JP2008154054A - Digital integrated multivision processor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To obtain a digital integrated multivision processor that achieves reduction of footprint due to integration of a plurality of devices, a cost reduction, and a quality improvement due to digitalization. <P>SOLUTION: The multivision processor 3 displays a plurality of input video-images while switching them to a plurality of display devices 5A-5F. The device includes video-image input means 31, 32, which are inputted with the input video-image and convert the input video-image to a digital video-image when the input video-image is an analog video-image, a switching means 33 for switching output destinations of the digital video-image outputted by the video-image input means, and an overlay means 34 that displays the digital video-image outputted from the switching means while superimposing it on a base video-image. The means are integrated as a single unit. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a multivision processor device that displays various images such as camera images and RGB images on a plurality of display devices.

  An overlay device used as this type of multi-vision processor device, for example, as shown in Patent Document 1, divides a monitoring image captured by a camera into a plurality of display portions, and displays each of the plurality of display devices. Parts are allocated, and these display parts are displayed so as to be superimposed on the base image of each display device, and the monitoring image is displayed together with the base image of each display device.

JP 2004-266612 A

  Conventional overlay devices require an external RGB switcher, NTSC switcher, and a scan converter device that converts NTSC video to RGB video when switching multiple camera images and RGB images to be displayed on multiple display devices. In addition to requiring a large installation area, the cost of the apparatus is increased, and a system is constructed using a plurality of apparatuses for controlling analog video, so that degradation of video quality has been a problem.

  The present invention has been made to solve the above-described problems, and provides a digital integrated multivision processor device that can realize a compact installation area by integrating a plurality of devices, cost reduction, and quality improvement by digitization. The purpose is to obtain.

  The digital integrated multi-vision processor device according to the present invention is a multi-vision processor device that displays a plurality of input videos by switching to a plurality of display devices. When the input video is input and the input video is an analog video, Video input means for converting to video, switching means for switching the output destination of the digital video output from the video input means, and overlay means for displaying the digital video output from the switching means superimposed on a base video These means are integrally integrated as a single unit.

  According to the digital integrated multivision processor device of the present invention, there is an effect that the installation area can be reduced and the cost can be reduced as a digital integrated single unit.

Embodiment 1 FIG.
Hereinafter, Embodiment 1 of the present invention will be described in detail. FIG. 1 is a block configuration diagram of a multivision system including a digital integrated multivision processor apparatus according to Embodiment 1 of the present invention.
The multivision system shown in FIG. 1 includes four cameras 1A to 1D that output camera images, an RGB image device 2 that outputs RGB images, a multivision processor device 3 that constitutes the present invention, and a base screen output device. 4 and two display devices 5A and 5B.
The base screen output device 4 is a personal computer for overlay display of desktop images, fixed images such as maps and photographs.

The multivision processor device 3 includes an NTSC card unit 31 and an RGB card unit 32 as video input means, a switcher card unit 33 as switching means, and an overlay card part 34 as overlay means, and these means are integrated as a single unit. It is structured.
Each NTSC card unit 31 is a card provided with scan converter means for converting camera images from the cameras 1A to 1D to RGB images and digital conversion means for converting analog images to digital images. Four camera videos can be input to one NTSC card unit 31, and four converted videos can be output.
Each RGB card unit 32 is a card provided with digital conversion means for converting analog RGB video into digital video. Four RGB images can be input to one RGB card unit 32, and four converted images can be output.
Each switcher card unit 33 is a card provided with switching means for arbitrarily switching digital video input from the NTSC card unit 31 or the RGB card unit 32. The switcher card unit 33 can input 32 digital video inputs and can output 32 switched videos.
Each overlay card unit 33 is a card provided with overlay display means for displaying the digital video input from the switcher card unit 33 superimposed on the base video, and cutout means for displaying it at an arbitrary position and size. Four images and one base image can be input to one overlay card unit 33, and four images can be superimposed and displayed on one display device.
Note that the number of images input / output by the NTSC card unit and the RGB card unit may not be four. The number of videos that can be input / output to / from the switch card unit does not have to be 32.
1 shows a case where a video input device is connected to only one NTSC card unit 31 and one RGB card unit 32 for simplification, but other NTSC card units 31 and RGB card units 32 are also shown. It goes without saying that a video input device is also connected to the same.

  FIG. 2 is an internal layout diagram of the multi-vision processor device 3. The multi-vision device 3 has a built-in switcher card unit 33. Up to eight input cards and output cards can be connected to the switcher card unit. The slot structure is integrally connected to 33. The input card includes an NTSC card unit 31 and an RGB card unit 32, and the output card includes an overlay card unit 34.

Next, the operation will be described. In FIG. 1, camera images captured by the cameras 1A to 1D are input to an NTSC card unit 31 in the multivision processor device 3, converted from NTSC images to RGB images by scan converter means, and digitally converted by digital conversion means. It is converted into a video and input to the switcher card unit 33.
The RGB video from the RGB video device 2 is input to the RGB card unit 32 in the multivision processor device 3, converted into a digital video by the digital conversion means, and input to the switcher card unit 33.
The switcher card unit 33 switches the input digital video at high speed and inputs it to the overlay card unit 34. In the overlay card unit 34, an arbitrary position and size are calculated using the clipping means, and the camera video and RGB video that are cut out are superimposed on the base video input by the base screen output device 4 using the overlay display means. The overlay display is performed on the plurality of display devices 5A and 5B.
The NTSC card unit 31 can input NTSC video such as video as well as camera video.
In addition, instead of NTSC video or RGB video, digital camera video from a digital camera or digital video video that reproduces digital video recorded on a recording device such as a DVD may be input. In that case, a card unit for processing digital video is used instead of the NTSC card unit or the RGB card unit.

As described above, according to the first embodiment, in a multi-vision processor device that displays a plurality of input videos by switching to a plurality of display devices, the input video is input, and the digital video when the input video is an analog video A video input means for converting to a video signal; a switching means for switching the output destination of the digital video output from the video input means; and an overlay means for displaying the digital video output from the switching means superimposed on a base video. Since these means are integrated as a single unit, the part that conventionally required two types of external switching units can be realized with a single switcher card unit, and as a digital integrated single unit There is an effect that the installation area can be reduced and the cost can be reduced.
Also, there is an effect of improving the video quality by converting the video into a digital video by using the digital conversion means provided in the video input means.
Furthermore, by configuring the switching means as a switcher card unit having a slot configuration, there is an effect that a system can be flexibly constructed according to the number of inputs and the number of outputs.

Embodiment 2. FIG.
In the first embodiment, the case where a plurality of input images are displayed in an overlay manner on the plurality of display devices 5A and 5B has been described. However, as shown in FIG. 3, by providing a through card portion 35 instead of the overlay card portion. A plurality of videos can be arbitrarily switched, and the video can be displayed through on the entire display device.
The through card unit 35 is a card provided with scan converter means for converting digitized input into the resolution of the display device and through display means for displaying the entire display device. Four videos can be input to one through card unit 35, and four videos can be displayed on the four display devices 5A to 5D.

Next, the operation will be described.
In FIG. 3, the camera video imaged by the camera 1 is input to the NTSC card unit 31 and converted from NTSC video to RGB video by the scan converter means. Similarly, the RGB video from the RGB video device 2 is input to the RGB card unit 32. The input video input is converted into digital video by the digital means in the NTSC card unit 31 and the RGB card unit 32 and input to the switcher card unit 33.
The switcher card unit 33 switches the input digital video at high speed and inputs it to the through card unit 35. The through card unit 35 converts the input digital image into a resolution corresponding to each display device, and displays it on the entire four display devices 5A to 5D.

According to the second embodiment, since the means for converting the output resolution in accordance with the resolution corresponding to the display device is provided, there is an effect that it can be displayed on various display devices.
Further, since the digitized video is directly output, there is an effect that the video quality can be prevented and the video quality can be improved.
Furthermore, there is an effect that it is possible to switch to and display a plurality of screens regardless of the type of video such as camera video or RGB video.

Embodiment 3 FIG.
In the second embodiment, a case where a plurality of input images are displayed through on a plurality of display devices 5A to 5D has been described. However, as shown in FIG. Switching to the through card unit 35, the through card unit 35 is provided with a cutting unit for arbitrarily cutting out the position and size of the camera image and an enlarging unit for enlarging across the four display devices 5A to 5D to display an enlarged through display. Can do.

FIG. 4 is an example in which camera images are enlarged and displayed on four display devices 5A to 5D. The camera video captured by the camera 1 is input to the NTSC card unit 31 and converted from NTSC video to RGB video by the scan converter means. The inputted input video is converted into a digital video by the digital means in the NTSC card unit 31 and input to the switcher card unit 33.
The switcher card unit 33 switches the input digital video at high speed and outputs the same video to the four through card units 35. The through card unit 35 converts the input digital image into the resolution of each display device, calculates an arbitrary position and size, cuts out the input image, and displays the enlarged image on the four display devices 5A to 5D. .

  According to the third embodiment, in the through card unit 35, the input video can be cut out at an arbitrary position and size, so that the display can be enlarged and displayed across the plurality of display devices 5A to 5D. is there.

Embodiment 4 FIG.
In the first embodiment, a case where a plurality of input images are displayed on a plurality of display devices 5A to 5D has been described. However, as shown in FIG. 5, the through card unit 35 and the overlay card unit 34 are mixed and displayed. A plurality of images can be displayed in an overlay manner on the device 5A and the display device 5D, and the images can be enlarged and displayed on the display devices 5B, 5C, 5E, and 5F.

FIG. 5 shows an example in which overlay display and enlarged through display are performed on six display surfaces constituted by six display devices 5A to 5F. Camera images captured by the four cameras 1 are input to the NTSC card unit 4 and converted from NTSC images to RGB images by scan converter means. Similarly, the RGB video of the RGB video device 2 is input to the RGB card unit 32. The inputted input video is converted into a digital video by the digital conversion means in the NTSC card unit 31 and the RGB card unit 32 and input to the switcher card unit 33.
The switcher card unit 33 switches the digital video to the through card unit 35 and the overlay card unit 34. The through card unit 35 cuts out the video at an arbitrary position and size, and displays the video from the camera 1B on the four display devices 5B, 5C, 5E, and 5F. In the overlay card unit 34, the images of the cameras 1A, 1C, 1D and the RGB video device 2 are cut into arbitrary positions and sizes, superimposed on the base video, and displayed on the two display devices 5A, 5D as an overlay.

According to the fourth embodiment, it is possible to simultaneously realize enlarged through display and overlay display with a single multivision processor device 3, thereby achieving an effect of reducing the installation area and cost.
In addition, since the multi-vision processor device 3 has a slot configuration in which up to eight input cards and output cards can be connected to the switcher card unit 33, the output card can be freely selected. The system can be flexibly constructed, and the expandability can be improved.

Embodiment 5. FIG.
In the fourth embodiment, the case where a plurality of input images are displayed in enlarged through display and overlay display on the six display devices 5A to 5F using the through card unit 35 and the overlay card unit 34 has been described. As shown in FIG. In addition, two through card sections 35, two overlay card sections 34, and four four-divided composite card sections 36 are mixed, and the display device 5A has an overlay display, and the display devices 5B, 5C, 5E, and 5F have an enlarged through display. The display device 5D can perform four-division display in which four input videos are reduced and displayed side by side.

  The 4-divided synthesis card unit 36 is a card that includes a reduction unit that reduces the digitized input and a synthesis unit that combines the reduced four videos into one display device. Four images can be input to one 4-divided composite card unit 36, and four images can be divided into four and displayed on one display device.

FIG. 6 is an example when the enlarged through display, the overlay display, and the quadrant display are performed on the six surfaces of the six display devices 5A to 5F. Camera images captured by the cameras 1A to 1D are input to the NTSC card unit 31 and converted from NTSC images to RGB images by scan converter means. Similarly, the RGB video from the RGB video device 2 is input to the RGB card unit 32. The inputted input video is converted into a digital video by the digital conversion means in the NTSC card unit 31 and the RGB card unit 32 and input to the switcher card unit 33.
In the switcher card unit 33, the digital video is switched to the through card unit 35, the overlay card unit 34, and the four-division composite card unit 36. In the through card unit 35, the video of the camera 1B is enlarged and displayed on the four display devices 5B, 5C, 5E, and 5F. The overlay card unit 34 displays the video of the cameras 1A and 1C on the display device 5A in an overlay manner. In the division / combination card unit 36, the images of the cameras 1A, 1B, and 1D and the RGB video device 2 are displayed in four divisions on the display device 5D. Note that the number of divisions need not be four.

According to the fifth embodiment, there is no need for an external four-division composite display means, and there is an effect that the installation area can be reduced and the cost can be reduced.
In addition, since the multi-vision processor device 3 has a slot configuration in which up to eight input cards and output cards can be connected to the switcher card unit 33, the output card can be freely selected. The system can be flexibly constructed, and the expandability can be improved.

1 is a block configuration diagram of a multi-vision system showing Embodiment 1 of the present invention. FIG. It is an internal arrangement block diagram of the multivision system which shows Embodiment 1 of this invention. It is a block block diagram of the multivision system which shows Embodiment 2 of this invention. It is a block block diagram of the multivision system which shows Embodiment 3 of this invention. It is a block block diagram of the multivision system which shows Embodiment 4 of this invention. It is a block block diagram of the multivision system which shows Embodiment 5 of this invention.

Explanation of symbols

1, 1A, 1B, 1C, 1D Camera 2 RGB video device 3 Multivision processor device 31 NTSC card unit 32 RGB card unit 33 Switcher card unit 34 Overlay card unit 35 Through card unit 36 Four-division composite card unit 4 Base screen output device 5A, 5B, 5C, 5D, 5E, 5F Display device

Claims (6)

In a multi-vision processor device that displays a plurality of input images by switching to a plurality of display devices,
Video input means for converting the input video to digital video when the input video is analog video;
Switching means for switching the output destination of the digital video output by the video input means;
Overlay means for displaying the digital video output from the switching means superimposed on a base video,
A digital integrated multi-vision processor device characterized by integrally integrating these means as a single unit. In a multi-vision processor device that displays a plurality of input images by switching to a plurality of display devices,
Video input means for converting the input video to digital video when the input video is analog video;
Switching means for switching the output destination of the digital video output by the video input means;
Through display means for changing the digital video output from the switching means to a resolution corresponding to the display device and displaying it on the entire display device;
A digital integrated multi-vision processor device characterized by integrally integrating these means as a single unit.   The through display means can cut out the video at an arbitrary position and size from the digital video output from the switching means, and display the image cut out by the cut out means on one or a plurality of display devices. 3. The digital multi-vision processor device according to claim 2, further comprising an enlarged display means for enlarging the image.   4. The digital multi-vision processor device according to claim 1, further comprising: a divided composite display unit that divides a display area of one display device and displays a plurality of the input images. . The video input means includes an NTSC card unit that processes the input video that is NTSC video or an RGB card unit that processes the input video that is RGB video,
The overlay means is composed of an overlay card section,
2. The switcher card unit according to claim 1, wherein the switching unit is configured as a switcher card unit having a slot configuration that integrally connects the NTSC card unit or the RGB card unit as an input and the overlay card unit as an output. Digital integrated multi-vision processor device. The video input means includes an NTSC card unit that processes the input video that is NTSC video or an RGB card unit that processes the input video that is RGB video,
The through display means is constituted by a through card portion,
The switch means is configured as a switcher card unit having a slot configuration that integrally connects the NTSC card unit or the RGB card unit as an input and the through card unit as an output. Digital integrated multi-vision processor device.

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