JPH1026740A - Stereoscopic image reproducing method and device therefor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To overlappingly see a stereoscopic image in a two-dimensional image by simultaneously seeing the two-dimensional image to be displayed on the front surface of an optical control panel and the stereoscopic image while observing an image display panel through the optical control panel. SOLUTION: The stereoscopic image reproducer 10 has an image display panel 11 on which many small images are displayed, an optical control panel 12 arranged on the front surface of the image display panel 11 and a back light 13 being arranged at the rear side of the image display panel 11 and lighting the panel 11 from the rear side of the panel 11. Then, many small images are displayed on the display panel 11. This panel is made to be such an image display panel that these small images are formed by photographing inverted images whose visual points are gradually different crosswise while using an optical control panel (pinhole panel) actually having many minute light transmission parts and a photographing paper and many erected small images are displayed are inverting the images with the different pinhole panel arranged on the front surface of the image display panel.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and an apparatus for reproducing a three-dimensional image which can be displayed more effectively with a large depth.

[0002]

2. Description of the Related Art Conventionally, as a method of recording and reproducing a three-dimensional image of an object by using a small number of light transmitting portions such as pinholes, there is a three-dimensional image recording and reproducing method proposed by Lippman. By applying the principle, the present applicant has previously proposed a stereoscopic image reproducing apparatus, which is disclosed in Japanese Patent Application Laid-Open No. Hei 6-133340. The three-dimensional image reproducing device disclosed in Japanese Patent Application Laid-Open No. Hei 6-133340 has an image panel in which a large number of small images whose viewpoints are changed little by little are arranged in parallel vertically and horizontally at small intervals. And a light control panel arranged at intervals.The light control panel is formed with a large number of minute light-transmitting portions corresponding to the small images, and the light control panel is provided from the front of the light control panel. When the image panel is observed through the camera, a stereoscopic image composed of a large number of small images can be observed.

[0003]

However, in the three-dimensional image reproducing apparatus described in the above-mentioned publication, the three-dimensional image can be visually recognized, but since the pixels forming the three-dimensional image correspond to each minute light transmitting portion, the three-dimensional image Tended to be coarse. Therefore, when trying to express a three-dimensional image delicately, an extremely large number of small images and corresponding small light transmitting portions are required, and there has been a problem that its manufacture is difficult. However, when trying to display specific objects such as animals and flowers,
Although there is a sense of realism when there are surrounding scenery and objects, there are many cases where surrounding scenery and objects do not require a three-dimensional effect,
In some cases, the display object may be raised when the surrounding scenery and the object have no three-dimensional effect. The present invention has been made in view of such circumstances, and a method and apparatus for reproducing a three-dimensional image that can easily reproduce a three-dimensional image in a state in which surrounding scenery and an object are inserted, and that can also only raise a three-dimensional image. The purpose is to provide.

[0004]

According to the present invention, there is provided a semiconductor device comprising:
The described stereoscopic image reproduction method displays a large number of small images on the image display panel, each displaying an object having a slightly different viewing angle,
A scattered light emitted from the image display panel is reproduced through an opaque light control panel that is disposed in front of the image display panel and has a large number of small light-transmitting portions corresponding to the small images. A reproducing method, wherein a two-dimensional image is displayed on a front surface of the light control panel. A method of reproducing a three-dimensional image according to claim 2, wherein the three-dimensional image reproduced through the light control panel is formed on a front side of the light control panel, and the two-dimensional image is a background. It has become. The stereoscopic image reproducing method according to claim 3, wherein the stereoscopic image reproduced through the light control panel is formed on the back side of the light control panel, and the two-dimensional image is displayed in the foreground. It has become. The three-dimensional image reproducing device according to claim 4 is arranged close to an image display panel on which a large number of small images displaying objects whose viewing angles are gradually different are displayed, and a front surface of the image display panel. A small light transmitting portion corresponding to each of the small images, a light control panel on which a two-dimensional image is displayed on the front surface thereof, and a lighting device for the image display panel.

In the three-dimensional image reproducing method and the three-dimensional image reproducing apparatus according to the fourth aspect, the three-dimensional image is displayed by viewing each small image displayed on the image display panel via the light control panel. An image can be observed, but at this time, a two-dimensional image of the front surface of the light control panel, that is, a two-dimensional image, is obtained, which is the background or foreground. In this case, the two-dimensional image can clearly describe the image as compared with each small image, so that a relatively clear image can be seen. In particular, in the three-dimensional image reproducing method according to the second aspect, the two-dimensional image can be used as a background because the three-dimensional image appears to jump out to the front side of the light control panel. In the method of reproducing a three-dimensional image according to the third aspect, the three-dimensional image can be seen on the back side of the light control panel.
Two-dimensional images can be used as foreground and surrounding objects.
In the method and apparatus for reproducing a three-dimensional image according to the present invention, the image display panel includes, for example, printing, photographic film, a photosensitive material such as photographic paper or a liquid crystal panel, a CRT, a plasma display panel, an LED panel, and the like. This is a device that displays a small image of an object recorded by optical or electrical means. Further, the light control panel refers to a light-impermeable panel in which a large number of minute light-transmitting portions are formed corresponding to each small image of the image display panel, and may be made of a metal plate, a plastic plate, or the like. However, depending on the case, a liquid crystal panel or a device in which a minute light transmitting portion is formed imagewise may be used. Further, the minute light transmitting portion is not necessarily limited to the pinhole, and may be a member into which a lens or the like is appropriately inserted.

[0006]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, embodiments of the present invention will be described with reference to the accompanying drawings to provide an understanding of the present invention. Here, FIG. 1 is a perspective view of a stereoscopic image reproducing apparatus according to an embodiment of the present invention, FIG. 2 is an explanatory diagram of the same, and FIG. 3 is a detailed explanatory diagram of a recording and reproducing method of a stereoscopic image.

As shown in FIGS. 1 and 2, a stereoscopic image reproducing apparatus 10 according to one embodiment of the present invention includes an image display panel 11 on which a large number of small images are described, and an image display panel 11.
And a backlight 13 which is an example of a lighting device which is disposed on the back side of the image display panel 11 and illuminates the image display panel 11 from the back side.
And Hereinafter, these will be described in detail.

[0008] A large number of small images are displayed on the image display panel 11 as described below. For example, as described in JP-A-6-133340, this small image is formed vertically and horizontally by using a light control panel (pinhole panel) having a large number of minute light transmitting portions and a printing paper. An image display panel in which a number of small upright images are displayed by gradually capturing inverted small images having different viewpoints and inverting the inverted small images through another pinhole panel disposed on the front surface thereof may be used. Further, as described in JP-A-6-78339, a television camera is mounted on an XY stage and gradually moved vertically and horizontally to obtain information on small images having different viewpoint positions and display the information of the small images on an image. The information may be displayed on a panel (image reproducing unit). Note that Japanese Patent Application Laid-Open No. 6-133340
In the images obtained by the recording method described in Japanese Patent Application Laid-Open No. 6-78339 and Japanese Patent Application Laid-Open No. 6-78339, the image center of each small image and the straight line connecting the corresponding minute light-transmitting portions are parallel to each other. When an image displayed on the display panel 11 is observed through the light control panel 12, a three-dimensional image is seen behind the light control panel 12.

In FIG. 3, when each small image on the image display panel 11 is viewed through the light control panel 12, each small image is displayed so that a stereoscopic image is formed on the front side of the light control panel 12. A method of forming the image display panel 11 will be described. As shown in the figure, an object 14 displayed by a triangle ABC is used to form an imaging light control panel 1 in which minute light transmitting portions 15 are formed at predetermined intervals.
6 on the recording panel 17. Here, a straight line m connecting the center of each inverted small image displayed on the recording panel 17 and the corresponding minute light transmitting portion 15 is a point F (in this example, A and A in this example) on the front surface of the imaging light control panel 16. The position of the minute light transmitting portion 15 is determined so as to converge at (match). When a light-shielding panel 19 having an opening 18 through which the object can be seen from the light control panel 16 for imaging is arranged near the object 14, the opening that forms an image on the recording panel 17 via each minute light-transmitting section 15 is provided. The intervals between the minute light transmitting portions 15 are determined so that the 18 small images do not overlap each other. This is indicated by thin lines p and q.

By the above operation, an inverted small image of the object 14 is recorded on the recording panel 17. If this is viewed through the light control panel 12 as it is, the stereoscopic image will be an inverted image, so the image is displayed using the inversion light control panel 21 provided with the minute light transmitting portion 20 corresponding to each inverted small image. An erect small image having a slightly different viewpoint position is recorded on the panel 11. The image display panel 11 on which a large number of small images are displayed in this manner is observed via the light control panel 12 having the small light transmitting portion 22 corresponding to each small image, and the light control panel 1 is displayed.
A three-dimensional image 23 composed of A ₁ , B ₁ , and C ₁ can be observed on the front side of 2. The backlight 13 disposed on the back of the image display panel 11 is a surface light source using a fluorescent lamp or an incandescent lamp as a light source. By turning on the light source, the scattered light of each small image is emitted from the image display panel 11. It is supposed to emit. The arrangement of the minute light transmitting portions 22 of the light control panel 12 is the same as or similar to the arrangement of the minute light transmitting portions 15 formed on the imaging light control panel 16 used when imaging the object 14.

On the other hand, since a two-dimensional image 24 is displayed on the light control panel 12 by means such as printing or painting, when viewing a three-dimensional image 23 through the light control panel 12 as shown in FIG. , The two-dimensional image 24 is also observed at the same time. Therefore, the three-dimensional image 23 is displayed so as to protrude in front of the two-dimensional image 24.
In this case, since the pixels of the three-dimensional image 23 are limited to the density of the minute light transmitting portions 22, it is difficult to obtain an extremely precise three-dimensional image, but the two-dimensional image 24 can be an extremely fine image. As a result, a clearer image can be observed. In FIG. 3, the backlight 13 is omitted.

In the above embodiment, an image formed on the image display panel 11 is created by optical means. For example, an XY stage as described in JP-A-6-78339 is used. A television camera is mounted on the camera, and gradually moved in the X and Y directions, that is, in the vertical and horizontal directions. Further, the television camera is imaged so as to face the convergence point of the optical axis represented by a straight line m shown in FIG. A small image of a predetermined size imaged corresponding to the imaging position is arranged on the image display panel 11, and the image display panel 1
It is also possible to form each small image displayed on 1. Further, it is also possible to form each small image of the viewpoint position described on the image display panel 11 that is gradually different by computer graphics.

Although the three-dimensional image 23 displayed in FIG. 3 is displayed smaller than the imaged object 14, the interval between the small images displayed on the image display panel 11 is increased to correspond to this. The light transmitting panel 2 of the light control panel 12
If the interval of 2 is widened, the enlarged stereoscopic image 23 can be seen. Even in this case, the straight line connecting the image center of each small image and the corresponding minute light transmitting portion, that is, the optical axis, is made to converge at one point in front of the light control panel 12.

[0014]

According to the three-dimensional image reproducing method and the three-dimensional image reproducing apparatus according to the fourth aspect of the present invention, the two-dimensional image displayed on the front of the light control panel can be clearly understood from the above description. Since an image and a three-dimensional image for observing the image display panel via the light control panel are simultaneously viewed, the three-dimensional image can be superimposed on the two-dimensional image. In this case, it is difficult to refine the pixels of the three-dimensional image, but a two-dimensional image is displayed on the front of the light control panel, so that a fine image can be displayed. It looks like an image. In the three-dimensional image reproducing method according to the second aspect, since the three-dimensional image appears to protrude toward the front side of the light control panel, a two-dimensional image can be used as a background, and animals and flowers can be used as the three-dimensional image. If they do, they will appear to stand out of the background. Claim 3
In the described stereoscopic image reproducing method, since the stereoscopic image is visible on the back side of the light control panel, even if the pixels of the stereoscopic image are coarse compared to the two-dimensional image, the entire image can be clearly observed. it can. In particular, it is suitable when the projected image in the two-dimensional image needs depth.

[Brief description of the drawings]

FIG. 1 is a perspective view of a stereoscopic image reproducing device according to an embodiment of the present invention.

FIG. 2 is an explanatory diagram of the same.

FIG. 3 is a detailed explanatory diagram of a recording / reproducing method of a stereoscopic image.

[Explanation of symbols]

REFERENCE SIGNS LIST 10 stereoscopic image reproducing device 11 image display panel 12 light control panel 13 backlight 14 object 15 minute light transmitting portion 16 imaging light control panel 17 recording panel 18 opening 19 light shielding panel 20 minute light transmitting portion 21 inversion light control Panel 22 Microscopic translucent part 23 Solid image 24 Two-dimensional image

Claims (4)

[Claims] An image display panel displays a large number of small images each showing an object having a slightly different viewing angle on an image display panel, and scattered light emitted from the image display panel is arranged in front of the image display panel to generate the small images. A method of reproducing a three-dimensional image to be reproduced through an opaque light control panel including a corresponding number of minute light-transmitting portions, wherein a two-dimensional image is displayed on a front side of the light control panel. 3D image reproduction method. 2. The method according to claim 1, wherein the three-dimensional image reproduced through the light control panel is formed on a front side of the light control panel, and the two-dimensional image is a background. 3. The stereoscopic image reproducing method according to claim 1, wherein the stereoscopic image reproduced through the light control panel is formed on a rear side of the light control panel, and the two-dimensional image is a foreground. 4. An image display panel on which a large number of small images displaying objects whose viewing angles are gradually different are displayed, and a minute image corresponding to each of the small images is arranged close to a front surface of the image display panel. A three-dimensional image reproducing device, comprising: a light control panel having a light-transmitting portion, a two-dimensional image displayed on a front surface thereof; and a lighting device for the image display panel.