JP2011248254A - Image display system, image display device for achieving the same, tilt detector, and image display method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an image display system, a device and a method for displaying an image which is tilted in accordance with an tilt of a viewpoint of a viewer.SOLUTION: An image display device comprises: a tilt amount detection section that detects a tilt amount of a viewpoint; a tilt amount determination section that determines whether a rotation correction of an image should be performed based on the detected tilt amount; an image rotation section that, when the tilt amount determination section determines the rotation correction should be made, carries out the rotation correction of the image based on the detected tilt amount; and an image display section that displays at least the image on which the rotation correction has been carried out.

Description

  The present invention relates to a display device, a display method thereof, and a display system having a function of tilting and displaying an image according to the tilt of a viewer's viewpoint.

  In recent years, opportunities to enjoy 3D video casually in theaters and the like are increasing. The 3D video is the original video data separated into left and right video and displayed, and there are a passive method and an active method.

  The passive method is a method in which the left and right images that have passed through the polarizing filter are combined on the screen and projected, and then separated by polarizing filter glasses. This method uses an anaglyph method that uses red and blue glasses, and an interference filter. It also includes an interference filter system that separates the RGB three primary colors divided into six channels. The linear polarizing filter and the circular polarizing filter can be classified according to the nature of the filter. However, in the case of the linear polarizing filter, when the viewing posture collapses, the left and right images are not well separated, and the video breaks down.

  On the other hand, the active method is a method in which the left and right images are displayed alternately and separated by controlling the shutter goggles such as liquid crystal according to the timing. Since the original image is not subjected to polarization processing, it is like a linear polarization filter. There is no video failure, but it is heavier and more expensive than filter glasses. Even in the home, it is possible to enjoy 3D video using such a video separation method.

  Further, in the projector device, in order to solve the fact that the projected image is inclined in the rotation direction due to the inclination of the installation surface, in Patent Document 1, the image is corrected in the rotation direction with respect to the screen in accordance with the inclination of the installation surface. Techniques to do this are disclosed.

JP 2003-324669 (published on November 14, 2003)

  However, in the technique described in Patent Document 1, when the viewer's viewpoint is greatly inclined, the display image cannot be corrected in the rotation direction in accordance with the inclination of the viewer's viewpoint. For example, as shown in FIG. It can be used comfortably in a theater that is supposed to be viewed in a chair, but when viewing at home in a relaxed posture as shown in FIG. However, it has a problem that it is greatly inclined in the rotational direction.

  Further, when the image to be displayed is a 3D image, the left line of sight 1 and the right line of sight 2 are positioned substantially side by side along the original viewing posture as shown in FIG. 8A (this position is referred to as a reference axis). ) And right and left parallax are given as intended and stereoscopic images are displayed well, but the viewer's viewpoint is tilted, and the left gaze 3 and right gaze 4 are in their original positions (reference axis) as shown in FIG. When the angle θ is tilted from the angle, there is a problem that the image is broken due to the property of the linear polarization filter, or the left and right parallax cannot be recognized well and the image is not seen stereoscopically.

  Therefore, in order to solve the above-described problems, the present invention has an object to provide an image display system, an apparatus, and a method for displaying an image that is tilted according to the tilt of the viewer's viewpoint.

  An image display apparatus that implements the present invention includes an inclination amount detection unit that detects the amount of inclination of a viewpoint, an inclination amount determination unit that determines whether to rotate and correct an image from the detected inclination amount, and the inclination amount determination unit When it is determined that the rotation correction is performed, a video rotation unit that rotates the video based on the detected inclination value and a video display unit that displays at least the rotation-corrected video are provided.

  In addition, an inclination detection apparatus that implements the present invention includes an inclination amount detection unit that detects an inclination amount of a viewpoint, an inclination amount determination unit that determines whether to rotate and correct an image from the detected inclination amount, and the inclination amount And a tilt amount transmitting unit that transmits the detected tilt amount to the video display device when it is determined that the rotation correction is performed by the determination unit.

  A video display system that implements the present invention is a video display system including a tilt detection device and a video display device, wherein the tilt detection device includes a tilt amount detection unit that detects a tilt amount of a viewpoint, and a detected tilt. A tilt amount transmitting unit that transmits a tilt amount to the video display device, wherein the video display device receives a tilt amount that is transmitted, and whether or not to rotationally correct the video from the received tilt amount. A tilt amount determining unit that determines whether the tilt amount is determined to be rotationally corrected by the tilt amount determining unit, a video rotating unit that corrects the rotation of the video from the received tilt value, and a video display unit that displays at least the rotationally corrected video. It is characterized by providing.

  Another video display system that implements the present invention is a video display system including a tilt detection device and a video display device, the tilt detection device including a tilt amount detection unit that detects a tilt amount of a viewpoint, and a detection An inclination amount determination unit that determines whether or not the image is to be rotationally corrected from the tilt amount, and an inclination amount transmission unit that transmits the detected inclination amount to the video display device when the inclination amount determination unit determines to perform rotation correction. The video display device includes a tilt amount receiving unit that receives the transmitted tilt amount, a video rotation unit that corrects the rotation of the video from the received tilt amount, and a video display unit that displays the rotation corrected video. It is characterized by providing.

  In addition, an image display method for displaying a tilted image to be displayed, which realizes the present invention, has been transmitted, a tilt amount detecting step for detecting the tilt amount of the viewpoint, and a tilt amount transmitting step for transmitting the detected tilt amount. The received tilt amount, the tilt amount receiving step for receiving the tilt amount, the tilt amount determining step for determining whether or not to rotate the image based on the received tilt amount, and the tilt received when it is determined that the rotation correction is performed in the tilt amount determining step. A video rotation step for rotationally correcting the video based on the value, and a video display step for displaying at least the rotationally corrected video are provided.

  In addition, an image display method for displaying an image to be tilted that realizes the present invention includes a tilt amount detection step for detecting the tilt amount of the viewpoint, and determines whether or not the video is to be rotationally corrected from the detected tilt amount. A tilt amount determining step; a tilt amount transmitting step for transmitting the detected tilt amount when it is determined that rotation correction is performed in the tilt amount determining step; a tilt amount receiving step for receiving the transmitted tilt amount; and a received tilt A video rotation step for rotationally correcting the video from the amount, and a video display step for displaying the rotationally corrected video are provided.

  According to the present invention, video can be displayed so that the viewer does not feel uncomfortable by rotating the video in accordance with the inclination of the viewer's viewpoint regardless of the viewing posture of the viewer. Is possible. Furthermore, in 3D video display, by rotating the video in accordance with the tilt of the viewer's viewpoint, it is possible to display the 3D video without impairing the stereoscopic effect.

Functional block diagram of the video display system of the present invention Configuration block diagram of video display device of the present invention Image of rotating display Functional block diagram of the video display system of the present invention Configuration block diagram of video display device of the present invention Example of tilt detection apparatus of the present invention in 3D video display Configuration block diagram of video display device of the present invention Example of viewing posture and reference axis Example of viewing posture and reference axis Example of tilt detector and reference axis

  The video display system according to the present invention transmits the tilt amount of the viewer's viewpoint (how much the viewer's viewpoint is tilted with respect to the reference axis) detected at regular intervals by the tilt detection device to the video display device. In the video display device, the video is rotated and corrected using the received tilt amount and displayed. Embodiments of the present invention will be described below with reference to the drawings.

Embodiment 1
As shown in FIG. 1, the video display system according to the present invention includes a tilt detection device 101 and a video display device 102. The tilt detection device 101 includes at least a tilt amount detection unit 103 and a tilt amount transmission unit 104. The video display device 102 includes at least a tilt amount receiving unit 105, a tilt amount determining unit 106, a video rotating unit 107, and a video display unit 108.

  The tilt detection device 101 is a device installed on the viewer side, such as glasses or a headset, or a viewer's gaze point detection device installed on a television or screen, and the tilt amount detection unit 103 includes: The amount of tilt is detected at regular time intervals using a tilt sensor of a device installed on the viewer side, a camera of a gazing point detection device, or the like. For example, when the viewer's posture is FIG. 8B and the tilt detection apparatus is FIG. 8C, the tilt amount is an angle θ. It should be noted that there may be two or more axes for detecting the amount of inclination in order to improve accuracy.

  The tilt amount transmitting unit 104 transmits the tilt amount detected by the tilt amount detecting unit 103 to the video display device 102 such as a projector or a television. The transmission method is not limited to wireless communication such as Bluetooth (registered trademark) but may be transmitted by wired connection, and is not particularly limited.

  When the tilt amount receiving unit 105 of the video display device 102 receives the tilt amount, the tilt amount determining unit 106 rotates a video signal stored in a memory (not shown) such as a temporary buffer or a storage medium from a reference axis. It is determined from the amount of tilt whether to display the image with correction or without correcting the rotation. This determination criterion may be whether the tilt amount is 0 or not, and is tilted by a certain amount (for example, in the case of 3D video display, the tilt amount is small and the amount in which the stereoscopic effect of 3D video can be recognized). It may be whether or not.

  If the tilt amount determination unit 106 determines that the rotation is corrected and displayed, the video rotation unit 107 electrically rotates the video based on the received tilt amount. Then, the video display unit 108 displays the rotated video.

  On the other hand, when it is determined by the tilt amount determination unit 106 that the image is displayed without rotation correction, the image display unit 108 displays the image stored in the memory as it is without rotation correction.

  FIG. 2 illustrates the configuration of the video display apparatus 102 of the present embodiment. The wireless / wired receiver 211 receives the tilt value, and the video signal is sent to the image processing engine 213 through the video signal front end 212. The image processing engine 213 rotates the video as necessary and displays the video on the display device 217. The image processing engine 213 includes an image processing block 215 that adjusts the color and brightness of the video, and a screen rotation block 216 that performs a process of electrically rotating the video.

  The circuit of the screen rotation block 216 takes the input video into the frame buffer memory, uses the inclination value θ as an adjustment parameter, and sets the coordinates of the input signal and the output signal on the frame buffer for each pixel of the video signal as 1: This is a circuit for setting a conversion map for one conversion and outputting the video on the frame buffer converted based on the map as a video. In the circuit of the screen rotation block 216, several types of conversion maps are prepared in advance, and an appropriate conversion map for the inclination value θ is reset in the circuit of the screen rotation block every time the inclination value θ changes. As a result, it is possible to output a video signal rotated according to any inclination value θ.

  Note that, when the video signal is a 3D video signal, the image processing engine 213 further includes an unpacking block 214 that performs an unpacking process for separating the 3D video into two right and left 2D videos, as shown in FIG. . The microcomputer 218 controls these processes.

  As shown in FIG. 3, the image 341 after the rotation processing is similar to the display area 342 of the display device 217 or is a rectangle having an aspect ratio designated by the user, and is inscribed in the display area 342. Is desirable. The process of reducing the video for inscribed in the display area is performed by one of the image processing engines in FIG.

  Note that if a display device having a sufficiently large output resolution in the display area 342 is used in advance, reduction of the image can be suppressed. For example, if 4K2K resolution (4096 × 2048) is used for the display device and full HD (1920 × 1080) is used for the display, the screen can be rotated without reducing the image at all. In addition, in a display device that does not need to set a strict boundary in the display area, such as a projector, it is not necessary to reduce the screen, the image deterioration is minimized, and the user can rotate the screen without feeling uncomfortable.

[Embodiment 2]
In the second embodiment, another embodiment of the video display system according to the present invention will be described. In this embodiment, the processing in the tilt amount determination unit is performed by the tilt detection device instead of the video display device. As shown in FIG. 4, this video display system includes an inclination detection device 401 and an image display device 402. The inclination detection device 401 includes at least an inclination amount detection unit 403, an inclination amount determination unit 406, and an inclination amount transmission unit. The video display device 402 includes at least a tilt amount receiving unit 405, a video rotating unit 407, and a video display unit 408.

  An inclination amount determination unit 406 of the inclination detection device 401 determines, based on the inclination amount detected by the inclination amount detection unit 403, whether the video signal is displayed with rotation correction from the reference axis or displayed without rotation correction. .

  If the tilt amount determination unit 406 determines that the rotation is corrected and displayed, the tilt amount transmission unit 404 transmits the tilt amount to the video display device 402. The video rotation unit 407 of the video display device 402 uses the tilt amount received by the tilt amount reception unit 405 to rotationally correct the video.

  On the other hand, if the tilt amount determination unit 406 determines that the display is performed without rotation correction, the tilt amount is not transmitted to the video display device 402. In addition, the description of the same part as the process of Embodiment 1 is omitted.

[Embodiment 3]
In the video display devices according to the first and second embodiments, the mode in which the video is electrically rotated has been described. In the present embodiment, the mode in which the video is mechanically rotated will be described with reference to FIG. The image processing engine 513 does not perform the process of rotating the image, and the image is tilted and displayed by directly rotating a display device such as a liquid crystal panel or a plasma panel by the servo motor 519. For example, when the display device is divided into a display portion and a stand portion such as a television or personal computer monitor, the display screen can be rotated by incorporating a servo motor at the joint portion. When the display device is a projector, the image is rotated and projected by rotating the projector body, or the image is rotated and projected by rotating the projection optical system part without rotating the projector body. Can be realized. In addition, description of the same part as the process of Embodiment 1 or Embodiment 2 was abbreviate | omitted.

[Embodiment 4]
In the fourth embodiment, a case where any one of the tilt detection apparatuses described in the first to third embodiments is liquid crystal shutter glasses for viewing 3D video will be described with reference to FIG. As shown in FIG. 6, the liquid crystal shutter glasses include at least an inclination sensor 622, a wireless / wired transmitter 623, and a microcomputer 618, read the amount of inclination using the inclination sensor 622, and use the wireless / wired transmitter 623 to display an image display device. Send to. These processes are controlled by the microcomputer 618.

  Note that the IR light receiving unit 621 and the liquid crystal shutters 624 and 625 are for viewing 3D video in an active manner. The IR light receiving unit uses a video source (such as a PC or a Blu-ray (registered trademark) player) or a display device. Upon receipt of the field switching pulse signal, the liquid crystal shutter (L) 624 and the liquid crystal shutter (R) 625 are alternately opened and closed based on the timing.

  Also, in the video rotation unit of the video display device that displays 3D video, the left and right video signals are rotated together according to the tilt amount, and the right video and the left video are rotationally corrected by the same tilt amount in the video display unit. An image is displayed.

  In the above description, the display of 3D video by the active method has been described. However, the display of 3D video by the passive method can also be supported.

[Embodiment 5]
In the fifth embodiment, in the video display method according to any one of the first to fourth embodiments, two viewers A and B are watching a video, and an inclination detection device is provided for each viewer. A form in the case of providing will be described.

  The tilt amount receiving unit of the video display device according to the present embodiment can determine which viewer's viewpoint is tilted. For example, a plurality of tilt amounts corresponding to each tilt detection device. A process is performed to determine which inclination detecting device is provided with a receiving unit or which transmitted inclination amount is transmitted from.

  In the video display device of this embodiment, the video viewed by the viewer A and the video viewed by the viewer B are separately controlled. As shown by the image processing engine 713 in FIG. Then, after the video for viewer A and the video for viewer B are separated, the image processing blocks 715 and 731 and the screen rotation blocks 716 and 732 perform processing according to the inclination value for each viewer. Then, finally, in the screen composition block 733, two images viewed by two people are synthesized and displayed.

  In addition, a polarizing plate is used so that when the synthesized video is displayed on the video display device, the viewer A views the video viewed by the viewer A, and the viewer B views the video viewed by the viewer B. Or by synchronizing with viewer A, viewer B, viewer A, etc. by infrared communication or the like, the video can be separated. The specifications of the liquid crystal shutter glasses and the like in the person's original are appropriately handled.

  As described above, the present invention can be adopted even when two or more people view. In addition, description of the same part as the process of any one of Embodiment 1 to Embodiment 4 was abbreviate | omitted.

  Needless to say, the embodiments can be appropriately combined. For example, when Embodiment 4 and Embodiment 5 are combined, two or more viewers can each view a stereoscopic video.

  The present invention can be applied to a display device having a function of tilting and displaying a video in accordance with the tilt of the viewer's viewpoint, a method of tilting and displaying a video, and a system for realizing the method.

101, 401 Tilt detection device 102, 402 Video display device 103, 403 Tilt amount detection unit 104, 404 Tilt amount transmission unit 105, 405 Tilt amount receiving unit 106, 406 Tilt amount determination unit 107, 407 Video rotation unit 108, 408 Video Display unit 211, 511, 711 Wireless / wired receiver 212, 512, 712 Video signal front end 213, 513, 713 Image processing engine 214, 514, 714 Unpacking block 215, 515, 715, 731 Image processing block 216, 716, 732 Screen rotation block 217, 517, 717 Display device 218, 518, 618, 718 Microcomputer 519 Servo motor 733 Screen composition block 621 IR light receiving unit 622 Tilt sensor 623 Wireless / wired transmitter 624, 6 5 image 342 display area after the liquid crystal shutter 341 rotates process

Claims (6)

A tilt amount detection unit for detecting the tilt amount of the viewpoint;
A tilt amount discriminating unit that determines whether or not to rotate the image based on the detected tilt amount;
An image rotation unit for correcting rotation of the image from the detected inclination value when it is determined that the rotation is corrected by the inclination amount determination unit;
An image display device comprising: an image display unit that displays at least a rotation-corrected image. A tilt amount detection unit for detecting the tilt amount of the viewpoint;
A tilt amount discriminating unit that determines whether or not to rotate the image based on the detected tilt amount;
An inclination detection apparatus comprising: an inclination amount transmission unit that transmits the detected inclination amount to the video display device when it is determined that the rotation is corrected by the inclination amount determination unit. A video display system comprising a tilt detection device and a video display device,
The tilt detection device
A tilt amount detection unit for detecting the tilt amount of the viewpoint;
An inclination amount transmitting unit that transmits the detected inclination amount to the video display device;
The video display device
A tilt amount receiving unit for receiving the transmitted tilt amount;
A tilt amount discriminating unit for determining whether to rotationally correct the image from the received tilt amount;
An image rotation unit for correcting rotation of the image from the received inclination value when it is determined that the rotation is corrected by the inclination amount determination unit;
An image display system comprising: an image display unit that displays at least a rotation-corrected image. A video display system comprising a tilt detection device and a video display device,
The tilt detection device
A tilt amount detection unit for detecting the tilt amount of the viewpoint;
A tilt amount discriminating unit that determines whether or not to rotate the image based on the detected tilt amount;
A tilt amount transmitting unit that transmits the detected tilt amount to the video display device when the tilt amount determining unit determines to perform rotation correction;
The video display device
A tilt amount receiving unit for receiving the transmitted tilt amount;
An image rotation unit for rotating and correcting the image from the received tilt amount;
An image display system comprising: an image display unit for displaying the rotation-corrected image. A video display method for tilting and displaying a video to be displayed,
A tilt amount detecting step for detecting the tilt amount of the viewpoint;
An inclination amount transmission step for transmitting the detected inclination amount;
An inclination amount receiving step for receiving the transmitted inclination amount;
A tilt amount determining step for determining whether to rotationally correct the image from the received tilt amount;
An image rotation step for correcting rotation of the image from the received inclination value when it is determined that the rotation correction is performed in the inclination amount determination step;
And a video display step for displaying at least the rotation-corrected video. A video display method for tilting and displaying a video to be displayed,
A tilt amount detecting step for detecting the tilt amount of the viewpoint;
A tilt amount determining step for determining whether to rotate the image based on the detected tilt amount;
An inclination amount transmitting step for transmitting the detected inclination amount when it is determined that the rotation is corrected in the inclination amount determining step;
An inclination amount receiving step for receiving the transmitted inclination amount;
An image rotation step for correcting rotation of the image from the received tilt amount;
And a video display step for displaying the rotation-corrected video.