JP2015060021A - Display device, control method and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable a multiple display mode for displaying a plurality of videos in a mutually different area having a screen divided and a single display mode for playing a single video on the screen to be automatically changed over in accordance with presence/absence of an input video and resolving power thereof.SOLUTION: An input signal presence/absence determination part (108) is configured to determine presence/absence of an input video to each of a plurality of video reception parts (103 to 106). A low resolving power determination part (109) is configured to determine whether resolving power of the video received by the video reception part (103 to 106) where the video is input is low in resolving power. A display mode determination part (110) is configured to, when the input video is a single, set a single display mode, and when the input video is plural and all of the input videos is low in the resolving power, set the single display mode, and when the input video is plural and any one of the plural input videos is not low therein, set a multiple display mode.

Description

  The present invention relates to a display device that displays image data.

  In recent years, display devices capable of displaying high-resolution images such as the number of horizontal effective pixels 3840 and the number of vertical effective lines 2160 have become widespread.

  In recent years, for example, the DisplayPort standard is known as an interface standard for transmitting a video signal that is widely used in a graphic card of a PC (personal computer). In the video output device using the DisplayPort standard, it is not possible to transmit a high-resolution video signal such as the number of horizontal effective pixels 3840 and the number of vertical effective lines 2160 with a single cable. Therefore, the video output device divides the high-resolution video signal into multiple pieces using a plurality of cables and transmits them to the display device, and the display device side combines and displays the multiple video signals received from the video output device. It is known to do.

  For example, in a display device that supports a resolution of 3840 horizontal effective pixels and 2160 vertical effective lines, a video signal having 1920 horizontal effective pixels and 1080 vertical effective lines is received from the video output device via four cables. To do. Thereafter, the display device simultaneously displays the images of the four video signals received from the video output device on different screen areas. Thus, the display device can display an image having a resolution of 3840 horizontal effective pixels and 2160 vertical effective lines. A display mode in which one high-resolution video is displayed by displaying a plurality of video signals on a plurality of screen areas in the display device is called “multi-display mode”. The display device corresponding to the multi-display mode (hereinafter referred to as a multi-display compatible display device) also has a display mode (hereinafter referred to as “single display mode”) for displaying one selected video signal on the entire screen of the display device. You can choose.

  In Patent Document 1, when a video signal is received through one of a plurality of input terminals in a multi-display compatible display device, a single display mode is selected and a plurality of video signals are transmitted through the plurality of input terminals. A technique for selecting a multi-display mode when receiving a message is described.

JP 2006-086866 A

  Conventionally, for example, when the power is turned on, a video output device cannot output a video signal obtained by dividing a high-resolution video signal for the multi-display mode, and outputs a plurality of the same low-resolution video signals. When such a video output device is connected to a multi-display compatible display device, the multi-display compatible display device displays the same low-resolution video in different areas on the screen (for example, four screen areas). As a result, an unsightly image is displayed.

  Therefore, an object of the present invention is to prevent an unsightly image from being displayed.

  The display device according to the present invention includes a plurality of video receiving units, a multi-display mode for displaying videos received by the plurality of video receiving units in different areas dividing a screen, and the plurality of video receiving units. A display device capable of selecting a single display mode for displaying any one video received on the screen on an input signal, and an input signal presence / absence determination unit that determines the presence / absence of an input video to each of the plurality of video reception units Low resolution determination means for determining whether or not the resolution of the video received by the plurality of video reception means is low, and when the input video is single, the single display mode is set, and the input video And the input video is all at the low resolution, the single display mode is set, and the input video is plural and one of the input videos is not low resolution. If, and having a setting means for setting the multi-display mode.

  According to the present invention, an unsightly image can be prevented from being displayed.

It is a schematic block diagram of Example 1 of the present invention. 4 is an example of high resolution display in the first embodiment. In this example, four low-resolution images are displayed in the multi-display mode. 6 is a flowchart of a display mode automatic change process according to the first embodiment. 3 is a display example of a single display mode in the first embodiment. It is a schematic block diagram of Example 2 of this invention. 6 is a flowchart of a display mode automatic change process according to the first embodiment. It is a schematic block diagram of Example 3 of the present invention. 9 is a connection example in which a plurality of video output devices are connected to the third embodiment. 14 is a flowchart of display mode automatic change processing according to the third embodiment. It is a schematic block diagram of Example 4 of the present invention. It is explanatory drawing of a DisplayPort lane. 14 is a flowchart of display mode automatic change processing according to the fourth embodiment.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

FIG. 1 shows a schematic block diagram of an embodiment of a display device according to the present invention. The display device 100 shown in FIG. 1 automatically switches the display mode of the display device 100 according to the number of video signals input from the outside and the resolution of the video signals input from the outside. The display mode includes a multi-display mode in which videos received by each of a plurality of video receiving units are displayed in a plurality of different screen areas, and a video received by any one of the plurality of video receiving units on the screen. There is a single display mode to display. In the following description, an image having 3840 horizontal effective pixels and 2160 vertical effective lines is referred to as “4K video”, and an image signal having 3840 horizontal effective pixels and 2160 vertical effective lines is referred to as “4K video signal”. An image having 1920 horizontal effective pixels and 1080 vertical effective lines is called a “2K video”, and an image signal having 1920 horizontal effective pixels and 1080 vertical effective lines is called a “2K video signal”. An image having 1024 horizontal effective pixels and 768 vertical effective lines is called “1K video”, and an image signal having 1024 horizontal effective pixels and 768 vertical effective lines is called “1K video signal”.

  The CPU 101 controls the operation of the display device 100 using the RAM 113 as a work memory in accordance with a program stored in the ROM 112.

  The video input unit 102 includes four video receiving units 103 to 106 which are DisplayPort input terminals conforming to the DisplayPort standard. Each of the video receivers 103 to 106 receives a video signal output from a video output device (not shown), and outputs the received video signal and its resolution information (number of horizontal effective pixels and number of vertical effective lines).

  The video processing unit 107 creates display video data corresponding to the currently set display mode of the display device 100 based on the video signals output from the video receiving units 103 to 106 of the video input unit 102. This is supplied to the display unit 111.

  The input signal presence / absence determination unit 108 determines the presence / absence of an external video signal input according to the resolution information output from each of the video reception units 103 to 106. The input signal presence / absence determination unit 108 determines that there is a signal when the number of horizontal effective pixels and the number of vertical effective lines in the resolution information are not zero. The presence signal is a signal indicating that an external video signal is input. The input signal presence / absence determination unit 108 determines that there is no signal when at least one of the number of horizontal effective pixels and the number of vertical effective lines in the resolution state is zero. The no signal is a signal indicating that there is no external video signal input.

  The low resolution determination unit 109 determines whether the video signal corresponding to the resolution information output from each of the video reception units 103 to 106 has a low resolution.

  The display mode determination unit 110 determines the display mode of the display device 100 based on the determination result by the input signal presence / absence determination unit 108 and the determination result by the low resolution determination unit 109, and sets the display mode of the display device 100 thus determined. In response, the video processing unit 107 is controlled.

  The display unit 111 includes a liquid crystal display panel and the like, and displays display video data supplied from the video processing unit 107.

  The display device 100 includes a single display mode for displaying a video signal received by any one of the video receiving units 103 to 106, and four video receiving units 103 to 106 that are divided into four screen areas obtained by dividing the screen horizontally and vertically. A multi-display mode for displaying four video signals received by the mobile phone.

  FIG. 2 shows a display example when the display device 100 is in the multi-display mode. A case will be described in which a PC (personal computer) 204, which is a video output device, transmits a high-resolution video signal (4K video signal) to the display device 100 that is in the multi-display mode. For example, it is assumed that the display device 100 can display 4K video. The PC 204 includes four video transmission units 205 to 208 that are DisplayPort (registered trademark) output terminals. Furthermore, the video transmission units 205 to 208 are connected to the video reception units 103 to 106 via display port cables 209 to 211, respectively. In this case, the PC 204 divides the high-resolution video signal into four low-resolution video signals, and outputs the divided video signals to the display device 100 via the DisplayPort (registered trademark) cables 209 to 211.

  In the display device 100 that is in the multi-display mode, when a 2K video signal is received by each of the video receiving units 103 to 106, the display device 100 displays each 2K video on each of the four screen areas 200 to 204. That is, display video data corresponding to the video signal received by the video receiver 103 is displayed in the upper left area 200 of the screen, and display video data corresponding to the video signal received by the video receiver 104 is displayed at the lower left of the screen. Displayed in area 201. Similarly, display video data corresponding to the video signal received by the video reception unit 105 is displayed in the upper right area 202 of the screen, and display video data corresponding to the video signal received by the video reception unit 106 is displayed on the right side of the screen. This is displayed in the lower area 203. Thus, by displaying the four 2K videos in the four areas constituting the screen, the display device 100 can display the 4K videos.

  In the example shown in FIG. 2, the PC 204 divides a high-resolution video centered on a single circle into two horizontally and vertically, and outputs a 4K video signal including 90-degree arcs at different angular positions from each other. Supplied from 205 to 208 to the video receivers 103 to 106 of the display device 100.

  As an illustrative example, the PC 204 may output the same 1K video signal from the video transmission units 205 to 208 without starting the function of dividing and outputting a high-resolution video when starting up. FIG. 3 shows a display example when the display device 100 in the multi-display mode displays each 1K video signal when a plurality of the same 1K video signals are output from the PC 204. Since the same four video signals are output from the video transmission units 205 to 208, as shown in FIG. 3, in the display device 100, the same display video data is divided into four screen areas 300 to 303 that divide the screen horizontally and vertically. Will be displayed multiple times.

As shown in FIG. 3, when the same video data is displayed in the four screen areas 300 to 303, the display device 100 displays an unsightly image for the user. In order to prevent such a situation, in the present embodiment, the display device 100 performs the automatic change process of FIG. 4 described below.
FIG. 4 is a flowchart of the display mode automatic change processing in this embodiment. In step S401, the input signal presence / absence determining unit 108 determines the presence / absence of a video signal input to the video receiving units 103 to 106 in accordance with the resolution information output from the video receiving units 103 to 106. Specifically, the input signal presence / absence determination unit 108 determines that there is a signal when the number of horizontal effective pixels and the number of vertical effective lines of each video signal received by the video reception units 103 to 106 are not zero. . The input signal presence / absence determination unit 108 determines that there is no signal when at least one of the number of horizontal effective pixels and the number of vertical effective lines of each video signal received by the video reception units 103 to 106 is zero. As shown in FIG. 3, when four video signals are input from the PC 204 to the display device 100, the input signal presence / absence determination unit 108 determines whether all four video reception units 103 to 106 have a signal or not. Determine if there is a signal.

  In step S402, the display mode determination unit 110 determines whether the number of “present signals” determined by the input signal presence determination unit 108 in step S401 is plural. When there are a plurality of presence signals determined by the input signal presence / absence determination unit 108, the process proceeds to step S403, and when the number of presence signals determined by the input signal presence / absence determination unit 108 is 1 or less, the process proceeds to step S406. .

  In step S403, the low resolution determination unit 109 acquires resolution information from the video reception units 103 to 106 determined to have a signal. Further, the low resolution determination unit 109 determines whether or not the video signal corresponding to the resolution information acquired from the video reception units 103 to 106 determined to have a signal is low resolution. Specifically, the low resolution determination unit 109 includes the horizontal effective resolution and the vertical effective line number of the resolution information of the video receiving units 103 to 106, the predetermined low resolution horizontal effective pixel number, and the predetermined low resolution vertical effective line number. Compare. When the number of horizontal effective pixels and the number of vertical effective lines are equal to or less than the predetermined number of low resolution horizontal effective pixels and the predetermined number of low resolution vertical effective lines, the low resolution determination unit 109 determines that the resolution is low. If the horizontal effective pixel number and the vertical effective line number are not less than the predetermined low resolution horizontal effective pixel number and the predetermined low resolution vertical effective line number, respectively, the low resolution determination unit 109 determines that the resolution is not low. In this case, the process proceeds to step S404.

  In step S404, the display mode determination unit 110 determines whether or not all video signals received by the plurality of video reception units determined to have a signal based on the determination result of the low resolution determination unit 109 have low resolution. Determine whether. When it is determined that the video signals received by the plurality of video receiving units determined to have a signal are all of low resolution, the display mode determining unit 110 selects the single display mode as the display mode of the display device 100. Then, the process proceeds to step S406. When at least one of the video signals received by the plurality of video reception units determined to have a signal is not low resolution, the display mode determination unit 110 selects the multi display mode as the display mode of the display device 100, Proceed to step 405.

  In step S <b> 405, the video processing unit 107 generates display video data in the multi-display mode from the video signals received by the video receiving units 103 to 106 that have been determined to have a signal, and supplies the display display 111 with video data. The display unit 111 displays the display video data supplied from the video processing unit 107 on the screen. Thereby, the display video data corresponding to the video signal received by the video receivers 103 to 106 determined to have a signal is displayed on the screen of the display unit 111 in the multi-display mode.

  In step S406, the video processing unit 107 selects any one of the video receiving units 103 to 106 that respectively received the video signals determined to have low resolution, and the video signal received by the selected video receiving unit. To generate video data for display in single display mode. Furthermore, the video processing unit 107 supplies the generated video data for display in the single display mode to the display unit 111. The display unit 111 displays the display video data supplied from the video processing unit 107 on the screen. Thereby, display video data corresponding to the video signal received by one of the video receiving units 103 to 106 determined to have received the low-resolution video signal is displayed on the screen of the display unit 111 in the single display mode. . As a method of selecting one of the video receiving units 103 to 106 determined to have received the low resolution video signal, the video receiving units 103 to 106 may be ordered in advance at the time of product shipment, It may be set in advance by the user.

  When four 1K video signals as shown in FIG. 3 are input to the display device 100 and a single display mode is desired, for example, the predetermined number of low resolution horizontal effective pixels is 1024, and the number of predetermined low resolution vertical effective lines is Is 768. Under this condition, the low resolution determination unit 109 determines that the 1K video signal received by the video reception units 103 to 106 is low resolution. The display mode determination unit 110 selects the single display mode because all the resolutions of the video signals received by the video reception units 103 to 106 determined to have a signal are determined to be low resolution. The video processing unit 107 selects the video receiving unit 103 from the video receiving units 103 to 106 that have received the video signal determined to have low resolution, and displays the single display mode from the video signal received by the video receiving unit 103. Video data is generated and supplied to the display unit 111. As shown in FIG. 5, the display unit 111 displays only display video data corresponding to the video signal received by the video receiving unit 103 in the central area 500 of the screen.

  In the first embodiment, when all the video signals input to the display device 100 have a low resolution, the display mode of the display device 100 is determined to be the single display mode, so that the display video corresponding to the low resolution video signal is determined. Multiple data will not be displayed. As a result, the display device 100 can be configured not to display an unsightly video for the user.

  Although the embodiment employing the DisplayPort as the video signal terminal has been described, it is obvious that the video terminal is not limited to the DisplayPort.

  In the present embodiment, the display device 100 in the single display mode may change and display the size of the video data displayed at the center of the screen of the display unit 111.

  FIG. 6 shows a schematic block diagram of the second embodiment of the present invention. Constituent elements having the same functions as those in the embodiment shown in FIG.

  A display device 600 illustrated in FIG. 6 includes a display mode determination unit 610 and an identical video determination unit 614. The display mode determination unit 610 determines the display mode of the display device 600 according to the determination results of the input signal presence / absence determination unit 108, the low resolution determination unit 109, and the same video determination unit 614, and sets the display mode of the display device 100 thus determined. In response, the video processing unit 107 is controlled.

  The same video determination unit 614 compares the pixel data of the video signals received by the video receiving units 103 to 106, and the video signals received by the video receiving units 103 to 106 are the same based on the comparison result. It is determined whether it is a signal.

  FIG. 7 is a flowchart of the display mode automatic change process of the display device 600. Steps S701, S702, S703, S707, and S708 are the same as steps S401, S402, S403, S405, and S406 in the flow shown in FIG.

  In step S704, the display mode determination unit 610 determines whether or not the video signals received by the plurality of video reception units determined to have a signal based on the determination result of the low resolution determination unit 109 are all low resolution. Determine whether. When it is determined that all the video signals received by the plurality of video receiving units determined to have the presence signal have low resolution, the process proceeds to step S705. When at least one of the video signals received by the plurality of video reception units determined to have a signal is not low resolution, the display mode determination unit 610 selects the multi display mode as the display mode of the display device 100, and Proceed to step 707.

  In step S705, the low resolution determination unit 109 acquires each pixel data of a plurality of video signals received by the video reception units 103 to 106 and determined to have low resolution, and the process proceeds to step S706.

  In step S706, the same video determination unit 614 determines whether or not the plurality of video signals received by the video reception units 103 to 106 determined to have a signal are all the same. For example, the same video determination unit 614 compares the pixel data acquired in step S705 and determines whether or not the plurality of video signals received by the video reception units 103 to 106 determined to have a signal are all the same. Determine. Specifically, the same video determination unit 614 compares the color data included in each pixel data and uses the comparison result. Thereafter, the same video determination unit 614 determines that there is a signal when the percentage of pixel data matching in at least some of the pixel data exceeds a threshold value (for example, 90%). It is determined that the plurality of video signals received in step 1 are all the same. When the display mode determination unit 110 detects that the plurality of video signals received by the video reception units 103 to 106 determined to have a signal based on the determination result of the same video determination unit 614 are all the same, The single display mode is selected as the display mode of the display device 100. Thereafter, the process proceeds to step S708. The display mode determination unit 110 includes a plurality of video signals received by the video reception units 103 to 106 that are determined to have a signal based on a determination result of the same video determination unit 614, The multi display mode is selected as the display mode of the display device 100. Thereafter, the process proceeds to step S707.

  In the case where four 1K video signals as shown in FIG. 3 are input to the display device 600 and the single display mode is desired, for example, the predetermined number of low-resolution horizontal effective pixels is 1024, and the predetermined number of low-resolution vertical effective lines is used. Is 768. Under this condition, the low resolution determination unit 109 determines that the 1K video signal received by the video reception units 103 to 106 is low resolution. The display mode determination unit 110 determines that all the resolutions of the video signals received by the video reception units 103 to 106 determined to have a signal are low resolution, and the same video determination unit 614 receives a low resolution video signal. Since all are determined to be the same, the single display mode is selected.

  The display device 600 switches the display mode of the display device 600 according to the presence / absence of the input video signal, the resolution of the input video signal, and whether the input video signals are all the same. When the plurality of input video signals are all the same and have a low resolution, the display mode of the display device 600 is determined to be the single display mode. Therefore, a plurality of display video data corresponding to the same video signal is displayed at a low resolution. Disappear. Even when the plurality of input video signals have a low resolution, if all of the plurality of input video signals are not the same, the display mode of the display device 600 is determined to be the multi-display mode. You can have them browse at the same time.

  FIG. 8 shows a schematic block diagram of the third embodiment of the present invention. In this embodiment, the display mode is determined and automatically switched according to the number of input videos, the resolution, and the presence or absence of synchronization. Constituent elements having the same functions as those in the embodiment shown in FIG.

  A display device 800 illustrated in FIG. 8 includes a display mode determination unit 810 and a signal synchronization determination unit 814. The display mode determination unit 810 determines the display mode of the display device 800 according to the determination results of the input signal presence / absence determination unit 108, the low resolution determination unit 109, and the signal synchronization determination unit 814, and sets the display mode of the display device 800 thus determined. In response, the video processing unit 107 is controlled.

  The signal synchronization determination unit 814 analyzes a plurality of video signals received by the video reception units 103 to 106 and detects a vertical synchronization signal of each video signal. Thereafter, the signal synchronization determination unit 814 determines whether all the vertical synchronization signals of each video signal are synchronized or asynchronous depending on whether or not the timings of the vertical synchronization signals of each video signal are all the same. To do. Specifically, the signal synchronization determination unit 814 determines that the vertical synchronizations of the video signals are all synchronized when the timings of the vertical synchronization signals of the video signals all match. When at least one of the timings of the vertical synchronization signals of the video signals does not match, the signal synchronization determination unit 814 determines that all the vertical synchronizations of the video signals are not synchronized, that is, asynchronous.

  As an explanation example, a connection example as shown in FIG. 9 is assumed. In the example illustrated in FIG. 9, a 1K video signal is input to the video reception unit 103 from the video transmission unit 902 of the PC 901 via the cable 903. A 1K video signal is input to the video reception unit 105 from the video transmission unit 905 of the PC 904 via the cable 906. The video receiving units 104 and 106 have no signal input, that is, “no signal”. The PC 901 and the PC 904 operate with individual clocks, and there is a shift in the timing of the vertical synchronization signal even if the video signals have the same resolution.

  FIG. 10 is a flowchart of the display mode automatic change process of the display device 800. Steps S1001, S1002, S1003, S1007, and S1008 are the same as steps S401, S402, S403, S405, and S406 in the flow shown in FIG.

  In step S1004, the display mode determination unit 810 determines whether or not the video signals received by the plurality of video reception units determined to have a signal based on the determination result of the low resolution determination unit 109 are all low resolution. Determine whether. When it is determined that all the video signals received by the plurality of video receiving units determined to have a presence signal have low resolution, the process proceeds to step S1005. When at least one of the video signals received by the plurality of video reception units determined to have a signal is not low resolution, the display mode determination unit 810 selects the multi display mode as the display mode of the display device 100, Proceed to step 1007. As shown in FIG. 9, when a video output device is connected to the video receivers 103 and 105, the video signal received by the video receiver 103 and the video signal received by the video receiver 105 have a low resolution. If YES, the process proceeds to step S1005.

  In step S1005, the signal synchronization determination unit 814 acquires a plurality of video signals received by the video reception units 103 to 106 and determined to have low resolution, and the process proceeds to step S1006. In the example illustrated in FIG. 9, the signal synchronization determination unit 814 acquires the video signal received by the video reception units 103 and 105.

  In step S1006, the signal synchronization determination unit 814 receives all the vertical synchronization signals of the video signals received by the video reception units 103 to 106 (in FIG. 9, the video reception units 103 and 105) and determined to have low resolution. Determine whether to synchronize. For example, the case of FIG. 9 will be described as an example. When the timing of the vertical synchronization signal of the video signal received by the video receiver 103 and the timing of the vertical synchronization signal of the video signal received by the video receiver 105 match, the signal synchronization determination unit 814 has a low resolution. It is determined that all the vertical synchronization signals of the video signals are synchronized. When the timing of the vertical synchronization signal of the video signal received by the video reception unit 103 and the timing of the vertical synchronization signal of the video signal received by the video reception unit 105 do not match, the signal synchronization determination unit 814 has a low resolution. It is determined that the vertical synchronization signal of each video signal is asynchronous.

  When the vertical synchronization signals of the respective video signals received by the video receivers 103 to 106 and determined to have a low resolution are all synchronized, the display mode determination unit 810 displays the single display mode as the display mode of the display device 100. Select. Thereafter, the process proceeds to step S1008. If any one of the vertical synchronization signals of the video signals received by the video receivers 103 to 106 and determined to have low resolution is not synchronized, the display mode determination unit 810 displays the display device 100. Select the multi-display mode as the display mode. Thereafter, the process proceeds to step S1007.

  In the connection example shown in FIG. 9, the vertical synchronization signals of the video signals output from the PC 901 and the PC 904 have a time shift, and the signal synchronization determination unit 814 indicates that the video signals input to the video reception units 103 and 105 are “asynchronous”. It is determined that With this determination, the display mode determination unit 810 selects the multi display mode as the display mode of the display device 800. As shown in FIG. 9, the display device 800 includes display video data 907 corresponding to the video signal received by the video receiver 103 and display video data 908 corresponding to the video signal received by the video receiver 105. Are displayed at the same time.

  The display device 800 switches the display mode of the display device 800 according to the presence / absence of the input video signal, the resolution of the input video signal, and the synchronization of the input video signal (matching of vertical synchronization). When the plurality of input video signals are all of low resolution and the timing of the vertical synchronizing signal coincides, the display mode of the display device 800 is determined to be the single display mode, so that synchronization can be achieved at low resolution. A plurality of display video data corresponding to the video signal are not displayed. Even if the plurality of input video signals have a low resolution, if the plurality of input video signals are asynchronous, the display mode of the display device 600 is determined to be the multi-display mode. You can have them browse at the same time.

  FIG. 11 shows a schematic block diagram of a fourth embodiment of the present invention. The display device 1100 shown in FIG. 11 automatically switches the display mode according to the number of video signals input from the outside and the number of lanes of the Display Port of the video signals input from the outside. Constituent elements having the same functions as those in the embodiment shown in FIG.

  The video input unit 1102 includes four video receiving units 1103 to 1106 corresponding to the DisplayPort. Each of the video reception units 1103 to 1106 receives a video signal input from a video output device (not shown). Each of the video reception units 1103 to 1106 acquires the number of lanes used for DisplayPort from the input video signal, and outputs it as lane number information.

  The low resolution determination unit 1109 refers to the lane number information output from the video reception units 1103 to 1106 and determines whether or not the video signal corresponding to the lane information has a low resolution.

  The display mode determination unit 1110 determines the display mode of the display device 1100 according to the determination result of the presence / absence of the signal by the input signal presence / absence determination unit 108 and the determination result of the low resolution determination unit 1109, and the determined display mode of the display device 1100 The video processing unit 107 is controlled according to the above.

  FIG. 12 is an explanatory diagram of the configuration of the DisplayPort interface. The DisplayPort interface includes a main link 1200 for transmitting video data, an AUX channel 1205, an AUX channel 1205 for transmitting control signals bidirectionally between the video transmission unit and the video reception unit, and a hot plug line 1206. The video transmission unit and the video reception unit can transmit control signals bidirectionally using the AUX channel 1205. The main link 1200 includes four lanes 1201 to 1204, and the number of lanes to be used is determined by the resolution of the video signal to be transmitted. The smaller the number of lanes, the smaller the resolution of the video signal.

  FIG. 13 is a flowchart of the display mode automatic change process of the display device 1100. Steps S1301, S1302, S1305, and S1306 are the same as steps S401, S402, S405, and S406 in the flow shown in FIG.

  In step S <b> 1303, the low resolution determination unit 1109 obtains DisplayPort lane number information from the outputs of the video reception units 1103 to 1106 determined to have a signal. The low resolution determination unit 1109 determines whether the video signals received by the plurality of video reception units determined to have a signal are all low resolution according to the acquired lane number information. Specifically, the low resolution determination unit 1109 compares the number of lanes acquired from the video reception units 1103 to 1106 determined to be a signal with the reference lane number (or threshold value). As a result of the comparison, the low-resolution determination unit 1109 receives a plurality of video signals that are determined to have a signal when the number of lanes used by the video output device to transmit the video signal to the display device 1100 is equal to or less than the reference lane number. All video signals received by the unit are determined to be low resolution. The low resolution determination unit 1109 is a plurality of video reception units that are determined to have a signal when the number of lanes used by the video output device to transmit the video signal to the display device 1100 is not less than or equal to the reference lane number. It is determined that at least one of the received video signals is not low resolution.

  In step S1304, if all the video signals received by the plurality of video reception units determined to be presence signals based on the determination result of the low resolution determination unit 1109 have low resolution, the process proceeds to step S1306. In this case, the display mode determination unit 1110 selects the single display mode as the display mode of the display device 100. On the other hand, if at least one of the video signals received by the plurality of video receivers determined to have a signal is not low resolution, the process proceeds to step 1305. In this case, the display mode determination unit 1110 selects the multi display mode as the display mode of the display device 100.

  The video processing unit 107 creates display video data from the video signals received by the video receiving units 1103 to 1106 determined to have a signal according to the selected display mode, and supplies the display video data to the display unit 111.

  In DisplayPort, two lanes are used to transmit a video signal having 1024 horizontal effective pixels and 768 vertical effective lines. Therefore, whether the resolution is low (here, 1K video) can be determined by whether the number of lanes is 2 or less. The low resolution determination unit 1109 determines whether the number of used lanes is 2 or less, and determines that the video signal having the number of used lanes is 2 or less has a low resolution.

  As described above, when the number of lanes of the transmission path used for video transmission differs according to the resolution, the resolution can be roughly determined or classified based on the number of used lanes.

  (Other Embodiments) The display device according to the present invention is not limited to the display devices described in the first to fourth embodiments. For example, the display device according to the present invention can be realized by a system including a plurality of devices.

  The various processes and functions described in the first to fourth embodiments can also be realized by a computer program. In this case, all or part of the individual functions or controls of the above-described embodiments can be realized by a computer program operating on the CPU 101. Of course, some or all of the functions realized by the video processing unit, input signal presence / absence determination unit, low resolution determination unit, display mode determination unit, and same video determination unit are realized by hardware, and the rest are realized by computer programs. Also good.

  Needless to say, the computer program according to the present invention may realize various processes and functions described in the first to fourth embodiments by using an OS (Operating System) running on the computer.

  The computer program according to the present invention is read from a computer-readable recording medium and executed by the computer. As the computer-readable recording medium, a hard disk device, an optical disk, a CD-ROM, a CD-R, a memory card, a ROM, or the like can be used. The computer program according to the present invention may be provided from an external device to a computer via a communication interface and executed by the computer.

Claims (7)

A plurality of video receiving means, a multi-display mode for displaying video received by the plurality of video receiving means in different areas dividing the screen, and any one received by the plurality of video receiving means A display device capable of selecting a single display mode for displaying an image on a screen,
Input signal presence / absence determining means for determining presence / absence of input video to each of the plurality of video receiving means;
Low resolution determination means for determining whether or not the resolution of the video received by the plurality of video reception means is low resolution;
When the input video is single, the single display mode is set, and when the input video is plural and the input videos are all at the low resolution, the single display mode is set and the input video is plural. And a setting means for setting the multi-display mode when at least one of the input images is not of low resolution. Furthermore, it has the same image determination means for determining whether or not the images received by the plurality of image reception means are the same,
The setting means includes
When the input video is single, the single display mode is set, the input video is plural, the input video is all at the low resolution, and the low resolution input video is the same. Setting the single display mode, and setting the multi display mode when there are a plurality of the input videos and one of the input videos is not low resolution or the low resolution input video is not the same. The display device according to claim 1. Furthermore, it has a synchronization determination means for determining whether or not videos received by the plurality of video reception means are synchronized with each other,
The setting means includes
When the input video is single, the single display mode is set, the input video is plural, the input videos are all at the low resolution, and the low resolution input videos are synchronized with each other. If the single display mode is set and the input video is plural and one of the input videos is not low resolution or the low resolution input videos are not synchronized with each other, the multi display mode The display device according to claim 1, wherein: is set. The plurality of video receiving means output resolution information indicating the resolution of each input video,
The low-resolution determination unit determines whether or not the resolution of the video received by the plurality of video reception units is a low resolution according to the resolution information from the plurality of video reception units. 4. The display device according to any one of items 3 to 3. The plurality of video receiving means output lane number information indicating the number of lanes used for transmission of each input video,
The low resolution determination means determines whether or not the resolution of the video received by the plurality of video reception means is low resolution according to the lane number information from the plurality of video reception means. The display device according to any one of 1 to 3. A plurality of video receiving means, a multi-display mode for displaying video received by the plurality of video receiving means in different areas dividing the screen, and any one received by the plurality of video receiving means A method of controlling a display device capable of selecting a single display mode for displaying an image on a screen,
An input signal presence / absence determination step for determining presence / absence of an input video to each of the plurality of video receiving means;
A low resolution determination step for determining whether or not the resolution of the video received by the plurality of video receiving means is low;
When the input video is single, the single display mode is set, and when the input video is plural and the input video is all at the low resolution, the single display mode is set, and the input video is And a setting step of setting the multi-display mode when there is a plurality of the input images and the resolution is not low. A plurality of video receiving means, a multi-display mode for displaying video received by the plurality of video receiving means in different areas dividing the screen, and any one received by the plurality of video receiving means A program for controlling a display device capable of selecting a single display mode for displaying an image on a screen, the CPU of the display device,
Input signal presence / absence determining means for determining presence / absence of input video to each of the plurality of video receiving means;
Low resolution determination means for determining whether or not the resolution of the video received by the plurality of video reception means is low resolution;
When the input video is single, the single display mode is set, and when the input video is plural and the input videos are all at the low resolution, the single display mode is set and the input video is plural. When at least one of the input images does not have a low resolution, a program for functioning as setting means for setting the multi-display mode.

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