to the display area 232.

  In this way, the respective video data output from the video receiving units 252 to 282 are held in the frame buffers 221 to 224 based on the position information given from the second control unit 210, respectively. Each of the frame buffers 221 to 224 outputs the held video data to the display areas 231 to 234 connected so as to correspond one-to-one. Thereby, the video of the divided video data is displayed in an appropriate display area.

<2.2 Effect>
According to the second embodiment, the video receiving units 252 to 282 and the frame buffers 221 to 224 included in the video path changing unit 220 do not correspond one-to-one. However, the frame buffers 221 to 224 and the display areas 231 to 234 are connected so as to correspond one-to-one. Therefore, if the second control unit 210 provides the video path changing unit 220 with position information that specifies in which of the display areas 231 to 234 the video of the divided video data is to be displayed, the video receiving units 252 to 282 are provided. Each video data given from is held in a frame buffer connected to a display area where video is to be displayed, and is further output to a display area connected to the frame buffer. Thereby, the viewer can correctly recognize the high-resolution video displayed on the high-resolution display unit 230.

<3. Third Embodiment>
Since the configuration of the video system according to the third embodiment of the present invention is the same as the configuration of the video system shown in FIG. 2, the block diagram showing the configuration of the video display system according to this embodiment and the description thereof are omitted. .

<3.1 Control of video data based on position information>
FIG. 6 is a diagram illustrating processing from when the video receiving unit outputs the divided video data to when the video is displayed in each display area of the display unit in the video display device of the present embodiment. As shown in FIG. 6, the video path changing unit 220 includes four frame buffers 221 to 224, and the display unit 230 is divided into four display areas 231 to 234.

  The video receiving units 252 to 282 and the frame buffers 221 to 224 do not correspond one-to-one. Further, as will be described later, the frame buffers 221 to 224 and the display areas 231 to 234 do not correspond one-to-one. For this reason, the video data output from the video receivers 252 to 282 is given to a frame buffer that does not hold the video data at that time. As described above, in the present embodiment, the frame buffer that holds the given video data is an arbitrary frame buffer, and is one-to-one with the video receiving units 252 to 282 that output the video data as in the first embodiment. Is not a frame buffer connected so as to correspond to the display areas 231 to 234 for displaying video as in the second embodiment, and is not a frame buffer connected so as to correspond one-to-one.

  The second controller 210 provides the position information corresponding to the video data to the frame buffers 221 to 224 so that the video data is provided to the display area where the video is to be displayed. The frame buffer holding the video data to be displayed in the designated display area based on the given position information outputs the video data to the designated display area. For example, if the position information of the display area 231 is given from the second control unit 210 when the frame buffer 221 holds video data to be displayed in the display area 231, the video held in the frame buffer 221. Data is output to the display area 231. Further, when the frame buffer 222 holds video data to be displayed in the display area 233, if the position information of the display area 233 is given from the second control unit 210, the video held in the frame buffer 222 is stored. Data is output to the display area 233. As described above, each video data output from the video receiving units 252 to 282 is held in any of the frame buffers 221 to 224, and holds video data corresponding to the position information given from the second control unit 210. The frame buffer outputs video data to the display area specified by the position information. Thereby, the video of the divided video data is displayed in an appropriate display area.

<3.2 Effects>
According to the third embodiment, the video receiving units 252 to 282 and the frame buffers 221 to 224, and the frame buffers 221 to 224 and the display areas 231 to 234 do not correspond one-to-one. Video data given from the video receivers 252 to 282 is held in any of the frame buffers 221 to 224. If position information that designates a display area in which the image of the stored image data is to be displayed is given from the second control unit 210 to each of the frame buffers 221 to 224, the given position information in the frame buffers 221 to 224 The frame buffer holding the corresponding video data outputs the video data to the display area specified by the position information. Thereby, the viewer can correctly recognize the high-resolution video displayed on the high-resolution display unit 230.

<4. Modification>
In each of the above embodiments, the video display device 200 displays each divided video in the display area to be displayed by transmitting and receiving CEC data including position information that designates a display area in which the video is to be displayed. However, the video display device transmits and receives HEC (HDMI Ethernet (registered trademark) Channel) data and Info Frame data including position information for designating a display area in which video is to be displayed, instead of CEC data. The divided video may be displayed in a display area to be displayed. Therefore, as a modification of the first embodiment, a video system that displays divided video in a display area to be displayed by transmitting and receiving HEC data and info frame data will be described. In the case of the second and third embodiments, transmission / reception of HEC data and info frame data is the same as when CEC data is transmitted / received, and thus description of such a video system is omitted.

  FIG. 7 is a block diagram showing a configuration of a video system according to a first modification of the first embodiment. In this modification, HEC data including position information for displaying the divided video in a display area to be displayed is used. For this reason, the HDMI transmitters 350 to 380 of the video output device 300 include HEC transmission units 351 to 381 (also referred to as “control information transmission units”), respectively, and the HDMI receivers 450 to 480 of the video display device 400 include the HEC reception unit 451. To 481 (also referred to as “control information receiving unit”). Other components are the same as the components of the video system shown in FIG. 2, and thus the same reference numerals are assigned and detailed descriptions thereof are omitted.

  The processing from when the video receiving units 252 to 282 output the divided video data until the video is displayed in the display areas 231 to 234 of the display unit 230 is the same as that shown in FIG. And the description thereof is omitted. Also, the effect of this video system is the same as that of the video system according to the first embodiment, so that the description thereof is omitted.

  FIG. 8 is a block diagram showing a configuration of a video system according to a second modification of the first embodiment. In this modification, info frame data including position information for displaying the divided video in a display area to be displayed is used. Therefore, the HDMI transmitters 550 to 580 of the video output device 500 include info frame transmission units (IF transmission units) 551 to 581 (also referred to as “control information transmission units”), respectively, and the HDMI receivers 650 to 650 of the video display device 600 are included. 680 includes info frame receiving units (IF receiving units) 651 to 681 (also referred to as “control information receiving units”). Other components are the same as the components of the video system shown in FIG. 2, and thus the same reference numerals are assigned and detailed descriptions thereof are omitted.

  The processing from when the video receiving units 252 to 282 output the divided video data until the video is displayed in the display areas 231 to 234 of the display unit 230 is the same as that shown in FIG. And the description thereof is omitted. Also, the effect of this video system is the same as that of the video system according to the first embodiment, so that the description thereof is omitted.

100, 300, 500 ... Video output devices 151, 161, 171, 181 ... CEC transmission unit (control information transmission unit)
152, 162, 172, 182 ... Video transmission unit 155, 165, 175, 185 ... HDMI cable (transmission cable)
200, 400, 600 ... Video display devices 251, 261, 271, 281 ... CEC receiver (control information receiver)
252, 262, 272, 282... Image receiving unit 210... Second control unit (control unit)
220 ... Video path changing unit 221, 222, 223, 224 ... Frame buffer 230 ... Display unit 231, 232, 233, 234 ... Display area 351, 361, 371, 381 ... HEC transmission unit (control information transmission unit)
451, 461, 471, 481... HEC receiver (control information receiver)
551, 561, 571, 581 ... Info frame transmission unit (control information transmission unit)
651, 661, 671, 681... Info frame receiver (control information receiver)

Claims (9)

The divided video data connected to the video output device by a plurality of transmission cables capable of transmitting the video data and control information divided into a plurality of data, and transmitted from the video output device by the plurality of transmission cables. A video display device that displays a video represented by a plurality of display areas on a display unit,
A plurality of video receivers each receiving the divided video data output from the video output device;
A plurality of control information receiving units that respectively receive the divided control information output from the video output device corresponding to the divided video data;
A control unit for acquiring position information for designating the display area for displaying the video from the control information received by the plurality of control information receiving units;
A video path changing unit that gives video data received by the plurality of video receiving units to the display unit;
The video path changing unit displays the video of the divided video data respectively given from the plurality of video receiving units in the display area designated by the position information given from the control unit. And giving the divided video data to the display unit,
The display unit displays the video represented by the divided video data in the plurality of display areas based on the position information. The video path changing unit includes a plurality of frame buffers for holding the divided video data,
The plurality of video receiving units are respectively connected to the plurality of frame buffers on a one-to-one basis,
The video display device according to claim 1, wherein each of the plurality of frame buffers is connected to the plurality of display areas. The video path changing unit includes a plurality of frame buffers for holding the divided video data,
Each of the plurality of video reception units is connected to one of the plurality of frame buffers,
The video display device according to claim 1, wherein the plurality of frame buffers are respectively connected to the plurality of display areas on a one-to-one basis. The video path changing unit includes a plurality of frame buffers for holding the divided video data,
Each of the plurality of video reception units is connected to one of the plurality of frame buffers,
The video display device according to claim 1, wherein each of the plurality of frame buffers is connected to the plurality of display areas.   The video display apparatus according to claim 1, wherein the control information is CEC information.   The video display apparatus according to claim 1, wherein the control information is HEC information.   The video display apparatus according to claim 1, wherein the control information is info frame information. A video display device including a plurality of video transmission units that respectively output a plurality of divided video data, and a plurality of control information transmission units that respectively output a plurality of control information corresponding to the plurality of divided video data; ,
The video display device according to any one of claims 1 to 7,
One video transmission unit and control information transmission unit of the plurality of video transmission units and the plurality of control information transmission units, one video reception unit and a control information reception unit of the plurality of video reception units and the plurality of control information reception units And a plurality of transmission cables connecting each of the
The video display device acquires the plurality of divided video data transmitted from the video output device based on position information that is acquired from the plurality of control information and specifies a position of a display unit that displays a video. A video system, wherein each of the images is displayed in a plurality of divided display areas of the display unit. The video data divided into a plurality of data and the video represented by the video data transmitted from the video output device through the plurality of cables are connected to the video output device by a plurality of cables capable of transmitting the control information. A video display method for displaying on a display unit composed of a plurality of divided screens,
Receiving each of the divided video data output from the video output device by a plurality of video receivers;
Receiving the control information corresponding to the divided video data output from the video output device by a plurality of control information receiving units, respectively;
Obtaining position information for designating a display area for displaying the video from the control information received by the control information receiving unit;
Providing the divided video data to the display unit such that the video of the divided video data provided from the plurality of video receiving units is displayed in the display area specified by the position information. When,
A step of displaying each of the videos represented by the divided video data in the divided display areas based on the position information.

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