JPH1026739A - Stereoscopic image display method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a stereoscopic image display method capable of processing image data in a short time while making an image data amount irreducible minimum at the time of displaying a stereoscopic image and also capable of displaying a bright stereoscopic image without raising luminance of a pixel in a small image. SOLUTION: This stereoscopic image display method forms a stereoscopic image by providing many small image areas 14 on an image display panel 11 and by transmitting scattering light 18-23 of small images to be respectively displayed on small image areas 14 from minute light transmission parts 16 respectively companioning to the small image areas 14 of a light control panel 12 arranged at the front side of the image display panel 11. In this case, the number of many small areas 14 is made to be the plural multiple of the number of original small image areas and the many small image areas 14 are divided into the same small image groups in which the same original small images are displayed.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a three-dimensional image display method for displaying a three-dimensional image based on a large number of small images which are two-dimensional image information.

[0002]

2. Description of the Related Art As means for displaying a three-dimensional image using a two-dimensional image, for example, the present applicant has previously described Japanese Patent Application Laid-Open No. H6-1333.
There is a three-dimensional image display device proposed in Japanese Patent Publication No. 40-240. This stereoscopic image display apparatus is arranged such that a large number of small images whose viewpoints are changed little by little are arranged side by side at small intervals in the vertical and horizontal directions, and a small distance is arranged in front of the multi image plane. A pinhole panel provided with a pinhole corresponding to an image, wherein a scattered light from each of the small images on the multi-image plane is observed through a pinhole panel disposed in front of the scattered light to observe a three-dimensional image of the object. Met. As a device for photographing small images to be displayed on the large number of multi-image planes, the present applicant has previously arranged a television camera on an XY table as described in JP-A-6-78339, It has been proposed that the television camera be moved little by little in the vertical and horizontal directions to capture an object from different viewpoints and obtain a small image to be displayed on the multi-image plane.

[0003]

However, the conventional stereoscopic image display method has the following problems. In order to obtain a fine stereoscopic image, a pinhole panel in which a very large number of pinholes, that is, minute light-transmitting portions are formed, that is, a light control panel is required, and a small image corresponding to the minute light-transmitting portion is required. Must be displayed on a multi-image plane, that is, an image display panel. Here, it is conceivable to reduce the number of minute light-transmitting parts, but since the three-dimensional image is constituted by a set of minute light-transmitting parts, the three-dimensional image becomes coarse, and furthermore, the number of light rays scattered by each small image is reduced. (Ie, the amount) is also reduced, which causes a problem that the stereoscopic image becomes dark. Therefore, in order to make the stereoscopic image clear and bright, an extremely large number of minute light-transmitting portions are provided, and a small image corresponding to this is provided in Japanese Patent Laid-Open Publication No.
In the case of using the apparatus described in Japanese Patent No. 78339 or an apparatus obtained by further developing the apparatus, the feed pitch of the television camera is small and further image processing needs to be performed. There is. The present invention has been made in view of such circumstances, and in displaying each small image on an image display panel, it is possible to obtain a brighter and clearer three-dimensional image by minimizing the amount of image data required. It is an object to provide an image display method.

[0004]

According to the present invention, there is provided a semiconductor device comprising:
In the stereoscopic image display method described above, a large number of small image areas are provided on an image display panel, and scattered light from the small images displayed in the small image areas is transmitted to a light disposed on the front side of the image display panel. In a three-dimensional image display method for forming a three-dimensional image by transmitting light from a small light transmitting portion paired with each of the small image regions of the control panel, the number of the large number of small image regions may be a multiple of the number of original small image regions. The multiple small image areas are divided into the same small image group in which the same original small image is displayed. Further, the stereoscopic image display method according to claim 2 is
2. The stereoscopic image display method according to claim 1, wherein the original small image includes image data obtained by gradually moving the television camera along a plane or a curved surface, and acquiring the position information together with the position information. The three-dimensional image display method according to claim 3 is
3. The three-dimensional image display method according to claim 1, wherein the image display panel is an advertisement panel or a display panel of a game machine.

Here, a small image is two-dimensional image data of an object having three-dimensional irregularities, which is a so-called subject, and scattered light from a large number of small images passes through a corresponding small light transmitting portion. And a three-dimensional image of the original subject is reproduced. The original small image refers to each of a large number of small images necessary to form a stereoscopic image, for example,
When a television camera is mounted on an XY stage described in JP-A-6-78339 and a stereoscopic image is captured, the image data is input at different positions on the XY axes. Further, as described in JP-A-6-133340, a pinhole panel having a large number of pinholes at predetermined intervals is arranged on the front surface of a recording screen (for example, a film or a CCD element). When an object is imaged, it refers to each small image formed on the recording screen by the individual pinhole or each small image obtained by converting the small image into an erect image. The original small image region refers to a small image region in which the adjacent small images are displayed with the original small images having different viewpoints little by little. The small light transmitting portion refers to a small light transmitting portion formed of a pinhole or the like installed on a light-impermeable light control panel, and is formed on the front surface corresponding to each small image. It has a function of selecting and passing scattered light from a small image displayed in a small image area on an image display panel in a specific direction. The image display panel is made of, for example, a photosensitive material such as a film or a photographic paper, or a liquid crystal panel, a CRT, a plasma display panel, or the like. This is a device for displaying.

[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 showing a schematic configuration of a three-dimensional image display device to which a three-dimensional image display method according to one embodiment of the present invention is applied, and FIGS. 2 and 3 are explanatory views of the same.

As shown in FIG. 1, a stereoscopic image display apparatus 10 to which a stereoscopic image display method according to one embodiment of the present invention is applied,
An image display panel 11 in which a number of small images are displayed in parallel in a vertical and horizontal direction, a light control panel 12 arranged at a small distance in front of the image display panel 11, and an image display panel 11
And a backlight 13 which is an example of an illumination lamp disposed on the back side of the backlight. Hereinafter, these will be described in detail.

The image display panel 11 is made of a film or printed matter, and emits scattered light of a number of small images displayed by the backlight 13 from the back. Each of the small images is formed on a large number of small image areas 14 formed on the image display panel as shown in FIG. A front image of the image display panel 11 is formed at a pitch of about 635 mm. Image display panel 1 composed of an extremely large number of small image areas 14
1 indicates a large number of the same small image groups 15 as indicated by solid lines in FIG.
Each of the same small image groups 15 has nine small image areas 14 as indicated by dotted lines in the same figure, and the same small image area 14 in each of the same small image groups 15 A to D are displayed.

As shown in FIG. 2, the small images (for example, A to D) are composed of original small images (for example, A _{1 to} D ₁ ) obtained by picking up an object from a position where the viewpoint is slightly changed. I have. As described above, in the creation of the original small image, for example, XY described in JP-A-6-78339 is used.
A method in which a television camera is mounted on a stage, or a pinhole panel having a large number of pinholes at predetermined intervals on a front surface of a recording screen (for example, a film or a CCD element) as described in JP-A-6-133340. There is a method of placing and performing. When an original small image is produced using a television camera, if the image data of the television camera is converted into a digital signal and stored in a computer, only the necessary portion of the data of the small image taken as necessary is stored. Cut it out,
It is possible to arbitrarily invert to a point object or to reduce or enlarge an image.

[0010] In addition, small image data, which is created by mounting a television camera on an XY stage disclosed in JP-A-6-78339 and has slightly different viewpoint positions, all have optical axes of the television camera parallel. Therefore, a reproduced stereoscopic image is formed on the back side of the image display panel 11, but the optical axis of the television camera mounted on the XY stage is concentrated at a point on the object, the front and rear of the object, or near the object. It is preferable to perform imaging in this manner, and it has been experimentally confirmed that a reproduced stereoscopic image can be formed on the front side of the image display panel 11 when the small image data thus captured is used.

On the light control panel 12, which is arranged with a small gap (for example, about the pitch of adjacent small image areas) on the front surface of the image display panel 11, a large number of minute light transmitting portions 16 are formed. However, each of the minute light transmitting portions 16 is formed so as to be located at the center position of each small image of the image display panel 11 arranged at the rear portion. The light control panel 12 is entirely formed of a light-impermeable thin panel, and the minute light-transmitting portions 16 are formed at predetermined intervals. Here, it is also possible to use a liquid crystal panel as the light control panel 12, whereby the position of the minute light transmitting portion 16 can be determined by electrical control and the size thereof can be changed to some extent. Brightness can also be controlled.

Next, a description will be given of a stereoscopic image display method according to an embodiment of the present invention using the stereoscopic image display device 10 having the above configuration. First, by fixing the image pickup device such as a TV camera to a predetermined reference position, for example by capturing an image of an object, photographs the first original sub-image A ₁ as shown in FIG. Then, a predetermined minute distance fraction from said reference position along a plane or curved surface facing the object, moving the television camera, obtaining the following original small image B ₁ by photographing the object in this position. Thereafter, such an operation is performed by gradually moving the television camera along a plane (X, Y) facing the object or a curved surface (X, Y, Z) at an equal distance from the object, and gradually moving the television camera. The original small image information, which is the source of the stereoscopic image, is obtained by repeatedly photographing at the set position. Note that FIG.
Like the original small image A ₁ to D ₁ only not indicated in the following description also will be described original small image A ₁ to D ₁ in the four, in practice little 500-10000 sheets viewpoint distance Different original small images are required each time, and in order to display a clearer stereoscopic image, a larger number of original small images having different viewpoint distances are required.

Another method for obtaining the original small image is to use a light control panel having a large number of pinholes.
Each original small image formed by the pinhole can be stored in a recording means such as a film or photographic paper. Then, each of the recorded original small images is divided and used. Actually, digital processing is performed using an image scanner or the like to obtain necessary original small image data. If possible, each original small image can be created by computer graphics. In this case,
In accordance with an object to be reproduced, an image having a slightly different viewing angle is created in a computer or on a display without being synthesized.

Next, each of the acquired original small images is converted into 9
The image display panel 11 is duplicated one by one to obtain four identical small image groups A _{2 to} D ₂ each composed of the same original small image.
In each of the small image areas above, the small image areas are arranged in correspondence with the arrangement of the original small images. In the embodiment shown in FIG. 2, each of the acquired original small images A _{1 to} D ₁ is duplicated nine times, and four identical small image groups A ₂ ( = A, A, A / A, A, A / A, A, A) -D
₂ (= D, D, D / D, D, D / D, D, D). Through the above operations, the image display panel 11 is completed. In this example, each original small image is a still image.However, a moving image may be formed by using a large number of television cameras or by using a pinhole panel and a wide imaging device such as a CCD disposed behind the pinhole panel. it can.

The image display panel 11 thus formed
Is observed through the light control panel 12 arranged on the front side with the backlight 13 on the back being operated, a stereoscopic image can be observed. This will be described in more detail with reference to FIG. As shown in FIG. 3, each small image area of the image display panel 11 has the same small image group A including nine small image areas.
Divided into ₂ ·· R ₂ ··, same small image as described above (A ·· R ··) is displayed in the same small image group. Accordingly, as shown in FIG. 3, among the scattered lights emitted from the specific position of each small image A displayed in each small image area, the scattered lights 18 to 20 passing through the corresponding minute light transmitting portions 16 become parallel, Furthermore, since the scattered lights 21 to 23 of the small images R passing from the specific position of the small image R and passing through the corresponding minute light transmitting portions 16 are parallel, the respective intersection points a to i correspond to the same object of the stereoscopic image. It becomes a pixel. Here, as in this embodiment, the pitch of the minute light transmitting portions 16 is, for example, 0.635 mm.
When these are small, these can be collected to form a small pixel. In this embodiment, since the scattered light is emitted from the nine minute light transmitting portions 16, the brightness of the three-dimensional image is increased.

Here, the case where the light-transmitting area of the minute light-transmitting portion is enlarged and the pitch of the minute light-transmitting portion is increased by that amount, and the case where a plurality of minute light-transmitting portions are provided as in the present embodiment. Comparing the three-dimensional image with that in the case where the light-transmitting area of the minute light-transmitting part is enlarged, the light passing through the minute light-transmitting part from one small image increases, and the sharpness of the image drops extremely. In the case of the present embodiment, the scattered light from the small image passing through the minute light transmitting portion, that is, a point at a specific position of the small image that enters the eyes of the observer, so that individual clear images overlap. As a result, scattered light appears to be emitted from the position of the center of gravity of each of the intersections a to i, and the sharpness of the image can be maintained to some extent.

By using the stereoscopic image display device to which the stereoscopic image display method according to the above-described embodiment is applied as an advertisement panel or a display panel of a game machine, it is possible to reduce a realistic three-dimensional image with less real image data. Can be displayed at the same time, can be operated at a high speed without requiring a large-capacity storage device, can be effectively advertised at a low price, and stimulate interest in gaming machines. can do.

The embodiment of the present invention has been described above.
The present invention is not limited to these embodiments, and all changes in conditions without departing from the gist are within the scope of the present invention. For example, in the present embodiment, the case where the shape of the small image area is a quadrangle and the small image data is 9 times has been described, but other multiples may be used, and the shape of the small image area may be a regular hexagon. It can also be configured as Although the number of copies is nine in the present embodiment, other numbers may be used.
In the above embodiment, the three-dimensional image is formed on the back of the image display panel. In FIG. 3, light scattered from each point of the small image displayed on the image display panel 11 is transmitted to the light control panel 12. The present invention is also applicable to a case where a stereoscopic image is formed in front of the light control panel 12 by forming an image in front of the light control panel 12. The light diffusion panel can be freely arranged between the image display panel 11 and the backlight 13, so that a three-dimensional image with more uniform brightness can be reproduced.

[0019]

According to the three-dimensional image display method of the present invention, the number of small image areas is set to be a multiple of the number of original small image areas, and each of the small image areas has the same size. Since the original small image is divided into the same displayed small image group, the brightness of the stereoscopic image can be increased within the required resolution range without increasing the information amount of the original small image, and the distortion is reduced. The enlarged stereoscopic image can be reproduced. In particular, in the stereoscopic image display method according to the second aspect, the original small image is image data obtained by gradually moving the television camera along a plane or a curved surface and acquiring the position information together with the position information. Image conversion such as movement, rotation, and deformation of a three-dimensional image can be easily performed. Claim 3
In the described three-dimensional image display method, since the image display panel is an advertisement panel or a display panel of a game machine, a moving image that moves a bright three-dimensional image with a minimum necessary image information amount by performing necessary image processing at high speed. Expression and the like can be made possible, and an advertising effect that evokes interest when used in an advertising panel and a realistic display effect with a three-dimensional effect in a game machine can be provided at low cost.

[Brief description of the drawings]

FIG. 1 is a perspective view showing a schematic configuration of a three-dimensional image display device to which a three-dimensional image display method according to one embodiment of the present invention is applied.

FIG. 2 is an explanatory diagram of the same.

FIG. 3 is an explanatory diagram of the same.

[Explanation of symbols]

REFERENCE SIGNS LIST 10 stereoscopic image display device 11 image display panel 12 light control panel 13 backlight 14 small image area 15 same small image group 16 minute light transmitting portion 18 scattered light 19 scattered light 20 scattered light 21 scattered light 22 scattered light 23 scattered light

Claims (3)

[Claims] A small number of small image areas are provided on an image display panel, and scattered light from small images respectively displayed in the small image areas is transmitted to a light control panel disposed on the front side of the image display panel. In the three-dimensional image display method of forming a three-dimensional image by transmitting light from a small light transmitting portion that forms a pair with each of the small image regions, the number of the large number of small image regions is set to be a multiple of the number of original small image regions, A stereoscopic image display method comprising: dividing a large number of small image regions into the same small image group in which a plurality of identical original small images are displayed. 2. The original small image is image data obtained by gradually moving a television camera along a flat surface or a curved surface and acquiring the position information together with the position information.
The stereoscopic image display method described in the above. 3. The display panel according to claim 1, wherein the image display panel is an advertisement panel or a display panel of a game machine.
Or the stereoscopic image display method according to 2.