JP2016207099A - Information processing device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a video display device that displays a plurality of video outputs on one video display device, increases or decreases the size of a display area or changes its position, and can accurately obtain touched coordinates even if it is operated by a touch panel.SOLUTION: An information processing device includes: a video display device 10 for displaying outputs from a first video processing device 20 and a second video processing device 30; a touch panel 11; an input coordinate detection unit 12 for calculating touched coordinates from an output from the touch panel 11; a control unit 13 for controlling the increase or decrease of the size of a display area or the change of its display position; a coordinate conversion unit 14 for determining which video processing device whose display area is indicated is on the basis of coordinates detected by the input coordinate detection unit 12 and display coordinate information by the control unit 13, and for converting the detected coordinates on the basis of the determined display coordinates; a transmission unit 15 for transmitting coordinate information after the conversion by the coordinate conversion unit 14 to the first video processing device 20; and a transmission unit 16 for transmitting the coordinate information after the conversion by the coordinate conversion unit 14 to the second video processing device 30.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an information processing apparatus that executes coordinate conversion processing of touch detection coordinates corresponding to a display area of each video processing apparatus using a single video display apparatus provided with a touch panel for videos of a plurality of video processing apparatuses. About.

  Conventionally, there is a touch panel as an information input device that can be input by touching a finger or the like. This information input device detects any one of a resistance value, capacitance value, vibration, light, and ultrasonic wave that changes when touched, and transmits the touched coordinates. Generally, the input device is used as an information device integrated with a display device such as a liquid crystal panel. A window, button, icon, scroll bar, or the like displayed by the display device can be directly operated using a hand or a finger, so that operability can be improved.

  In addition, there is a method of use in which a plurality of videos are simultaneously displayed and compared for business use in the medical field or the like. For example, the coordinates on the screen are designated for a plurality of display devices constituted by the first display device 41 and the second display device 42 as in Patent Document 1 having the configuration of FIG. Using the input device 43 such as a digitizer, selection of which display device is instructed and acquisition of position information are performed by the control device 44, the information is output to the processing device 45, and the display devices 41 and 42 are output. An information processing apparatus that operates a plurality of display devices such as displaying has been proposed.

JP-A-8-286835

  However, as a means of comparing a plurality of images at the same time, it is required to display a plurality of images simultaneously on one display device in order to further improve the visibility of the user. However, it is not disclosed in the information processing apparatus disclosed in Patent Document 1.

  By simultaneously displaying multiple images on one display device, it is possible to perform control to enlarge / reduce each display area and change the display position, but from a PC that receives touch panel coordinate information, The size and position of the display area cannot be recognized. Therefore, since it is impossible to determine which display area the touched position is, there is a problem that it is difficult to detect coordinates.

  In order to solve the above problems, an information processing apparatus of the present invention has the following configuration.

  A video display device comprising a touch panel and connectable to a plurality of video processing devices, wherein the video display device performs video processing according to control of a plurality of video signals, and outputs a video display signal; Display unit for displaying the video display signal, control for enlarging / reducing the video processing of the video processing unit or changing the display position, and a control unit for outputting the display coordinates, and input coordinates for detecting the coordinates from the output signal of the touch panel A detection unit, a coordinate conversion unit that determines a display area based on the coordinates detected by the input coordinate detection unit and display coordinate information, and converts coordinates detected based on the determined display coordinates; It has a transmission unit that transmits coordinate information to the processing device, and when displaying multiple images at the same time, even if the display area is enlarged or reduced or the position is changed, any touched coordinates can be accurately And detecting.

  According to the video display device of the present invention, even when a plurality of video outputs are displayed on one video display device, the display area is enlarged / reduced or the position is changed, and the touch panel is operated, the coordinates touched accurately. Can be obtained. Further, it is possible to provide an information processing apparatus that can perform coordinate conversion by changing the position and size of the display area.

Block diagram in Embodiment 1 of the present invention Process flow diagram in Embodiment 1 of the present invention The figure which shows the example of the display image in Example 1 of this invention. The figure which shows the example of the coordinate information in Example 1 of this invention Processing flow diagram in Embodiment 2 of the present invention The figure which shows the example of the display image in Example 2 of this invention. The figure which shows the example of the display image in a prior art

[Example 1]
Embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a block diagram of a video display apparatus according to this embodiment. In FIG. 1, the video display device 10 displays the outputs of the first video processing device 20 and the second video processing device 30. The touch panel 11 detects any one of a resistance value, a capacitance value, a vibration, light, and an ultrasonic wave that changes by touching, and outputs position information. The input coordinate detection unit 12 calculates the touched coordinates from the output of the touch panel 11.

  The control unit 13 performs control such as enlargement and reduction of the display area. Based on the coordinates detected by the input coordinate detection unit 12 and the display coordinate information of the control unit 13, the coordinate conversion unit 14 determines which display area of the video processing device is designated, and uses the determined display coordinates as a reference. The detected coordinates are converted. Details will be described later. The transmission unit 15 transmits the coordinate information converted by the coordinate conversion unit 14 to the first video processing device 20. The transmission unit 16 transmits the coordinate information converted by the coordinate conversion unit 14 to the second video processing device 30.

  The first video processing device 20 is a device including a first receiving unit 21, a control unit 22, and a video output unit 23. The receiving unit 21 of the first video processing apparatus receives the coordinate information from the transmitting unit 15. The control unit 22 of the first video processing apparatus recognizes the coordinate information received by the receiving unit 21. The video output unit 23 of the first video processing apparatus outputs video information corresponding to the coordinates of the control unit 22.

  The second video processing device 30 is a device that includes a second receiving unit 31, a control unit 32, and a video output unit 33. The receiving unit 31 of the second video processing apparatus receives the coordinate information of the transmitting unit 16. The control unit 32 of the second video processing apparatus recognizes the coordinate information received by the receiving unit 31. The video output unit 33 of the second video processing apparatus outputs video information corresponding to the coordinates of the control unit 32.

  The video processing unit 17 performs processing by comparing the signals of the first video output unit 23 and the second video output unit 33 with the display coordinate information of the control unit 13. The video display unit 18 displays the video output from the video processing unit.

  Hereinafter, the operation will be described in detail with reference to the processing flowchart shown in FIG. 2, the example of the display image shown in FIG. 3, and the example of the coordinate information shown in FIG.

  When the process is started, first, coordinates of a plurality of display areas output to the video display device 10 are set (S101). Here, it is assumed that the first and second video processing devices 20 and 30 output at a resolution (1920, 1080).

  For example, as shown in FIG. 4, in a display device having a resolution (1920,1080), the first display area 24 is (0,0) to (1280,720) and the second display area 34 is set with the upper left as the origin. Is set to (1280,720) to (1920,1080). Next, by touching the touch panel 11, any change in resistance value, capacitance value, vibration, light, and ultrasonic wave is acquired, and the designated coordinates (hereinafter referred to as touch coordinates) are input to the input coordinate detection unit 12. (S102). For example, the coordinates detected by the touch panel at the touch input position 19 shown in FIG. 4 are (1480,900). If not touched, loop until touch coordinates are detected.

  The coordinate conversion unit compares the touch coordinates output from the input coordinate detection unit 12 with the display coordinate information output from the control unit 13 to determine whether the touch coordinates are within the display area (S103). If it is determined that the outside of the display area 23 has been touched, an error is displayed as detection error display processing (S112), and the detected coordinate information is erased to enter a touch standby state.

  Next, when the display area is touched, it is determined which display processing apparatus the display area is (S104). For example, in FIG. 4, since the coordinates (1480,900) of the touch input position 19 are in the second display area 34 (1280,540) to (1920,1080), it is determined that they are in the second display area 34. . The coordinates (1480,800) of the touch input position 19 are converted in the coordinate conversion unit 14 so as to correspond to the display area 34 of the second video processing device (S113). The conversion formula is as follows.

Original resolution (X1, Y1), display origin (X2, Y2)
Display resolution (X3, Y3), touch position (X, Y)
Post-conversion position ((X−X2) × X1 / X3, (Y−Y2) × Y1 / Y3,)
For example, the coordinate information shown in FIG. 4 is applied as follows.

Original resolution (1920, 1080), display origin (1280, 720)
Display resolution (640, 360), touch position (1480, 900)
From this coordinate, the post-conversion position (600,540) is derived. The converted coordinate data is transmitted from the transmission unit 16 (S114). The receiving unit 31 in the video processing apparatus receives the coordinate information (S115). Next, the coordinate information is recognized by the control unit 32 (S116), and operations such as dragging, clicking, and enlargement / reduction by the touch operation of the video output unit 33 are controlled according to the coordinate information (S117).

  When the first area is touched, the processing of the first video processing device 20 is performed in the same manner as the processing of the second video processing device 30 described above. When the coordinates of the display area 24 of the first video processing apparatus are detected, the coordinate conversion unit 14 converts the coordinates so as to correspond to the display area 24 of the first video processing apparatus (S105). The conversion formula is the same as (S113). The converted coordinate data is transmitted from the transmitter 16 (S106). The receiving unit 21 in the video processing apparatus receives the coordinate information (S107). Next, the coordinate information is recognized by the control unit 22 (S108), and operations such as dragging, clicking, and enlargement / reduction by a touch operation of the video output unit 23 are controlled according to the coordinate information (S108).

  The controlled video output signals are transmitted to the video processing unit 17 in the video display device and displayed on the video display unit 18 (S110). This series of flows continues to loop until the power of the video processing apparatus is turned off (power-off determination (S111)), and ends when the power is off.

  From the information processing device described above, a plurality of video outputs are displayed on one video display device, the display area is enlarged / reduced, the position is changed, etc. Acquisition can be performed, and even if the position or size of the display area is changed, coordinate conversion can be performed following the change.

[Example 2]
Hereinafter, a second embodiment according to the present invention will be described. FIG. 5 is a processing flowchart in the second embodiment, and FIG. 6 shows an example of a display image in the second embodiment. The second embodiment is configured with a block diagram equivalent to that of the first embodiment, but is a case where the display area of the video is enlarged / reduced and the display areas are overlapped.

  Hereinafter, the operation will be described in detail with reference to the processing flowchart shown in FIG. For example, as shown in FIG. 6, the first display area 24 is reduced and arranged on the foreground, the second display area 34 is on the rear side of the first display area, and the display area is enlarged so that the touch panel 11 It is assumed that they are arranged with the same size as the coordinate detection area.

  First, it is determined whether or not the touch coordinates are in the first display area 24, that is, the foreground screen (S201).

  If it is determined that the display area is the first display area (frontmost display area) 24, the same processing as in the first embodiment is performed from (S105) to (S111). If the second display area (rear display area) 34 is determined, the display area is the same size as the coordinate detection area of the touch panel 11, and the coordinate information is transmitted without converting the touch coordinates (S202). . The processes after (S202) are the same as those of the first embodiment of (S115) to (S111).

  With the information processing device described above, touch coordinates can be detected correctly even during PinP display, and coordinate conversion can be performed even when the PinP display area is enlarged, reduced, or changed in position. become.

10 video display device, 11 touch panel, 12 input coordinate detection unit, 13 control unit,
14 coordinate conversion unit, 15 first transmission unit, 16 second transmission unit, 17 video processing unit,
18 video display unit, 19 touch indication position, 20 first video display device,
21 1st receiving part, 22 1st control part, 23 1st image output part,
24 1st display area, 30 2nd video processing apparatus, 31 2nd receiving part,
32 second control unit, 33 second video output unit, 34 second display area,
41 first display device, 42 second display device, 43 input device, 44 control device,
45 Processing equipment

Claims (2)

A video display device comprising a touch panel and connectable to a plurality of video processing devices,
An input unit for inputting a plurality of video signals;
A signal processing unit that processes the input signal and outputs a display signal;
A display for displaying video signals;
A control unit that controls to enlarge / reduce or change the position of each image and output the display coordinates of each image;
An input coordinate detection unit for detecting coordinates from the output signal of the touch panel;
A coordinate conversion unit that determines a display area based on the coordinates detected by the input coordinate detection unit and display coordinate information, and converts coordinates detected based on the determined display coordinates;
An information processing apparatus comprising: a transmission unit that transmits coordinate information to each display processing apparatus. A first display unit that displays an image in the same area as the coordinate detection area of the touch panel;
A second display unit that displays in front of the first display unit,
It has a display function for displaying a plurality of display areas in an overlapping manner by video processing, and outputs information to the first display device without converting coordinates detected by the touch when the first display unit is touched. The information processing apparatus according to claim 1.