JP2020118980A - Display device and control method - Google Patents

Abstract

To provide a display device and the like applied to a display system that can input a video signal transmitted from a source apparatus to any display device when causing a plurality of display devices daisy-chain connected in a loop shape to perform an enlargement display mode.SOLUTION: A plurality of display devices (100a-100d) are daisy-chain connected in a loop shape so as to transmit a video signal from upstream to downstream. When receiving a control command (enlargement display command (C100)), each of the display devices (100a-100d) displays a partially enlarged screen in which a part corresponding to its own installation position of video represented by the video signal is enlarged and transmits the control command downstream. Here, when the control command is received, if the control command is a command transmitted by itself, the control command is discarded.SELECTED DRAWING: Figure 8

Description

The present invention relates to a display device and the like applied to a display system that displays a display screen by a plurality of display devices.

In police or security, you can use multiple displays (or multiple monitors) that are connected to multiple displays (or monitors) to display multiple images on multiple displays, or to display one image on multiple displays. There are use cases such as displaying as a screen. In order to realize this use case, a conventional display system requires an MDMI (High-Definition Multimedia Interface) video switch (hereinafter referred to as an MDMI switch) and a control computer for controlling the MDMI switch.

As shown in FIGS. 26 and 27, the conventional display system includes a plurality of display devices 1000a to 1000d, a plurality of source devices 2000a to 2000d, an MDMI switch 3000, and a control computer 4000.

The plurality of display devices 1000a to 1000d are daisy chain connected by a video cable and an RS-232C cable. Here, the plurality of display devices 1000a to 1000d are not connected in a loop. Specifically, the output terminals (not shown) of the display devices 1000a to 1000c are connected to the input terminals (not shown) of the display devices 1000b to 1000d by a video cable and an RS-232C cable, respectively. Is not connected to the output terminal (not shown) of the display device 1000a and the input terminal (not shown) of the display device 1000a.

The plurality of source devices 2000a to 2000d are respectively connected to the plurality of input terminals of the MDMI switch 3000 by MDMI cables. Each of the plurality of source devices 2000a to 2000d outputs a video signal representing a video. The plurality of output terminals of the MDMI switch 3000 are connected to the plurality of display devices 1000a to 1000d by MDMI cables.

The control computer 4000 is connected to the MDMI switch 3000 and the display device 1000a among the plurality of display devices 1000a to 1000d by an RS-232C cable. That is, the control computer 4000 designates the display device 1000a as a specific display device. The control computer 4000 controls the MDMI switch 3000 so that the plurality of display devices 1000a to 1000d execute the individual display mode or the large display mode.

As illustrated in FIG. 26, when the control computer 4000 causes the plurality of display devices 1000a to 1000d to execute the individual display mode, the plurality of source devices 2000a to 2000d and the plurality of display devices 1000a to 1000d respectively perform MDMI. The MDMI switch 3000 is controlled so as to be connected via the cable. In the individual display mode, the display devices 1000a to 1000d display the images represented by the image signals transmitted from the source devices 2000a to 2000d, respectively.

As illustrated in FIG. 27, when the control computer 4000 causes the plurality of display devices 1000a to 1000d to execute the large display mode, for example, the source device 2000a of the plurality of source devices 2000a to 2000d and the plurality of display devices are displayed. The MDMI switch 3000 is controlled so that the display device 1000a, which is a specific display device, among the devices 1000a to 1000d is connected via the MDMI cable. In addition, the control computer 4000 sends an enlarge display command for executing the enlarge display mode to the display device 1000a which is a specific display device among the plurality of display devices 1000a to 1000d via the RS-232C cable. Send. In the large display mode, the display devices 1000a to 1000d receive the same video signal from the upstream via the video cable and transmit the video signal to the downstream via the video cable. The display devices 1000a to 1000d have installation positions set as multi-displays, and when receiving an enlarge display command, the video represented by the video signal transmitted from the source device 2000a of the source devices 2000a to 2000d. Among them, a partial enlargement screen in which a portion corresponding to its own installation position is enlarged is displayed. That is, the display screen is configured by the partially enlarged screens displayed on the display devices 1000a to 1000d. The display devices 1000a to 1000c respectively transmit the enlarge display command to the downstream display devices 1000b to 1000d.

Note that Patent Document 1 discloses a system capable of displaying different images by controlling the switches in each of the display devices 1500a to 1500d by taking advantage of the plurality of display devices 1500a to 1500d connected in a daisy chain. Has been done. Specifically, the display device 1500a of the plurality of display devices 1500a to 1500d displays the image represented by the video signal “A” transmitted from the source device 2500a of the plurality of source devices 2500a to 2000d, and The video signal "A" is output to the downstream display device 1500b. By the switch control, the display device 1500b selects the video signal “B” transmitted from the source device 2500b, not the video signal “A” output from the upstream display device 1500a, and the video signal “B” represents it. The image is displayed, and the video signal “A” output from the upstream display device 1500a is output to the downstream display device 1500c. The display device 1500c selects the video signal “A” output from the upstream display device 1500b instead of the video signal “C” transmitted from the source device 2500c by switch control, and the video signal “A” represents the video signal “A”. The image is displayed, and the video signal “A” output from the upstream display device 1500b is output to the downstream display device 1500d. The display device 1500d selects the video signal “A” output from the upstream display device 1500c instead of the video signal “D” transmitted from the source device 2500d by switch control, and the video signal “A” represents the video signal “A”. The image is displayed, and the video signal “A” output from the upstream display device 1500c is output to the downstream display device 1500a.

JP, 2003-345327, A

However, the conventional display system requires the MDMI switch 3000 and the control computer 4000 that controls the MDMI switch 3000. Further, the plurality of display devices 1000a to 1000d are daisy chain connected, but are not connected in a loop. Therefore, when the control computer 4000 causes the plurality of display devices 1000a to 1000d to execute the large display mode, a video signal is displayed on the display device 1000a which is a specific display device among the plurality of display devices 1000a to 1000d. Need to output. That is, the video signal transmitted from one of the plurality of source devices 2000a to 2000d (in this case, the source device 2000a) is displayed as a specific display device among the plurality of display devices 1000a to 1000d. Must be entered into device 1000a.

In the technique described in Patent Document 1, the plurality of display devices 1500a to 1500d are configured so that two input video signals (video signals from a plurality of source devices 2500a to 2000d, and upstream display devices 1500d and 1500a, respectively). It is necessary to select one video signal of the video signals from (1500 to 1500c) by switch control. Further, the technique described in Patent Document 1 seems to require a control computer for controlling the switches in the plurality of display devices 1500a to 1500d.

The present invention has been made in view of the above conventional problems, and when a large display mode is executed for a plurality of display devices connected in a daisy chain in a loop, a video signal transmitted from a source device. It is an object of the present invention to provide a display device or the like applied to a display system capable of inputting any value to any display device.

The display device of the present invention includes a plurality of display devices, which are daisy-chain connected in a loop so that a video signal is transmitted from upstream to downstream, and can display a video represented by the video signal, and the plurality of display devices. A plurality of source devices for transmitting the video signal, and a display device applied to a display system comprising: when receiving a control command, displaying the video represented by the video signal, In the individual display mode for transmitting the control command to the downstream, or in the video represented by the video signal, a partial enlarged screen in which a portion corresponding to its own installation position is enlarged is displayed, and the control command is transmitted to the downstream. A first control unit that executes an enlarge display mode to be transmitted; and a second control unit that discards the control command when the control command is a command transmitted by itself when the control command is received. It is characterized by doing.

The display system of the present invention includes a plurality of display devices that are daisy-chain connected in a loop so that a video signal is transmitted from upstream to a downstream and that can display a video represented by the video signal, and a plurality of the display devices. A plurality of source devices for transmitting the video signal to each of the display devices, each of the plurality of display devices displaying the video represented by the video signal when receiving a control command, In the individual display mode for transmitting a command downstream, or in the video represented by the video signal, a partially enlarged screen in which a portion corresponding to its own installation position is enlarged is displayed, and the control command is transmitted downstream. A first control unit for executing the large display mode; and a second control unit for discarding the control command when the control command is a command transmitted by itself when the control command is received. Is characterized by.

A display method according to the present invention includes a plurality of display devices that are daisy-chain connected in a loop so that a video signal is transmitted from upstream to a downstream and that can display a video represented by the video signal, and the plurality of display devices. A method of displaying a display device applied to a display system, comprising: a plurality of source devices transmitting the video signal, wherein the video represented by the video signal is displayed when a control command is received. Then, an individual display mode for transmitting the control command to the downstream side, or a partially enlarged screen in which a portion of the image represented by the image signal corresponding to its own installation position is enlarged, and the control command is displayed. The step of executing the large display mode in which the control command is transmitted downstream, and the step of discarding the control command when the control command is a command transmitted by itself when the control command is received. Characterize.

As described above, according to the present invention, when the control command is a command transmitted by itself, the control command is discarded, so that the multiple display devices daisy chained in a loop are executed in the large display mode. In this case, the video signal transmitted from the source device can be input to any display device.

It is a figure for explaining the outline of the display system concerning a 1st embodiment. It is a block diagram showing functional composition of a source device of a display system concerning a 1st embodiment. It is a block diagram showing functional composition of a display of a display system concerning a 1st embodiment. 6 is a flowchart showing a display process when switching from the individual display mode to the large display mode as an operation of the display device of the display system according to the first embodiment. 7 is a flowchart showing a display process when switching from the large display mode to the individual display mode as an operation of the display device of the display system according to the first embodiment. FIG. 6 is a diagram for explaining a case where an individual display mode is switched to an large display mode as an operation example of the display system according to the first embodiment. FIG. 6 is a diagram for explaining a case where an individual display mode is switched to an large display mode as an operation example of the display system according to the first embodiment. FIG. 6 is a diagram for explaining a case where an individual display mode is switched to an large display mode as an operation example of the display system according to the first embodiment. FIG. 6 is a diagram for explaining a case where an individual display mode is switched to an large display mode as an operation example of the display system according to the first embodiment. FIG. 6 is a diagram for explaining a case where an enlarge display mode is switched to an individual display mode as an operation example of the display system according to the first embodiment. FIG. 6 is a diagram for explaining a case where an enlarge display mode is switched to an individual display mode as an operation example of the display system according to the first embodiment. FIG. 6 is a diagram for explaining a case where an enlarge display mode is switched to an individual display mode as an operation example of the display system according to the first embodiment. FIG. 6 is a diagram for explaining a case where an enlarge display mode is switched to an individual display mode as an operation example of the display system according to the first embodiment. 9 is a flowchart showing a display process when switching from the individual display mode to the large display mode as the operation of the display device of the display system according to the second embodiment. 9 is a flowchart showing a display process when switching from the large display mode to the individual display mode as the operation of the display device of the display system according to the second embodiment. It is a figure for explaining the outline of the display system concerning a 3rd embodiment. It is a block diagram which shows the functional structure of the computer for control of the display system which concerns on 3rd Embodiment. It is a figure for demonstrating the case where it switches to a large display mode from an individual display mode as an operation example of the display system which concerns on 3rd Embodiment. It is a figure for demonstrating the case where it switches to a large display mode from an individual display mode as an operation example of the display system which concerns on 3rd Embodiment. It is a figure for demonstrating the case where it switches to a large display mode from an individual display mode as an operation example of the display system which concerns on 3rd Embodiment. It is a figure for demonstrating the case where it switches to a large display mode from an individual display mode as an operation example of the display system which concerns on 3rd Embodiment. It is a figure for explaining the case where it changes to an individual display mode from an large display mode as an example of operation of a display system concerning a 3rd embodiment. It is a figure for explaining the case where it changes to an individual display mode from an large display mode as an example of operation of a display system concerning a 3rd embodiment. It is a figure for explaining the case where it changes to an individual display mode from an large display mode as an example of operation of a display system concerning a 3rd embodiment. It is a figure for explaining the case where it changes to an individual display mode from an large display mode as an example of operation of a display system concerning a 3rd embodiment. It is a figure for demonstrating the individual display in the conventional display system. It is a figure for demonstrating the large display (multi display) in the conventional display system. FIG. 10 is a diagram for explaining the technique disclosed in Patent Document 1 as a conventional display system.

Embodiments of the present invention will be described below in detail with reference to the drawings. In the following description, the display system of the present invention will be described as an example. The present embodiment is an example for explaining the present invention, and it goes without saying that the present invention is not limited to the contents of the embodiment.

[1. First Embodiment]
First, the first embodiment will be described. In the first embodiment, a plurality of display devices that are daisy-chain connected in a loop so that a video signal is transmitted from upstream to a downstream, and a plurality of source devices that output a video signal to each of the plurality of display devices. Are connected to each other via independent communication networks. Each of the plurality of display devices, when receiving the control command, displays the image represented by the video signal and transmits the control command downstream, or an individual display mode of the image represented by the video signal. The partial enlargement screen in which the portion corresponding to the installation position is enlarged is displayed, and the large display mode for transmitting the control command downstream is executed. Here, of the plurality of display devices, the display device that first transmitted the control command (the display device that is the transmission source) is the same as the transmission source of the control command when it receives the control command. , Since the control command is the command transmitted by itself, the control command is discarded.

[1.1 Overall configuration]
First, the overall configuration will be described with reference to FIG. FIG. 1 is a diagram for explaining the outline of the display system according to the first embodiment. The display system includes a plurality of display devices 100, a plurality of source devices 200, and a plurality of communication networks 300.

The plurality of display devices 100 are used as a 2×2 or 3×3 multi display. In this embodiment, it is used as a 2×2 multi-display and the plurality of display devices 100 are four display devices 100a to 100d. The display devices 100a to 100d are connected in a daisy chain in a loop so that a video signal is transmitted from upstream to downstream.

The plurality of source devices 200 are computers, and the plurality of source devices 200 are four source devices 200a to 200d. The source devices 200a to 200d output video signals to the display devices 100a to 100d, respectively.

The plurality of communication networks 300 are networks such as a wired/wireless LAN (Local Area Network) that transmits video signals and control commands. The plurality of communication networks 300 are communication networks 300a to 300d. The plurality of display devices 100a to 100d and the plurality of source devices 200a to 200d are connected via independent communication networks 300a to 300d, respectively.

When a plurality of display devices 100a to 100d and a plurality of source devices 200a to 200d are connected to independent communication networks 300a to 300d, for example, a small-medium-sized meeting is a use case. Only connecting the displays does not require extra wiring, and there is an advantage that any source device 200 can transmit the large display command C100 (see FIG. 7).

[1.2 Functional configuration]
Next, the functional configuration of each device will be described with reference to the drawings.

[1.2.1 Source device 200]
FIG. 2 is a block diagram showing a functional configuration of the source device 200 of the display system according to the first embodiment. As shown in FIG. 2, the source device 200 includes a control unit 210, a storage unit 220, and a communication unit 230.

The control unit 210 is a functional unit for controlling the entire source device 200. The control unit 210 realizes various functions by reading and executing various programs stored in the storage unit 220, and is configured by, for example, a CPU (Central Processing Unit).

The storage unit 220 is a functional unit in which various programs necessary for the operation of the source device 200 and various data are stored. The storage unit 220 includes, for example, a semiconductor memory, an HDD (Hard Disk Drive), or the like.

The communication unit 230 transmits the video signal to the display device 100 via the communication network 300.

Here, the plurality of display devices 100a to 100d, which are the plurality of display devices 100, are daisy-chain connected in a loop by a video cable and an RS-232C cable. For example, although a DVI (Digital Visual Interface) cable is used as the video cable, an HDMI (registered trademark) (High-Definition Multimedia Interface) cable, a DisplayPort cable, or an analog RGB cable may be used.

For example, in the individual display mode, each of the display devices 100a to 100d, when receiving the individual display command C120 (see FIG. 11) as the control command, the video represented by the video signal transmitted from the source device 200a to 200d. Is displayed, and the control command (in this case, the individual display command C120 (see FIG. 12)) is transmitted downstream. Here, among the plurality of display devices 100a to 100d, the display device that first transmits the control command (the display device that is the transmission source), when the control command (the individual display command C120 (FIG. 12)) is received, When the transmission source of the control command is the same as itself, the control command is a command transmitted by itself, and therefore the control command is discarded.

For example, in the large display mode, the display devices 100a to 100d receive the same video signal from the upstream via the video cable and transmit the video signal to the downstream via the video cable. The display devices 100a to 100d have installation positions set as multi-displays, and when receiving the large display command C100 (see FIG. 7) as a control command, any of the source devices 200a to 200d is selected. In the image represented by the image signal transmitted from the source device, the partial enlargement screen in which the portion corresponding to the installation position of itself is enlarged is displayed. That is, the display screen is configured by the partially enlarged screens displayed on the display devices 100a to 100d. The display devices 100a to 100d transmit the control command (in this case, the large display command C100 (see FIG. 8)) downstream. Here, among the plurality of display devices 100a to 100d, the display device that has first transmitted the control command (the display device of the transmission source), when receiving the control command (enlarge display command C100 (FIG. 8)), When the transmission source of the control command is the same as itself, the control command is a command transmitted by itself, and therefore the control command is discarded.

[1.2.2 Display device 100]
FIG. 3 is a block diagram showing a functional configuration of the display device 100 of the display system according to the first embodiment. As shown in FIG. 3, the display device 100 includes a display 110 and a control unit 120. The display 110 is a liquid crystal display (LCD; Liquid Crystal Display).

The control unit 120 includes a video input terminal 121, a multi-display video input terminal 122, a multi-display video output terminal 123, a video/command separation unit 124, a video switch 125, a video processing unit 126, and a command analysis unit. A unit 127, a control command input terminal 128, a control command output terminal 129, a CPU (not shown), and a storage unit (not shown) are provided.

The CPU is a functional unit for controlling the entire display device 100, and realizes various functions by reading and executing various programs stored in the storage unit.

The video input terminal 121 is a terminal for inputting (receiving) video data transmitted from the source device 200 via the communication network 300. The video data is data in which the control command is superimposed on the video signal. Examples of control commands output from the source device 200 include an large display command C100 (see FIG. 7) and an individual display command C120 (see FIG. 11).

The multi-display video input terminal 122 inputs (receives) a video signal transmitted from the upstream display device 100 via the video cable (DVI cable in this embodiment) when the large display mode is executed. Is the terminal.

The multi-display video output terminal 123 is a terminal for outputting (transmitting) video data to the downstream display device 100 via the video cable (DVI cable in this embodiment) when the large display mode is executed. is there.

The video/command separation unit 124 is a device that separates the video data input from the video input terminal 121 into a control command and a video signal.

The video switch 125 outputs one of the video signal separated by the video/command separation unit 124 and the video signal input by the multi-display video input terminal 122 according to an instruction from the command analysis unit 127. This is the switch to select.

The image processing unit 126 is a device that performs scaling, image quality conversion, and OSD (On Screen Display) display of the image represented by the image signal from the image switch 125 on the display 110.

The control command input terminal 128 is a terminal for inputting (receiving) a control command transmitted from the upstream display device 100 via the RS-232C cable. Examples of control commands output from the upstream display device 100 include an large display command C100 (see FIG. 8) and an individual display command C120 (see FIG. 12).

The control command output terminal 129 is a terminal for outputting (transmitting) a control command to the downstream display device 100 via the RS-232C cable. Examples of control commands output to the downstream display device 100 include an enlarge display command C100 (see FIG. 8) and an individual display command C120 (see FIG. 12).

When the control command separated by the video/command separation unit 124 is the large display command C100 (see FIG. 7), the command analysis unit 127 selects the video signal separated by the video/command separation unit 124. The instruction is output to the video switch 125. At this time, the command analysis unit 127 outputs the control command including the address of itself (enlarge display command C100 (FIG. 7)) to the control command output terminal 129 to display the large display command C100 (FIG. 7) in the downstream. Notify the device 100.

The command analysis unit 127 selects the video signal separated by the video/command separation unit 124 when the control command separated by the video/command separation unit 124 is the individual display command C120 (see FIG. 11). The instruction is output to the video switch 125. At this time, the command analysis unit 127 outputs the control command including the address of itself (individual display command C120 (FIG. 11)) to the control command output terminal 129 to display the individual display command C120 (FIG. 11) in the downstream. Notify the device 100. In this case, the command analysis unit 127 outputs a video output restart request for restarting the output of the video signal to the source device 200 via the communication network 300.

In the command analysis unit 127, the control command input from the upstream display device 100 through the control command input terminal 128 is the large display command C100 (see FIG. 8 ), and the control command (enlarge display command C100 (FIG. 8) is displayed. )) is not the same as the transmission source (address, for example) of itself, it outputs to the video switch 125 an instruction for selecting the video signal input through the multi-display video input terminal 122. At this time, the command analysis unit 127 outputs the control command (enlarge display command C100 (FIG. 8)) to the control command output terminal 129 to notify the downstream display device 100 of the large display command C100 (FIG. 8). To do. In this case, the command analysis unit 127 outputs the video output stop request R100 (see FIG. 8) for stopping the output of the video signal to the source device 200 via the communication network 300.

In the command analysis unit 127, the control command input from the upstream display device 100 through the control command input terminal 128 is the individual display command C120 (see FIG. 12), and the control command (individual display command C120 (FIG. 12) is displayed. If the transmission source (for example, address) of )) is not the same as itself, an instruction for selecting the video signal separated by the video/command separation unit 124 is output to the video switch 125. At this time, the command analysis unit 127 notifies the downstream display device 100 of the individual display command C120 (FIG. 12) by outputting the control command (individual display command C120 (FIG. 12)) to the control command output terminal 129. To do. In this case, the command analysis unit 127 outputs the video output restart request R120 (see FIG. 12) for restarting the output of the video signal to the source device 200 via the communication network 300.

Here, in the command analysis unit 127, the transmission source (for example, address) of the control command (enlarge display command C100 (FIG. 8) or individual display command C120 (FIG. 12)) input through the control command input terminal 128 is itself. If they are the same, the control command is discarded.

[1.3 Process flow]
Next, the flow of processing in this embodiment will be described with reference to the drawings.

FIG. 4 is a flowchart showing a display process when switching from the individual display mode to the large display mode as an operation of the display device 100 of the display system according to the first embodiment.

The control unit 120 of the display device 100 is currently executing the individual display mode (step S100). That is, in the individual display mode, when the control unit 120 of the display device 100 receives the control command, the control unit 120 displays the image represented by the image signal transmitted from the source device 200 and transmits the control command downstream. In the individual display mode, the control unit 120 of the display device 100 continues the individual display mode (step S100) when it does not receive the below-described enlarge display command which is a control command (step S102-No, S106-No).

In the individual display mode, the control unit 120 of the display device 100 receives the video data transmitted from the source device 200 via the communication network 300 through the video input terminal 121. The video/command separation unit 124 of the control unit 120 separates the video data input from the video input terminal 121 into an enlarge display command C100 (see FIG. 7) which is a control command and a video signal (step S102-). Yes). When the control command separated by the video/command separation unit 124 is the large display command C100 (FIG. 7), the command analysis unit 127 of the control unit 120 selects the video signal separated by the video/command separation unit 124. To output to the video switch 125. That is, the control unit 120 switches the display mode from the individual display mode to the large display mode. In the large display mode, the image processing unit 126 of the control unit 120 displays on the display 110 a partially enlarged screen obtained by enlarging the portion corresponding to the installation position of the image represented by the image signal from the image switch 125. indicate. Here, the video switch 125 of the control unit 120 outputs the video data to the multi-display video output terminal 123, thereby transmitting the video data to the downstream display device 100. Further, the command analysis unit 127 of the control unit 120 outputs the control command (enlarge display command C100 (FIG. 7)) to the control command output terminal 129, so that the enlarge display command C100 (FIG. 7) is displayed on the downstream display device. 100 is notified (step S104).

On the other hand, in the individual display mode, the control unit 120 of the display device 100 receives, from the upstream display device 100, an enlarge display command C100 (see FIG. 8) which is a control command through the control command input terminal 128 (step S102-). No, S106-Yes). When the transmission source (address) of the control command (enlarge display command C100 (FIG. 8)) is not the same as itself (step S108-No), the command analysis unit 127 of the control unit 120 transmits the control command by itself. Since it is not the command, the video is switched to the multi-display video input terminal 122. That is, an instruction for selecting the video signal input through the multi-display video input terminal 122 is output to the video switch 125 (step S110). That is, the control unit 120 switches the display mode from the individual display mode to the large display mode. In the large display mode, the image processing unit 126 of the control unit 120 displays on the display 110 a partially enlarged screen obtained by enlarging the portion corresponding to the installation position of the image represented by the image signal from the image switch 125. indicate. Here, the video switch 125 of the control unit 120 outputs the video data to the multi-display video output terminal 123, thereby transmitting the video data to the downstream display device 100. In addition, the command analysis unit 127 of the control unit 120 outputs the control command (enlarge display command C100 (FIG. 8)) to the control command output terminal 129, so that the large display command C100 (FIG. 8) is provided on the downstream display device. 100 is notified (step S112). In this case, the command analysis unit 127 outputs the video output stop request R100 (see FIG. 8) for stopping the output of the video signal to the source device 200 via the communication network 300 (step S114).

Here, the control unit 120 of the display device 100 receives the large display command C100 (FIG. 8) from the upstream display device 100 through the control command input terminal 128 (step S102-No, S106-Yes), but the control command When the transmission source (address) of the (enlarge display command C100 (FIG. 8)) is the same as itself (step S108-Yes), the command analysis unit 127 of the control unit 120 causes the control command (enlarge display command C100 (FIG. 8)). Since 8)) is a command transmitted by itself, the enlarge display command C100 (FIG. 8) is discarded (step S116).

FIG. 5 is a flowchart showing a display process when switching from the large display mode to the individual display mode as the operation of the display device 100 of the display system according to the first embodiment.

The control unit 120 of the display device 100 is currently executing the large display mode (step S200). That is, in the large display mode, when the control unit 120 of the display device 100 receives the control command, the control unit 120 displays a partially enlarged screen in which a portion corresponding to its own installation position in the image represented by the image signal is enlarged. And send the control command downstream. In the large display mode, the control unit 120 of the display device 100 continues the large display mode (step S200) when it does not receive the below-described individual display command which is a control command (step S202-No, S210-No).

In the large display mode, the control unit 120 of the display device 100 receives the video data transmitted from the source device 200 via the communication network 300 through the video input terminal 121. The video/command separation unit 124 of the control unit 120 separates the video data input from the video input terminal 121 into an individual display command C120 (see FIG. 11) which is a control command and a video signal (step S202- Yes). When the control command separated by the video/command separation unit 124 is the individual display command C120 (FIG. 11), the command analysis unit 127 of the control unit 120 selects the video signal separated by the video/command separation unit 124. To output to the video switch 125. In this case, the control unit 120 switches the image to the image input terminal 121. That is, the video data (video signal) input through the video input terminal 121 is selected (step S204). Further, the control unit 120 switches the display mode from the large display mode to the individual display mode. In the individual display mode, the video processing unit 126 of the control unit 120 displays the video represented by the video signal transmitted from the source device 200 on the display 110. Further, the command analysis unit 127 of the control unit 120 outputs the control command (individual display command C120 (FIG. 11)) to the control command output terminal 129, so that the individual display command C120 (FIG. 11) is provided on the downstream display device. 100 is notified (step S206). In this case, the command analysis unit 127 outputs a video output restart request for restarting the output of the video signal to the source device 200 via the communication network 300 (step S208).

On the other hand, in the individual display mode, the control unit 120 of the display device 100 receives the individual display command C120 (see FIG. 12), which is a control command, from the upstream display device 100 through the control command input terminal 128 (step S202-). No, S210-Yes). When the transmission source (address) of the control command (individual display command C120 (FIG. 12)) is not the same as itself (step S212-No), the command analysis unit 127 of the control unit 120 transmits the control command by itself. Since it is not the command, the instruction for selecting the video signal separated by the video/command separation unit 124 is output to the video switch 125. That is, the control unit 120 selects the video data (video signal) input through the video input terminal 121 (step S204). Further, the control unit 120 switches the display mode from the large display mode to the individual display mode. In the individual display mode, the video processing unit 126 of the control unit 120 displays the video represented by the video signal transmitted from the source device 200 on the display 110. Further, the command analysis unit 127 of the control unit 120 outputs the control command (individual display command C120 (FIG. 11)) to the control command output terminal 129, so that the individual display command C120 (FIG. 11) is provided on the downstream display device. 100 is notified (step S206). In this case, the command analysis unit 127 outputs the video output restart request R120 (see FIG. 12) for restarting the output of the video signal to the source device 200 via the communication network 300 (step S208).

Here, although the control unit 120 of the display device 100 receives the individual display command C120 (FIG. 12) from the upstream display device 100 through the control command input terminal 128 (step S202-No, S210-Yes), the control command is received. When the transmission source (address) of (individual display command C120 (FIG. 12)) is the same as itself (step S212—Yes), the command analysis unit 127 of the control unit 120 causes the control command (individual display command C120 (FIG. 12)). 12)) is the command transmitted by itself, the individual display command C120 (FIG. 12) is discarded (step S214).

[1.4 Operation example]
Next, an operation example of this embodiment will be described with reference to the drawings.

[1.4.1 When switching from individual display mode to large display mode]
6 to 9 are diagrams for explaining a case of switching from the individual display mode to the large display mode as an operation example of the display system according to the first embodiment.

First, as shown in FIG. 6, the plurality of display devices 100a to 100d are connected in a daisy chain in a loop so that video signals are transmitted from upstream to downstream. The plurality of source devices 200a to 200d are connected to the plurality of display devices 100a to 100d via the communication networks 300a to 300d, respectively, and output video signals. When executing the individual display mode, the plurality of display devices 100a to 100d respectively display the images PA, PB, PC, and PD represented by the video signals transmitted from the plurality of source devices 200a to 200d.

Now, as shown in FIG. 7, when the plurality of display devices 100a to 100d are executing the individual display mode, the source device 200a of the plurality of source devices 200a to 200d uses the large display mode as a control command. It is assumed that the large display command C100 for executing the above is transmitted. In this case, among the plurality of display devices 100a to 100d, the display device 100a corresponding to the source device 200a changes the display mode from the individual display mode to the large display mode when receiving the large display command C100 from the source device 200a. Switch.

At this time, as shown in FIG. 8, the display device 100a transmits the large display command C100 to the downstream display device 100b of the plurality of display devices 100a to 100d. Of the plurality of display devices 100a to 100d, the display devices 100b to 100d other than the display device 100a respectively receive the plurality of source devices 200a to 200d when receiving the large display command C100 from the upstream display devices 100a to 100c. To the source devices 200b to 200d other than the source device 200a, a video output stop request R100 for stopping the output of the video signal is transmitted, and the display mode is switched from the individual display mode to the large display mode. Here, when the display device 100a receives the enlarge display command C100 transmitted by itself from the upstream display device (in this case, the display device 100d), the display device 100a discards the enlarge display command C100.

Next, as shown in FIG. 9, the display device 100a displays a partially enlarged screen in which a portion corresponding to its own installation position in the image PA represented by the image signal transmitted from the source device 200a is enlarged. Further, the source devices 200b to 200d other than the source device 200a each stop the output of the video signal in response to the video output stop request R100. The display devices 100b to 100d other than the display device 100a respectively correspond to their own installation positions in the video PA represented by the video signals transmitted from the upstream display devices 100a to 100c according to the large display command C100. Display the partial enlargement screen that enlarged the part.

[1.4.2 When switching from the large display mode to the individual display mode]
10 to 13 are diagrams for explaining a case of switching from the large display mode to the individual display mode as an operation example of the display system according to the first embodiment.

First, as shown in FIG. 10, the plurality of display devices 100a to 100d are daisy-chain connected in a loop so that video signals are transmitted from upstream to downstream. The plurality of source devices 200a to 200d are connected to the plurality of display devices 100a to 100d via the communication networks 300a to 300d, respectively. When the plurality of display devices 100a to 100d are executing the large display mode, a part of the image PA represented by the video signal transmitted from the source device 200a, which corresponds to the installation position of itself, is enlarged. The enlarged screen is displayed.

Now, as shown in FIG. 11, when the plurality of display devices 100a to 100d are executing the large display mode, the source device 200b of the plurality of source devices 200a to 200d uses the individual display mode as a control command. It is assumed that the individual display command C120 for executing is executed. In this case, of the plurality of display devices 100a to 100d, the display device 100b corresponding to the source device 200b changes the display mode from the large display mode to the individual display mode when receiving the individual display command C120 from the source device 200b. Switch.

At this time, as shown in FIG. 12, the display device 100b transmits the individual display command C120 to the downstream display device 100c of the plurality of display devices 100a to 100d. Of the plurality of display devices 100a to 100d, the display devices 100a, 100c, and 100d other than the display device 100b receive a plurality of sources when receiving the individual display command C120 from the upstream display devices 100d, 100b, and 100c, respectively. A video output restart request R120 for restarting output of a video signal is transmitted to the source devices 200a, 200c, and 200d other than the source device 200b among the devices 200a to 200d, and the display mode is individually set from the large display mode. Switch to display mode. Here, when the display device 100b receives the individual display command C120 transmitted by itself from the upstream display device (in this case, the display device 100a), the display device 100b discards the individual display command C120.

Next, as shown in FIG. 13, the source devices 200a, 200c, and 200d other than the source device 200b each restart the output of the video signal in response to the video output restart request R120. The plurality of display devices 100a to 100d display the images PA, PB, PC, PD represented by the video signals transmitted from the plurality of source devices 200a to 200d, respectively.

According to the above description, the display system according to the first embodiment is daisy-chain connected in a loop so that the video signal is transmitted from the upstream side to the downstream side, and a plurality of display devices 100a to 100c capable of displaying the video represented by the video signal. It is provided with 100d and a plurality of source devices 200a to 200d. The plurality of source devices 200a to 200d transmit video signals to the plurality of display devices 100a to 100d, respectively, via the communication networks 300a to 300d. The plurality of display devices 100a to 100d and the plurality of source devices 200a to 200d are connected via independent communication networks 300a to 300d, respectively. Each of the plurality of display devices 100a to 100d includes a first control unit (control unit 120) and a second control unit (control unit 120). When the control command (enlarge display command C100 or individual display command C120) is received, the first control unit (control unit 120) displays the image represented by the video signal and transmits the control command downstream. In the mode, or in the image displayed by the video signal, a partial enlarged screen in which a portion corresponding to its own installation position is enlarged is displayed, and the large display mode in which the control command is transmitted downstream is executed. When the second control unit (control unit 120) receives the control command (enlarge display command C100 or individual display command C120) and the transmission source of the control command is the same as itself, the control command itself The control command is discarded as a transmitted command.

Thus, in the display system according to the first embodiment, when the transmission source of the control command (enlarge display command C100 or individual display command C120) is the same as itself, the control command is discarded, so that the control command is daisy-looped. When executing the large display mode for the plurality of display devices 100a to 100d connected in a chain, the video signal transmitted from the source device (for example, the source device 200a) is transmitted to an arbitrary display device (for example, the display device 100a). You can enter. Further, in the display system according to the first embodiment, since independent communication networks 300a to 300d are used for video transmission, the MDMI switch 3000 (FIGS. 26 and 27) and the like, which are used in the conventional display system, are controlled. The control computer 4000 (FIGS. 26 and 27) to operate is not required. In addition, the display system according to the first embodiment does not require the MDMI switch 3000 (FIGS. 26 and 27) and the control computer 4000 (FIGS. 26 and 27) that controls the MDMI switch 3000. Can be shortened.

[2. Second Embodiment]
Next, the second embodiment will be described. In the first embodiment, when the display device 100 receives the control command (enlarge display command C100 or individual display command C120) and the transmission source of the control command is the same as itself, the control command is transmitted by itself. Although the control command is discarded as the command that has been executed, the present invention is not limited to this. In the second embodiment, when the display device 100 receives a control command (enlarge display command C100 or individual display command C120), if it is received within a predetermined time after transmitting the control command, the display device 100 transmits it by itself. Discard the control command as if it were a command. In the second embodiment, the same processes as those in the first embodiment are designated by the same reference numerals, and detailed description thereof will be omitted.

[2.1 Process flow]
Next, the flow of processing in this embodiment will be described with reference to the drawings.

FIG. 14 is a flowchart showing a display process when switching from the individual display mode to the large display mode as the operation of the display device 100 of the display system according to the second embodiment.

First, steps S100, S102-No, and S106-Yes are executed. That is, in the individual display mode, the control unit 120 of the display device 100 receives from the upstream display device 100 an enlarge display command C100 (see FIG. 8) which is a control command through the control command input terminal 128. When the control command (enlarge display command C100 (FIG. 8)) has not been received within the predetermined time after the transmission (step S308-No), the command analysis unit 127 of the control unit 120 executes the control command by itself. Since it is not the transmitted command, an instruction for selecting the video signal input through the multi-display video input terminal 122 is output to the video switch 125 (step S110). Then, steps S112 and S114 are executed.

Here, the control unit 120 of the display device 100 receives the large display command C100 (FIG. 8) from the upstream display device 100 through the control command input terminal 128 (step S102-No, S106-Yes), but the control command When the (enlarge display command C100 (FIG. 8)) is received within a predetermined time after the transmission (step S308-Yes), the command analysis unit 127 of the control unit 120 causes the control command (enlarge display command C100 (FIG. 8)). )) is a command transmitted by itself, the large display command C100 (FIG. 8) is discarded (step S116).

FIG. 15 is a flowchart showing a display process when switching from the large display mode to the individual display mode as the operation of the display device 100 of the display system according to the second embodiment.

First, steps S200, S202-No, and S210-Yes are executed. That is, in the individual display mode, the control unit 120 of the display device 100 receives the individual display command C120 (see FIG. 12), which is a control command, from the upstream display device 100 through the control command input terminal 128. When the control command (individual display command C120 (FIG. 12)) has not been received within the predetermined time after the transmission (step S412—No), the command analysis unit 127 of the control unit 120 executes the control command by itself. Since it is not the transmitted command, an instruction for selecting the video signal separated by the video/command separation unit 124 is output to the video switch 125. Then, steps S204, S206, and S208 are executed.

Here, although the control unit 120 of the display device 100 receives the individual display command C120 (FIG. 12) from the upstream display device 100 through the control command input terminal 128 (step S202-No, S210-Yes), the control command is received. When the (individual display command C120 (FIG. 12)) is received within a predetermined time after the transmission (step S412—Yes), the command analysis unit 127 of the control unit 120 causes the control command (individual display command C120 (FIG. 12) to be displayed. )) is a command transmitted by itself, the individual display command C120 (FIG. 12) is discarded (step S214).

According to the above description, the display system according to the second embodiment is daisy-chain connected in a loop so that the video signal is transmitted from the upstream side to the downstream side, and a plurality of display devices 100a to 100c capable of displaying the video represented by the video signal. It is provided with 100d and a plurality of source devices 200a to 200d. The plurality of source devices 200a to 200d transmit video signals to the plurality of display devices 100a to 100d, respectively, via the communication networks 300a to 300d. The plurality of display devices 100a to 100d and the plurality of source devices 200a to 200d are connected via independent communication networks 300a to 300d, respectively. Each of the plurality of display devices 100a to 100d includes a first control unit (control unit 120) and a second control unit (control unit 120). When the control command (enlarge display command C100 or individual display command C120) is received, the first control unit (control unit 120) displays the image represented by the video signal and transmits the control command downstream. In the mode, or in the image displayed by the video signal, a partial enlarged screen in which a portion corresponding to its own installation position is enlarged is displayed, and the large display mode in which the control command is transmitted downstream is executed. When the second control unit (control unit 120) receives the control command (enlarge display command C100 or individual display command C120), if the control command is received within a predetermined time after being transmitted, the control command is The control command is discarded as a command transmitted by itself.

As a result, in the display system according to the second embodiment, when the control command (enlarge display command C100 or individual display command C120) is received within a predetermined time after being transmitted, the control command is discarded, so that a looped When executing the large display mode for the plurality of display devices 100a to 100d that are daisy-chained to each other, the video signal transmitted from the source device (for example, the source device 200a) is transmitted to an arbitrary display device (for example, the display device 100a). ) Can be entered. In addition, in the display system according to the second embodiment, since independent communication networks 300a to 300d are used for video transmission, the MDMI switch 3000 (FIGS. 26 and 27) and the like, which are used in a conventional display system, are controlled. The control computer 4000 (FIGS. 26 and 27) to operate is not required. Further, the display system according to the second embodiment does not require the MDMI switch 3000 (FIGS. 26 and 27) and the control computer 4000 (FIGS. 26 and 27) for controlling the MDMI switch 3000. Can be shortened.

[3. Third Embodiment]
Subsequently, a third embodiment will be described. In the first embodiment, the plurality of display devices 100a to 100d and the plurality of source devices 200a to 200d are connected via independent communication networks 300a to 300d, respectively, but the present invention is not limited to this. In the third embodiment, the plurality of display devices 100a to 100d and the plurality of source devices 200a to 200d may be connected via the same communication network. In the third embodiment, the same processes as those in the first embodiment are designated by the same reference numerals, and detailed description thereof will be omitted.

[3.1 Overall configuration]
First, the overall configuration will be described with reference to FIG. FIG. 16 is a diagram for explaining the outline of the display system according to the third embodiment. The display system includes a plurality of display devices 100 (display devices 100a to 100d), a plurality of source devices 200 (source devices 200a to 200d), a control computer 400, and a communication network 500.

The communication network 500 is a network such as an access point (AP) or/and a HUB for transmitting a video signal and a control command. For example, each of the plurality of source devices 200a to 200d authenticates the access point with an SSID (Service Set Identifier) and connects to each of the plurality of display devices 100a to 100d.

When a plurality of display devices 100a to 100d and a plurality of source devices 200a to 200d are connected to the same communication network 500, for example, system management by the control computer 400 is a use case. Network wiring is required, but only connection to AP/HUB is required.

[3.2 Functional configuration]
Next, the functional configuration of each device will be described with reference to the drawings.

[3.2.1 Controlling computer 400]
FIG. 17 is a block diagram showing the functional arrangement of the control computer 400 of the display system according to the third embodiment. As shown in FIG. 17, the control computer 400 includes a control unit 410, a storage unit 420, and a communication unit 430.

The control unit 410 is a functional unit for controlling the entire control computer 400. The control unit 410 realizes various functions by reading and executing various programs stored in the storage unit 420, and is configured by, for example, a CPU or the like.

The storage unit 420 is a functional unit that stores various programs and various data necessary for the operation of the control computer 400. The storage unit 420 is composed of, for example, a semiconductor memory, an HDD (Hard Disk Drive), or the like.

The communication unit 430 sends the large display instruction I100 (see FIG. 18) or the individual display instruction I120 (see FIG. 22) to one source device of the plurality of source devices 200a to 200d via the communication network 500. Send.

[3.3 Operation Example]
Next, an operation example of this embodiment will be described with reference to the drawings.

[3.3.1 Switching from individual display mode to large display mode]
18 to 21 are diagrams for explaining a case of switching from the individual display mode to the large display mode as an operation example of the display system according to the third embodiment.

First, as shown in FIG. 18, the plurality of display devices 100a to 100d are daisy chain connected in a loop so that the video signal is transmitted from the upstream side to the downstream side. The plurality of source devices 200a to 200d are connected to the plurality of display devices 100a to 100d via the communication networks 300a to 300d, respectively, and output video signals. When executing the individual display mode, the plurality of display devices 100a to 100d respectively display the images PA, PB, PC, and PD represented by the video signals transmitted from the plurality of source devices 200a to 200d.

Now, as shown in FIG. 18, it is assumed that the control computer 400 has transmitted the large display instruction I100 to the source device 200a of the plurality of source devices 200a to 200d via the communication network 500.

At this time, as shown in FIG. 19, the source device 200a of the plurality of source devices 200a to 200d transmits an enlarge display command C100 for executing the enlarge display mode as a control command. In this case, among the plurality of display devices 100a to 100d, the display device 100a corresponding to the source device 200a changes the display mode from the individual display mode to the large display mode when receiving the large display command C100 from the source device 200a. Switch.

Further, as shown in FIG. 20, the display device 100a transmits the large display command C100 to the downstream display device 100b among the plurality of display devices 100a to 100d. Of the plurality of display devices 100a to 100d, the display devices 100b to 100d other than the display device 100a respectively receive the plurality of source devices 200a to 200d when receiving the large display command C100 from the upstream display devices 100a to 100c. To the source devices 200b to 200d other than the source device 200a, a video output stop request R100 for stopping the output of the video signal is transmitted, and the display mode is switched from the individual display mode to the large display mode. Here, when the display device 100a receives the enlarge display command C100 transmitted by itself from the upstream display device (in this case, the display device 100d), the display device 100a discards the enlarge display command C100.

Next, as shown in FIG. 21, the display device 100a displays a partially enlarged screen in which a portion corresponding to its own installation position in the image PA represented by the image signal transmitted from the source device 200a is enlarged. Further, the source devices 200b to 200d other than the source device 200a each stop the output of the video signal in response to the video output stop request R100. The display devices 100b to 100d other than the display device 100a respectively correspond to their own installation positions in the video PA represented by the video signals transmitted from the upstream display devices 100a to 100c according to the large display command C100. Display the partial enlargement screen that enlarged the part.

[3.3.2 When switching from large display mode to individual display mode]
22 to 25 are diagrams for explaining a case of switching from the large display mode to the individual display mode as an operation example of the display system according to the third embodiment.

First, as shown in FIG. 22, the plurality of display devices 100a to 100d are daisy chain connected in a loop so that the video signal is transmitted from the upstream side to the downstream side. The plurality of source devices 200a to 200d are connected to the plurality of display devices 100a to 100d via the communication networks 300a to 300d, respectively. When the plurality of display devices 100a to 100d are executing the large display mode, a part of the image PA represented by the video signal transmitted from the source device 200a, which corresponds to the installation position of itself, is enlarged. The enlarged screen is displayed.

Now, as shown in FIG. 22, it is assumed that the control computer 400 has transmitted the individual display instruction I120 to the source device 200b of the plurality of source devices 200a to 200d via the communication network 500.

At this time, as shown in FIG. 23, it is assumed that the source device 200b of the plurality of source devices 200a to 200d has transmitted an individual display command C120 for executing the individual display mode as a control command. In this case, of the plurality of display devices 100a to 100d, the display device 100b corresponding to the source device 200b changes the display mode from the large display mode to the individual display mode when receiving the individual display command C120 from the source device 200b. Switch.

Further, as shown in FIG. 24, the display device 100b transmits the individual display command C120 to the downstream display device 100c of the plurality of display devices 100a to 100d. Of the plurality of display devices 100a to 100d, the display devices 100a, 100c, and 100d other than the display device 100b receive a plurality of sources when receiving the individual display command C120 from the upstream display devices 100d, 100b, and 100c, respectively. A video output restart request R120 for restarting output of a video signal is transmitted to the source devices 200a, 200c, and 200d other than the source device 200b among the devices 200a to 200d, and the display mode is individually set from the large display mode. Switch to display mode. Here, when the display device 100b receives the individual display command C120 transmitted by itself from the upstream display device (in this case, the display device 100a), the display device 100b discards the individual display command C120.

Next, as shown in FIG. 25, each of the source devices 200a, 200c, and 200d other than the source device 200b restarts the output of the video signal in response to the video output restart request R120. The plurality of display devices 100a to 100d display the images PA, PB, PC, PD represented by the video signals transmitted from the plurality of source devices 200a to 200d, respectively.

According to the above description, the display system according to the third embodiment is daisy-chain connected in a loop so that the video signal is transmitted from the upstream side to the downstream side, and the plurality of display devices 100a to 100a capable of displaying the video represented by the video signal. It is provided with 100d and a plurality of source devices 200a to 200d. The plurality of display devices 100a to 100d and the plurality of source devices 200a to 200d are connected via the same communication network 500. The plurality of source devices 200a to 200d transmit a video signal to each of the plurality of display devices 100a to 100d via the communication network 500. Each of the plurality of display devices 100a to 100d includes a first control unit (control unit 120) and a second control unit (control unit 120). When the control command (enlarge display command C100 or individual display command C120) is received, the first control unit (control unit 120) displays the image represented by the video signal and transmits the control command downstream. In the mode, or in the image displayed by the video signal, a partial enlarged screen in which a portion corresponding to its own installation position is enlarged is displayed, and the large display mode in which the control command is transmitted downstream is executed. When the second control unit (control unit 120) receives the control command (enlarge display command C100 or individual display command C120) and the transmission source of the control command is the same as itself, the control command itself The control command is discarded as a transmitted command. Alternatively, when the second control unit (control unit 120) receives the control command (enlarge display command C100 or individual display command C120), if the control command is received within a predetermined time after the control command is transmitted, the control is performed. The control command is discarded, assuming that the command is the command transmitted by itself.

Accordingly, in the display system according to the third embodiment, when the transmission source of the control command (enlarge display command C100 or individual display command C120) is the same as itself, or a predetermined time has elapsed after the control command was transmitted. When the display device 100a to 100d connected in a loop in a daisy chain is executed in the large display mode in order to discard the control command when received, the source device (for example, the source device 200a). The video signal transmitted from can be input to an arbitrary display device (for example, the display device 100a). Further, in the display system according to the third embodiment, since the same communication network 500 is used for video transmission, the MDMI switch 3000 (FIGS. 26 and 27) and the control for controlling the MDMI switch 3000 as in the conventional display system are used. It does not require the computer 4000 (FIGS. 26 and 27). In addition, the display system according to the third embodiment does not require the MDMI switch 3000 (FIGS. 26 and 27) and the control computer 4000 (FIGS. 26 and 27) that controls the MDMI switch 3000, and therefore, it takes time to switch the connection destination. Can be shortened.

[4. Modification]
The present invention is not limited to the above-described embodiments, but various modifications can be made. That is, the technical scope of the present invention also includes embodiments obtained by combining technical means that are appropriately changed without departing from the scope of the present invention.

Further, it is needless to say that the above-described embodiments may be appropriately combined and executed in a range without contradiction, other than the description.

In addition, the program that operates in each device in the embodiment is a program that controls the CPU and the like (a program that causes a computer to function) so as to realize the functions of the above-described embodiments. Information handled by these devices is temporarily stored in a temporary storage device (for example, RAM) during the processing, and then stored in storage devices such as various ROMs (Read Only Memory) and HDDs (Hard Disc Drives). If necessary, the CPU reads, corrects and writes.

Here, as a recording medium for storing the program, a semiconductor medium (for example, a ROM or a non-volatile memory card), an optical recording medium/a magneto-optical recording medium (for example, a DVD (Digital Versatile Disc), an MO (Magneto Optical) Disc), MD (Mini Disc), CD (Compact Disc), BD and the like), magnetic recording medium (for example, magnetic tape, flexible disk and the like), and the like. Further, by executing the loaded program, not only the functions of the above-described embodiment are realized, but also by processing in cooperation with the operating system or other application programs based on the instructions of the program, The function of the invention may be realized in some cases.

In the case of distribution in the market, the program can be stored in a portable recording medium for distribution, or can be transferred to a server computer connected via a network such as the Internet. In this case, it goes without saying that the storage device of the server computer is also included in the present invention.

Further, a part or all of each device in the above-described embodiments may be typically realized as an LSI (Large Scale Integration) which is an integrated circuit. Each functional block of each device may be individually formed into a chip, or a part or all of the functional blocks may be integrated into a chip. Further, the method of circuit integration is not limited to LSI, and may be realized by a dedicated circuit or general-purpose processor. Further, in the event that an integrated circuit technology that replaces LSI emerges due to the progress of semiconductor technology, it goes without saying that an integrated circuit according to the technology can be used.

100, 100a-100d... Display device 110... Display 120... Control part 121... Video input terminal 122... Multi-display video input terminal 123... Multi-display video output terminal 124... Video/command separation part 125... Video switch 126... Video Processing unit 127... Command analysis unit 128... Control command input terminal 129... Control command output terminal 200, 200a to 200d... Source device 210... Control unit 220... Storage unit 230... Communication unit 300, 300a to 300d... Communication network 400... Control Computer 410... Control unit 420... Storage unit 430... Communication unit 500... Communication network C100... Enlarge display command (enlarge display request)
C120... Individual display command (individual display request)
I100... Enlarge display instruction I120... Individual display instruction PA, PB, PC, PD... Video R100... Video output stop request R120... Video output restart request 1000a-1000d... Display device 1500a-1500d... Display device 2000a-2000d... Source device 2500a ~ 2500d Source device 3000 MDMI switch 4000 Control computer

Claims (8)

In a display device applied to a display system including a plurality of daisy chained display devices,
A display device, comprising: a control unit that discards the control command when the control command related to the display acquired from the upstream display device is determined to be the control command transmitted by the device itself. The control command related to the display includes a command for executing an individual display mode for displaying the acquired video signal or an enlarged display mode for enlarging and displaying a portion of the video signal corresponding to the installation position of the own device. The display device according to claim 1, wherein the display device is a display device. The display device according to claim 1, wherein the plurality of display devices are connected in a daisy chain in a loop shape. The control unit acquires the video signal and the control command from each connected source device, and transmits the video signal and the control command acquired from the source device to a downstream display device. Item 4. The display device according to any one of items 1 to 3. The control unit is
Receives a control command for executing the individual display mode for displaying the video signal acquired from the upstream display device when executing the large display mode for enlarging and displaying the portion of the video signal corresponding to the installation position of the own device. In that case, send a request command to restart the output of the video signal to the connected source device,
When a control command for executing the large display mode is received from an upstream display device while executing the individual display mode, a request command for stopping output of a video signal is transmitted to the connected source device. The display device according to claim 1, wherein: The display device according to claim 1, wherein the plurality of display devices and the plurality of source devices corresponding to the plurality of display devices are connected to each other via independent communication networks, or are connected via the same communication network. apparatus. A control method in a display device applied to a display system including a plurality of display devices connected in a daisy chain is
A control method comprising: when the control command relating to the display acquired from the upstream display device is determined to be the control command transmitted by the own device, the control command is discarded. In a display system including a plurality of display devices connected in a daisy chain,
Each of the plurality of display devices,
A display device comprising a control unit that discards the control command when the control command related to the display acquired from the upstream display device is the control command transmitted by the device itself.

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