JPH0618815A - Image reproducing device - Google Patents

Abstract

PURPOSE:To easily obtain adjustment accuracy and to shorten the time required for adjustment by controlling the displacement of a display position in an image display area smaller than the maximum display area of a pair of display means to adjust a deviation of each image. CONSTITUTION:A right and a left stereoscopic images are displayed on a pair of displays corresponding to the right and left eyes, respectively. A pair of displays as display means has an image display area IA smaller than time maximum area DA in the maximum display area DA, respectively, and the display area IA is adjusted by means of an adjusting part for display area as a control means for displacement of display controlling the display position in the image display area IA according to the deviated amount of displayed respective images. Consequently, the adjustment is performed by directly observing the stereoscopic image displayed in the display area IA and the accuracy is improved more compared with the conventional mechanical adjustment. Thus, the adjusting time required for ensuring adjustment, accuracy is shortened.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a video reproducing apparatus which is arranged at a front position corresponding to both the left and right eyes and displays left and right images for stereoscopic viewing.

[0002]

2. Description of the Related Art Recently, a so-called artificial reality (virtual reality) virtual reality device that constitutes an artificial world through a man-machine interface and gives the user a sense of reality to actually experience the world as a real world. Are being commercialized in large numbers. As one of the virtual reality devices, there is a video reproducing device which is disposed at a front position corresponding to the left and right eyes and displays left and right images for stereoscopic viewing.

To briefly explain the principle of this video reproducing apparatus, as shown in FIGS. 8A and 8B, a left-eye display area D _LA and a right-eye display area D _RA are respectively provided on the left and right sides. provided, image B _L of the respective left and right stereoscopic displays a B _R. When the user visually recognizes this displayed image with both eyes,
The principle is that the binocular stereoscopic image shown in FIG. 8C can be displayed in the display area D _A.

[0004]

By the way, in the case of performing binocular stereoscopic vision, a stereoscopic vision may not be possible due to a shift in the image due to the influence of the positional relationship of the display and the visual characteristics of the individual. For example, when the display areas D _LA and D _{RA of the} video reproducing apparatus shown in FIGS. 9A and 9B are displaced from each other by, for example, M in the vertical direction, this displacement causes the binocular stereoscopic images to be doubly displaced. I can see it.

This video reproducing apparatus uses a frame 31 which is larger than the display unit 30 in order to improve the displacement of the stereoscopic image for both eyes. The display unit 30 includes the frame 3
Screw holes 32a to 33d through holes 33a to 33d
2d is screwed and fixed to the frame 31, and the screw 3
The display unit 30 is fixed from four sides by the tips of 2a to 32d. Since the displacement of the binocular stereoscopic image is caused by the displacement at this fixed position, for example, the vertical displacement shown in FIG. 9 corresponds to the position of the display provided for the left eye with the screw 32a. 32b was moved downward and adjusted.

[0006] In such physical binocular stereoscopic image shift adjustment, it is necessary to adjust the setting in each direction using a driver or the like, which has been fixed once. This readjustment is a complicated operation for the user. Also, with this adjustment method,
It is not possible to make adjustments while looking directly at the stereoscopic image displayed in the display area. For this reason, it is necessary to confirm whether or not the screen of the stereoscopic image is displaced after adjusting the movement of the display unit with the screw based on a certain degree of prediction. You can't get the precision you want. As described above, it takes too much time for the adjustment to ensure a certain accuracy.

Therefore, the present invention has been made in view of such circumstances, and an object of the present invention is to provide a video reproducing apparatus in which adjustment accuracy can be easily obtained and the time required for adjustment can be shortened. And

[0008]

A video reproducing apparatus according to the present invention is a video reproducing apparatus for displaying left and right images for stereoscopic viewing on a pair of display means arranged corresponding to the left and right eyes, respectively. A display image area smaller than the maximum displayable area is provided in the maximum displayable area on each of the pair of display means, and the display position of the display image area is controlled according to the shift amount of each displayed image. By including the display displacement control means, the above-mentioned problem is solved.

Here, the display image area is adjusted by the display displacement control means so that the display position is moved within the maximum displayable area according to the setting so that the stereoscopic view can be visually recognized without deviation.

[0010]

The video reproducing apparatus of the present invention uses the display displacement control means in the video reproducing apparatus for displaying the left and right stereoscopic images respectively on the pair of display means arranged corresponding to the left and right eyes. The displacement amount of each image is adjusted by controlling the displacement of the display position of the display image area smaller than the maximum displayable area in the maximum displayable area on each of the pair of display means.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of a video reproducing apparatus according to the present invention will be described below with reference to the drawings.

The video reproducing apparatus of the present invention is an apparatus for displaying left and right images for stereoscopic viewing on a pair of displays arranged corresponding to both the left and right eyes. A case where the present invention is applied to a virtual reality device will be described as an example of the video reproducing device.

[0013] Figure 1 is a schematic block diagram of a video playback apparatus, the display image I _A 2 to be displayed in the display area D _A
The relationship of each area of is shown. With reference to FIGS. 1 and 2, the image reproducing apparatus has a small display image area I _A than the maximum area D _A, respectively on the display 12 displays the maximum possible area D _A is a pair of display means , The display image area I _A according to the shift amount of each displayed image
The display area I _A is adjusted by the display area adjusting unit 10 which is the display displacement control means for controlling the display position of.

As the display 12, a sufficiently large display is prepared for an image to be displayed. The display area adjusting unit 10 specifies the position of mapping the display image I _A within the display area D _A shown in FIG.
a and a display processing device 10b that shifts the display processing according to an input from the position input device 10a.

The operation of the schematic block shown in FIG. 1 will be described. The display area adjusting section 10 supplies the input image output from the input image output apparatus 11 to the display processing apparatus 10b. The display 12 displays this image as shown in FIG. 2 according to the mapping. This mapping is performed by the input data supplied from the position input device 10a. This position input device 1
For 0a, a pointing device such as a keyboard, a joy stick, or a mouse can be used.

In order to move the image I _A to be displayed, the display processing device 10b in the video reproducing device sets the space of the coordinate system for the display 12 shown in FIG. In this coordinate space, the maximum display area D _A of the display 12 is set in the directions of the X _d axis and the Y _d axis, and 0 to x _dMAX and 0 to _y respectively.
_dMAX is divided. Similarly, as the coordinate system of the input image, the display area of the display image I _A is also divided into 0-x _iMAX and 0-y _iMAX by setting the X _i axis and Y _i axis directions shown in FIG.

When the input image I _A is mapped with the coordinates (X ₀ , Y ₀ ) on the display 12 as the origin, the mapping diagram shown in FIG. 5 is obtained. Each coordinate system in this case has a relationship of x _d = x _i + X ₀ (1) y _d = y _i + Y ₀ (2).

The reference origin (X ₀ , Y ₀ ) corresponds to the display position of the display image area. By changing the display position, the video reproducing apparatus can display the display 12
Map the input image to any one of the above.

Here, the origin (X ₀ , Y ₀ ) is actually changed by the input data from the position input device 10a. When moving in the “right” direction by the displacement amount ΔX input via the position input device 10a, the X coordinate is obtained by adding X ₀ to the displacement amount ΔX, and X ₀ ← X ₀ + ΔX (3) X coordinate value Increase the value of X ₀ .

Further, when moving only the input displacement amount ΔX in the "left" direction, the X-coordinate by subtracting the displacement amount ΔX from _{X 0, X 0 ← X 0} -ΔX (4) a value X ₀ obtained by subtracting Is rewritten as

When the displacement amount ΔY inputted through the position input device 10a is moved in the "up" direction, the Y coordinate is Y.
₀ is added to the displacement amount ΔY, and Y ₀ ← Y ₀ + ΔY (5) The value of Y coordinate Y ₀ is increased.

Further, when moving only the input displacement amount ΔY "down" direction, Y coordinates by subtracting the displacement amount ΔY from _{Y 0, Y 0 ← Y 0} -ΔY (6) the value Y ₀ obtained by subtracting Is rewritten as

From these equations (3) to (6), the origin (X
_The mapping position is changed by changing ( ₀ , Y ₀ ). Actually, the display area D _LA for the left eye shown in FIG.
The left and right display image areas I _LA to be displayed on the screen are moved downward by M to display the display image areas I _LA and I _{RA as} shown in FIG. 6B.
And can be set in the same position.

With this configuration, the user can be provided with the binocular stereoscopic image B shown in FIG. 8 (c). The displacement of this position can be adjusted by mounting the image reproducing device when the adjustment is necessary.
The amount of movement can be adjusted while watching the display 12 via a.

The virtual reality device shown in FIG. 7 is an external view to which the video reproducing device of the present invention is applied. However, the position input device 10a is not shown. The virtual reality device connects the respective parts centering on the ear pad parts 20a and 20b to be worn at the positions of both ears. Stay portions 25a, 25
The b and the hair band 24 are movable.
By moving the hair band part 24 to the back of the head, the weight of the eye mask parts 21a and 21b for both eyes of the video reproducing apparatus is balanced.

Further, the stay portion 25 including the eye mask portion 21 is constructed so that it can be stably fixed at the horizontal position of the head which coincides with the line-of-sight direction of both eyes shown in FIG. In the virtual reality device, for example, the optical fiber cable 26 is connected to the ear pad section 20b. The optical fiber cable 26 is connected to the signal processing unit 27. Various signal processing units necessary for reproducing a video signal are separately provided in the eye mask unit 21. By adopting this separation structure, the weight could be reduced. Data and signals can be transmitted by using the optical fiber cable 26 and radio communication by radio waves together to reduce the load.

With this configuration, it is possible to make an adjustment while directly watching the stereoscopic image displayed in the display area, and it is possible to improve the accuracy as compared with the conventional mechanical adjustment. . Therefore, the adjustment time required to ensure the adjustment accuracy can be shortened.

[0028]

As is apparent from the above description, according to the video reproducing apparatus of the present invention, the left and right images for stereoscopic vision are respectively displayed on the pair of display means arranged corresponding to the left and right eyes. In the video reproducing apparatus for displaying, a display image area smaller than the maximum displayable area is provided in the maximum displayable area on each of the pair of display means, and the display image is displayed according to the deviation amount of each displayed image. By having the display displacement control means for controlling the display position of the area, it is possible to make adjustments directly while looking at the stereoscopic image displayed in the display area, which is more accurate than the conventional mechanical adjustment. You will be able to improve. Therefore, the adjustment time required to ensure the adjustment accuracy can be shortened.

[Brief description of drawings]

FIG. 1 is a block diagram showing a schematic block configuration of an embodiment of a video reproducing apparatus of the present invention.

FIG. 2 is a schematic diagram showing a screen displayed by the block configuration shown in FIG.

FIG. 3 is a schematic diagram illustrating setting of a coordinate system space for a display.

FIG. 4 is a schematic diagram for explaining setting of a coordinate system for a display area of an image.

FIG. 5 is a schematic diagram for explaining a relationship of an image display area with respect to an origin in a maximum display area of a display.

FIG. 6 illustrates a state in which the display image area displayed in the display area for the left eye shown in (a) is moved downward and the left and right display image areas are adjusted to the same position as shown in (b). It is a schematic diagram.

FIG. 7 is an external view of a virtual reality device to which the video reproducing device of the present invention is applied.

8A and 8B are reproduced by supplying and displaying left and right images for stereoscopic viewing on a pair of displays arranged corresponding to the left and right eyes shown in FIGS. It is a figure which shows the binocular stereoscopic vision image made.

9 (a) and 9 (b) show shifts caused in a pair of displays arranged corresponding to the left and right eyes,
FIG. 7C is a diagram showing a binocular stereoscopic image that is displaced due to the generated displacement.

FIG. 10 is a diagram showing a schematic adjusting mechanism for explaining mechanical display area adjustment of a conventional video reproducing apparatus.

[Explanation of symbols]

 10: Display area adjusting unit 10a: Position input device 10b: Display processing device 11: Input image output device 12 ... Display

Continued Front Page (72) Inventor Joji Fukuda 6-735 Kitashinagawa, Shinagawa-ku, Tokyo Sony Corporation

Claims (1)

[Claims] 1. A video reproducing apparatus for displaying left and right images for stereoscopic vision respectively on a pair of display means arranged corresponding to the left and right eyes, within a maximum area displayable on the pair of display means. A display image area smaller than the maximum displayable area, and display displacement control means for controlling the display position of the display image area according to the amount of displacement of each image displayed. Video playback device.