JP5404989B2 - Video display device and multi-display device - Google Patents

Description

  The present invention relates to a video display device that displays video by irradiating light from a light source to a single or a plurality of transmissive or reflective display elements having light modulation action, and a plurality of video display devices. The present invention relates to a multi-display device that constitutes a display screen.

  In recent years, in concerts and event venues, there are many cases where images are displayed on a huge screen aiming at visual effects, and a display screen is composed of a plurality of video display devices as such devices. In general, a multi-display device is used. Multi-display devices are required to improve the display screen quality against a sense of unity of the display screen so as not to give the viewer a sense of incongruity, a lack of brightness in bright scenes, and a black float in dark scenes. The

  To prevent the viewer from recognizing that the display screens of a plurality of video display devices are connected, the luminance of each display screen is made uniform, and the light source drive power is adjusted so that the light source luminance of each video display device is the same. As a method, a method described in Patent Document 1 has been devised.

Further, as a method for improving the quality of a display screen, a method described in Patent Document 2 in which the luminance of a light source is dynamically changed according to a video scene has been devised.
JP 2003-271118 A Japanese Patent Laid-Open No. 6-160811

  However, in the above conventional configuration, since the plurality of video display devices change the luminance of the light source according to the scene of each display screen, the light source luminance of each video display device is made the same for the same video scene. There is a problem in that it cannot be changed dynamically, and the observer is made aware that the display screens of a plurality of video display devices are connected.

  The present invention solves the above-mentioned conventional problems, and even when a display screen is composed of a plurality of video display devices, the brightness of the light source is dynamically changed according to the video scene to improve the quality of the display screen. It is an object of the present invention to provide a video display device and a multi-display device for realizing a display screen with a sense of unity that does not give the viewer a sense of incongruity.

Video display apparatus according to the present disclosure provides a video display apparatus displaying video by irradiating light from a light source to a display device having an optical modulation action of a single or a plurality of transmissive or reflective A plurality of video display devices are arranged so that the display screens are adjacent to each other, and are used in a multi-display device that displays one screen of video on the plurality of display screens .

The video display device includes a video signal receiving unit that receives a video signal, a video signal feature data detecting unit that detects a feature of the video signal, and a video signal expansion / contraction that expands or reduces the video signal received by the video signal receiving unit. A display element driving unit that drives the display element using the video signal expanded and contracted by the video signal expansion / contraction unit, and a light source that is disposed between the display element and the light source and that irradiates the display element An aperture for adjusting the amount of light, an aperture drive data creation unit for creating data for driving the aperture using the video signal feature data, and an aperture for driving the aperture with the aperture drive data created by the aperture drive data creation unit And a drive unit, and controls the diaphragm in conjunction with the video signal feature data.

The video signal feature data detecting unit receives the same video signal as that input to another video display device .

Thereby, it has the effect | action that the light source luminance of a display apparatus can be changed arbitrarily and dynamically by producing aperture drive data arbitrarily using the received video signal data.

A multi-display device according to the present disclosure includes a plurality of the above-described video display devices, and displays one screen of video on a display screen of the plurality of video display devices.

Thereby, it has the effect | action that the light source brightness | luminance of each display apparatus can be changed equally and dynamically.

  As described above, according to the multi-display device of the present invention, even when a display screen is composed of a plurality of video display devices, the luminance of the light source is dynamically changed according to the video scene to improve the display screen quality. In addition, there is an effect that it is possible to provide a display screen with a sense of unity that does not give the observer a sense of incongruity.

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

(Embodiment 1)
FIG. 1 is a diagram showing an overall configuration of a multi-display apparatus according to Embodiment 1 of the present invention.

  In FIG. 1, a video distributor 100 is a device for distributing a video signal sent from a signal source such as a video deck or a personal computer, and video display devices 101 to 103 are single or a plurality of transmissive or reflective light beams. An image display device that displays an image by irradiating light from a light source onto a display element having a modulation action. Each of the display screens 111 to 113 is projected adjacently at a magnification equal to the screen 110 elongated in the horizontal direction.

  FIG. 5 is a block diagram showing the configuration of the video display apparatus (for example, 101) in the first embodiment of the present invention.

  As shown in FIG. 5, the video display device 101 receives a video signal 1, receives a video signal expansion / contraction unit 2, a display element drive unit 3, a display element 4, a video signal feature data detection unit 5, an aperture drive data creation unit 6, It comprises an aperture drive unit 7, an aperture 8, a light source 9, and the like.

  The operation of the multi-display device configured as described above will be described with reference to FIGS.

  The video display device 101 receives the video signal 1, and the video signal 1 is input to the video signal expansion / contraction unit 2 and the video signal feature data detection unit 5. The video signal expanded / contracted by the video signal expansion / contraction unit 2 is output from the video signal expansion / contraction unit 2 and input to the display element driving unit 3 to drive the display element 4. The video signal feature data detected by the video signal feature data detection unit 5 is input to the aperture drive data creation unit 6, and the aperture drive data creation unit 6 outputs the aperture drive data to the aperture drive unit 7. The aperture drive unit 7 controls the aperture 8 based on the input aperture drive data, and blocks light emitted from the light source 9 to the display element 4.

  Since the video signal 1 is input to the video signal feature data detection unit 5 before the video signal 1 is input to the video signal expansion / contraction unit 2, the plurality of video display devices 101 to 103 acquire the video signal feature data of the video signal 1. Can do.

  Note that the video signal feature data detection unit 5 may have a function that can arbitrarily specify a range in which the video signal feature data is detected.

  Since the video signal feature data set in the aperture drive data creation unit 6 is the same in the video display devices 101 to 103, the aperture drive data set from the aperture drive data creation unit 6 to the aperture 8 is the video display devices 101 to 103. Thus, the control of the diaphragm 8 can be made the same in the video display devices 101 to 103. That is, the luminance changes of the light sources of the video display devices 101 to 103 can be made the same.

(Embodiment 2)
FIG. 2 is a diagram showing an overall configuration of the multi-display apparatus according to Embodiment 2 of the present invention. The second embodiment is configured to include the external device 121 in the first embodiment.

  In FIG. 2, the external device 121 has an input port that receives a video signal from the video distributor 100 and an output port that outputs video signal feature data to the video display devices 201 to 203.

  FIG. 6 is a block diagram illustrating a configuration example of the video display device 201 according to the second embodiment. This will be described with reference to FIGS.

  The external device 121 detects video signal feature data from the video signal 1 and outputs it to the input ports 10 of the video display devices 201 to 203. The aperture drive data creation unit 6 creates aperture drive data based on the video signal feature data received from the input port 10.

  Each of the video display devices 201 to 203 receives the video signal feature data detected from the same video signal before being expanded or contracted from the external device 121, so that the video signal set in the aperture drive data creation unit 6 The feature data is the same in the video display devices 201 to 203. The generated aperture drive data is the same in the video display devices 201 to 203 and is output to the aperture drive unit 7. Since the aperture drive data set for the aperture 8 is the same in the video display devices 201 to 203, the control of the aperture 8 can be made the same. That is, the luminance changes of the light sources of the video display devices 201 to 203 can be made the same.

  Note that the video signal feature data detection unit 5 may be omitted unless the display screen is configured by a single video display device.

  The video signal 1 may be input to the video signal feature data detection unit 5 before being input to the video signal expansion / contraction unit 2.

(Embodiment 3)
FIG. 3 is a diagram showing an overall configuration of the multi-display apparatus according to Embodiment 3 of the present invention. The third embodiment is configured to include the external device 122 in the first embodiment.

  In FIG. 3, the external device 122 has an input port for receiving video signal feature data from the video display devices 301 to 303, and video signal feature data adjusted based on the input video signal feature data. It has an output port that outputs to

  FIG. 7 is a block diagram showing a configuration example of the video display device 301 in the third embodiment. This will be described with reference to FIGS.

  The aperture drive data creation unit 6 outputs the video signal feature data detected by the video signal feature data detection unit 5 from the output port 11 to the external device 122. The external device 122 adjusts the video signal feature data of the video signal 1 based on the video signal feature data output from the video display devices 301 to 303, and uses the adjusted video signal feature data of the video display devices 301 to 303. Output to the input port 10.

  The adjustment of the video signal feature data may be an average of the video signal feature data output from the video display devices 301 to 303, but each video signal feature data output from the video display devices 301 to 303 is weighted. It may have a function.

  Since the video display devices 301 to 303 receive the same video signal feature data adjusted from the external device 122 from the input port 10, the aperture drive data created by the aperture drive data creation unit 6 of the video display devices 301 to 303 is It becomes the same in the video display devices 301 to 303 and is output to the aperture drive unit 7. Since the drive data set for the diaphragm 8 is the same in the video display devices 301 to 303, the control of the diaphragm 8 of the video display devices 301 to 303 can be made the same. That is, the luminance changes of the light sources of the video display devices 301 to 303 can be made the same.

  Note that the video signal feature data detection unit 5 may be omitted unless the display screen is configured by a single video display device.

  The video signal 1 may be input to the video signal feature data detection unit 5 before being input to the video signal expansion / contraction unit 2.

(Embodiment 4)
FIG. 4 is a diagram showing an overall configuration of a multi-display apparatus in Embodiment 4 of the present invention. The fourth embodiment has a configuration obtained by removing the external device 122 from the third embodiment.

  In FIG. 4, the video display devices 401 to 403 have an input port for receiving the video signal feature data of each other and an output port for outputting the video signal feature data of each other.

  FIG. 8 is a block diagram illustrating a configuration example of the video display device 401 according to the fourth embodiment. FIG. 9 is a flowchart showing a video signal feature data adjustment procedure in the fourth embodiment. Hereinafter, description will be made with reference to FIGS. 4, 8 and 9.

  The video display device 401 receives the video signal 1 from the video distributor 100 (S101), and the video signal 1 is input to the video signal expansion / contraction unit 2. The video signal feature data is detected by the video signal feature data detection unit 5 from the video signal stretched by the video signal extension / contraction unit 2 (S102).

  The feature data adjustment unit 12 of the video display device 401 outputs the video signal feature data detected by the video signal feature data detection unit 5 from the output port 11 to the video display devices 402 and 403 (S103). The video signal feature data of the video signal 1 input to the video display devices 402 and 403 received from the video display devices 402 and 403 via the input port 10 and the video signal feature data detection unit of the video display device 401 The video signal feature data is adjusted based on the video signal feature data detected in S5 (S104).

  The video signal feature data detected by the video signal feature data detection unit 5 of each of the video display devices 401 to 403 is a video signal whose detection range is only the display screen (after video signal expansion / contraction) of each of the video display devices 401 to 403. Since it is feature data, the adjustment of the video signal feature data in the video display device 401 is performed by the video signal feature data on the display screen of the video display devices 402 and 403 received via the input port 10 and the video signal feature data detection unit. 5 may be the average of the video signal feature data of the display screen of the video display device 401 detected in step 5.

  The adjustment of the video signal feature data may have a function of weighting the video signal feature data of each display screen of the video display devices 401 to 403.

  By adjusting the video signal feature data, the aperture drive data creation unit 6 of the video display devices 401 to 403 can create the same aperture drive data in the video display devices 401 to 403 (S105). By outputting to the unit 7, the control of the diaphragm 8 of the video display devices 401 to 403 can be made the same. That is, the luminance changes of the light sources of the video display devices 401 to 403 can be made the same.

  The video display device of the present invention and a multi-display device using the video display device are large visual devices that display images on a huge screen for visual effects in concerts and event venues. Useful.

1 is an overall configuration diagram of a multi-display device in Embodiment 1 of the present invention. Overall configuration diagram of multi-display device in Embodiment 2 of the present invention Overall configuration diagram of multi-display device in Embodiment 3 of the present invention Overall configuration diagram of multi-display device in Embodiment 4 of the present invention The block diagram which shows the structure of the video display apparatus in Embodiment 1 of this invention. The block diagram which shows the structure of the video display apparatus in Embodiment 2 of this invention. The block diagram which shows the structure of the video display apparatus in Embodiment 3 of this invention. The block diagram which shows the structure of the video display apparatus in Embodiment 4 of this invention. The flowchart which shows the adjustment procedure of the video signal characteristic data in Embodiment 4 of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Video signal 2 Video signal expansion-contraction part 3 Display element drive part 4 Display element 5 Video signal characteristic data detection part 6 Aperture drive data creation part 7 Aperture drive part 8 Aperture 9 Light source 10 Input port 11 Output port 12 Feature data adjustment part 100 Video Distributor 101 Video display device 102 Video display device 103 Video display device 110 Screen 111 Display screen 112 Display screen 113 Display screen 121 External device 122 External device 201 Video display device 202 Video display device 203 Video display device 301 Video display device 302 Video display Device 303 Video display device 401 Video display device 402 Video display device 403 Video display device

Claims (2)

An image display device that displays an image by irradiating light from a light source to a single or a plurality of display elements having a transmission type or reflection type light modulation function , so that the display screens are adjacent to each other A video display device used in a multi-display device that arranges a plurality of video display devices and displays one screen of video on a plurality of display screens,
A video signal receiving unit for receiving a video signal, a video signal feature data detecting unit for detecting a feature of the video signal, a video signal expansion / contraction unit for expanding or reducing the video signal received by the video signal receiving unit, and the video signal A display element driving section that drives the display element using a video signal expanded and contracted by an expansion / contraction section; and a diaphragm that is disposed between the display element and the light source and adjusts the amount of light from the light source that irradiates the display element; An aperture drive data creation unit that creates data for driving the aperture using the video signal feature data; and an aperture drive unit that drives the aperture with the aperture drive data created by the aperture drive data creation unit. In the video display device that controls the aperture in conjunction with the video signal feature data,
The video display device, wherein the video signal feature data detection unit receives the same video signal as that input to another video display device . A multi-display device comprising a plurality of the video display devices according to claim 1, wherein one screen image is displayed on a display screen of the plurality of video display devices .

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